1 *====================================================================* * * * * * * * * * FFFFF L U U K K AAA 222 000 11 11 * * F L U U K K A A 2 2 0 0 111 111 * * F L U U K K A A 2 0 0 1111 1111 * * FFFF L U U KK AAAAA == 2 0 0 11 11 * * F L U U K K A A 2 0 0 11 11 * * F L U U K K A A 2 0 0 11 11 * * F LLLLL UUU K K A A 22222 000 11111 11111 * * * * * * * * Version of Fluka2011 for GNU/Linux operating system * * * * By : * * * * Alfredo Ferrari & Paola Sala INFN Milan & CERN/EN * * * * Alfredo.Ferrari@cern.ch Paola.Sala@mi.infn.it * * * * * * Alberto Fasso` Jefferson Lab, Newport News * * * * afasso@jlab.org * * * * * * Johannes Ranft Siegen University * * * * Johannes.Ranft@cern.ch * * * * * * * * This version includes all the features of the Fluka2011 * * * * package * * * * * * * *====================================================================* FLUKA User license COPYRIGHT NOTICE AND LICENSE CONDITIONS Copyright Italian National Institute for Nuclear Physics (INFN) and European Organization for Nuclear Research (CERN), 1989-2013. All rights not expressly granted under this license are reserved. Requests for permissions not granted under this license shall be addressed to the FLUKA Collabora- tion Committee, through fcc@fluka.org. Any permission may only be granted in writing. This software results in particular from work performed by Alberto Fassò, Alfredo Ferrari, Johannes Ranft, Paola Sala (the "Authors"), and their collaborators (the "Collaborators"). INFN and CERN are the exclusive source of distribution of the code, bug fixes and documentation of the FLUKA software (FLUKA website), and may authorise distribution by mirror sites. This license cancels and replaces any prior license conditions but their warranty and liability provisions shall continue to apply to any use or modifications made under such prior license conditions. DEFINITIONS The FLUKA software ("FLUKA") means the fully integrated particle physics Monte Carlo simulation software package being developed since 1989, available from the official FLUKA website (http://www.fluka.org) and authorised mirror sites. FLUKA is made up of FLUKA core code and FLUKA User Routines. The FLUKA Copyright Holders means both CERN and INFN. FLUKA User Routines means the set of subroutines collected in the usermvax section of FLUKA and forming part of the standard distribution of FLUKA. The Licensee means any person acting individually within a non-profit organisation, exercising any permission granted by this license. LICENSE GRANT 1. Subject to the terms and conditions of this license, the FLUKA Copyright Holders herewith grant to the Licensee a worldwide, non-exclusive, royalty-free, source and object code license to use and reproduce FLUKA for internal scientific non commercial non-military purposes only. Notwithstanding the foregoing, the Licensee shall not execute FLUKA in a manner that produces an output whose contents are directly useable or easily employable to simulate the physics models embedded within FLUKA in a generic manner, or excise portions of FLUKA source or object code, and execute them independently of FLUKA. Extracting specific isolated results from any of the individual internal physics models embedded within FLUKA is not permitted. Permitted use and reproduction are referred to below as "Use". 2. Modification (including translation) of FLUKA, in whole or in part, is not permitted, except for modification of FLUKA User Routines that do not circumvent, replace, add to or modify any of the functions of the FLUKA core code. Permitted modifications are referred to below as "Modifications". 3. FLUKA is licensed for Use by the Licensee only, and the Licensee shall not market, distribute, transfer, license or sub-license, or in any way make available ("Make Available") FLUKA or Modifications, in whole or in part, to third parties, without prior written permission. The Licensee shall not assign or transfer this license. 4. Notwithstanding section 3, the Licensee may Make Available his Modifications of FLUKA User Routines to third parties under these license conditions. 5. The Licensee shall not insert FLUKA code or Modifications, in whole or in part, into other codes without prior written permission. 6. Any use of FLUKA outside the scope of this license is subject to prior written permission. GRANT BACK 7. The Licensee shall in a timely fashion notify to fcc@fluka.org any Modifications carried out by him. Except for Authors, Collaborators, and employees of the FLUKA Copyright Holders, the copyright in whose Modifications shall automatically be vested in the FLUKA Copyright Holders, the Licensee herewith grants the FLUKA Copyright Holders a perpetual, royalty- free, irrevocable and non-exclusive license to his Modifications, with no limitation of use. The Licensee acknowledges that the FLUKA Copyright Holders may insert such Modifications into future releases of FLUKA, subject to appropriate acknowledgment of the Licensee's contribution. 8. The Licensee shall report as soon as practical any errors or bugs found in any portion of FLUKA to fluka-discuss@fluka.org PUBLICATIONS AND ACKNOWLEDGEMENT 9. The Licensee shall explicitly acknowledge his use of FLUKA in any publication or communication, scientific or otherwise, relating to such use, by citing the FLUKA set of references (http://www.fluka.org, see below) and the FLUKA copyright notice. 10. The Licensee shall ensure that the FLUKA set of references, the FLUKA copyright notice and these license conditions are not altered or removed from FLUKA and that all embodiments of FLUKA and Modifications contain in full the FLUKA set of references, the FLUKA copyright notice, and these license conditions. 11. Any insertion of FLUKA code or Modifications, in whole or in part, into other codes with permission under section 5 shall preserve the FLUKA set of references, the FLUKA copyright notice and these license conditions in the FLUKA code or Modifications concerned, and must also reproduce these within any additional global notices included along or embedded within the software into which the FLUKA code or the Modifications have been integrated, in whole or in part. Any part of the FLUKA code or Modifications so inserted shall continue to be subject to these license conditions. 12. Publication of any results of comparisons of specific internal physics models extracted from FLUKA with permission under section 6 with data or with other codes or models is subject to prior written permission. 13. Contributions to any formal code comparisons and validation exercises pertaining to FLUKA, sponsored by recognised bodies or within the framework of recognised conferences and workshops, are subject to prior written permission. WARRANTY AND LIABILITY 14. DISCLAIMER FLUKA IS PROVIDED BY THE FLUKA COPYRIGHT HOLDERS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, IMPLIED WARRANTIES OF MERCHANTABILITY, OF SATISFACTORY QUALITY, AND FITNESS FOR A PARTICULAR PURPOSE OR USE ARE DISCLAIMED. THE FLUKA COPYRIGHT HOLDERS AND THE AUTHORS MAKE NO REPRESENTATION THAT FLUKA AND MODIFICATIONS THEREOF WILL NOT INFRINGE ANY PATENT, COPYRIGHT, TRADE SECRET OR OTHER PROPRIETARY RIGHT. 15. LIMITATION OF LIABILITY THE FLUKA COPYRIGHT HOLDERS AND ANY CONTRIBUTOR SHALL HAVE NO LIABILITY FOR DIRECT, INDIRECT, SPECIAL, INCIDENTAL, CONSEQUENTIAL, EXEMPLARY, PUNITIVE OR OTHER DAMAGES OF ANY CHARACTER INCLUDING, WITHOUT LIMITATION, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES, LOSS OF USE, DATA OR PROFITS, OR BUSINESS INTERRUPTION, HOWEVER CAUSED AND ON ANY THEORY OF CONTRACT, WARRANTY, TORT (INCLUDING NEGLIGENCE), PRODUCT LIABILITY OR OTHERWISE, ARISING IN ANY WAY OUT OF THE USE OF FLUKA, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGES, AND THE LICENSEE SHALL HOLD THE COPYRIGHT HOLDERS AND ANY CONTRIBUTOR FREE AND HARMLESS FROM ANY LIABILITY, INCLUDING CLAIMS BY THIRD PARTIES, IN RELATION TO SUCH USE. TERMINATION 16. This license shall terminate with immediate effect and without notice if the Licensee fails to comply with any of the terms of this license, or if the Licensee initiates litigation against any of the FLUKA Copyright Holders or any contributors with regard to FLUKA. It shall also terminate with immediate effect from the date on which a new version of FLUKA becomes available. In either case sections 14 and 15 above shall continue to apply to any Use or Modifications made under these license conditions. FLUKA set of references, subject to change "The FLUKA code: Description and benchmarking" G. Battistoni, S. Muraro, P.R. Sala, F. Cerutti, A. Ferrari, S. Roesler, A. Fasso`, J. Ranft, Proceedings of the Hadronic Shower Simulation Workshop 2006, Fermilab 6--8 September 2006, M.Albrow, R. Raja eds., AIP Conference Proceeding 896, 31-49, (2007) "FLUKA: a multi-particle transport code" A. Fasso`, A. Ferrari, J. Ranft, and P.R. Sala, CERN-2005-10 (2005), INFN/TC_05/11, SLAC-R-773 Additional FLUKA references can be added, provided they are relevant for the FLUKA version under consideration. !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!! DOWNLOAD/USE OF THE FLUKA SOFTWARE IMPLIES FULL !!!! !!!! ACCEPTANCE AND COMPLIANCE WITH THE LICENSE !!!! !!!! CONDITIONS !!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! Note: The Nuclear Energy Agency Data Bank is an authorized distributor of the code 1 **************************************************************************************************** FLUKA2011 Version 2b.6 Apr-14 by A. Ferrari DATE: 6/27/14 TIME: 13:23:17 **************************************************************************************************** ***** Next control card ***** TITLE 0.000 0.000 0.000 0.000 0.000 0.000 *---------------- Detector height above mezzanine floor in cm ----------------* *---------------- Set the defaults for precision simulations ----------------* ***** Next control card ***** DEFAULTS 0.000 0.000 0.000 0.000 0.000 0.000 PRECISIO *---------------- Define the beam characteristics ----------------* *---------------- Define the beam position ----------------* *---------------- Concrete ----------------* *---------------- Concrete has a wide variation in density and composition. The above ----------------* *---------------- description is for poured structural concrete with 10% moisture ----------------* *---------------- content. Concrete block will have a density of about 2.05 g/cm3. ----------------* *---------------- Ranges of concrete composition are : C (8-25%), O (38-60%), Si (8-18%). ----------------* *---------------- Concrete composition can be analyzed cheaply by commercial laboratories. ----------------* *---------------- Concrete portland ----------------* *---------------- ----------------* *---------------- Steel316LN ----------------* *---------------- Stainless steel AISI316LN ----------------* *---------------- Plastic scintillator vinyltoluene based ----------------* *---------------- ----------------* *---------------- ..+....1....+....2....+....3....+....4....+....5....+....6....+....7.. ----------------* *---------------- USRTRACK -1. NEUTRON -43. DET1 309. 100.roofne ----------------* *---------------- USRTRACK 3. 1.E-14 & ----------------* ***** Next control card ***** ROT-DEFI 200.0 0.000 8.000 -235.1 0.000 -234.3 wall **** Density scaling factors start at location 1 and end at 4000 (I*4 addr.) **** ***** Next control card ***** ROT-DEFI 200.0 0.000 12.00 -235.1 0.000 -234.3 swall ***** Next control card ***** ROT-DEFI 200.0 0.000 2.000 -149.5 0.000 -1708. wall1 ***** Next control card ***** ROT-DEFI 200.0 0.000 6.000 -149.5 0.000 -1708. swall1 ***** Next control card ***** ROT-DEFI 200.0 0.000 14.00 -166.7 0.000 975.2 wall2 ***** Next control card ***** ROT-DEFI 200.0 0.000 18.00 -166.7 0.000 975.2 swall2 ***** Next control card ***** ROT-DEFI 0.000 0.000 0.000 0.000 0.000 -188.0 kick2 ***** Next control card ***** ROT-DEFI 0.000 0.000 0.000 0.000 0.000 -532.0 kick3 ***** Next control card ***** ROT-DEFI 0.000 0.000 0.000 0.000 0.000 -720.0 kick4 ***** Next control card ***** ROT-DEFI 0.000 0.000 0.000 4.000 0.000 -446.0 sept ***** Next control card ***** ROT-DEFI 200.0 0.000 9.000 37.70 0.000 -82.20 dcsept *---------------- Set the random number seed ----------------* *---------------- Set the number of primary histories to be simulated in the run ----------------* ***** Next control card ***** BEAM -3.000 3.0000E-02 0.000 0.000 0.000 0.000 ELECTRON ***** Next control card ***** BEAMPOS -12.90 0.000 268.6 8.7156E-02 0.000 0.000 ***** Next control card ***** GEOBEGIN 0.000 0.000 0.000 0.000 0.000 0.000 COMBNAME 1 IVLFLG= 0 IDBG = 0 Body data * *--------------- Black body ---------------* * * *--------------- Void sphere ---------------* * SPH blkbody 1 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.10000000D+06 0.00000000D+00 0.00000000D+00 5 * *--------------- ---------------* * * *--------------- @what.1=-30*inch ---------------* * * *--------------- @what.2=-6*inch ---------------* * * *--------------- @what.5=b(blk1,6) ---------------* * * *--------------- @what.6=w(5)+48*inch ---------------* * SPH void 2 0.00000000D+00 0.00000000D+00 0.25000000D+03 0.55000000D+03 0.00000000D+00 0.00000000D+00 15 RPP plug2 3 -0.76200000D+02 -0.15240000D+02 -0.12000000D+03 0.20000000D+03 0.11900000D+04 0.13119200D+04 25 RPP blk1 4 -0.99000000D+02 0.00000000D+00 -0.12000000D+03 0.20000000D+03 -0.10000000D+01 0.11900000D+04 35 * *--------------- increased size block ---------------* * * *--------------- @what.2=16*inch ---------------* * * *--------------- @what.6=3*m ---------------* * RPP blk2 5 -0.10000000D+03 0.19500000D+03 -0.12000000D+03 0.20000000D+03 -0.15800000D+03 0.10000000D+01 45 RPP cblk 6 0.00000000D+00 0.40640000D+02 -0.12000000D+03 0.20000000D+03 -0.30000000D+01 0.30000000D+03 55 XYP pl0 7 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 65 * *--------------- @what.1=sind(94-90) ---------------* * * *--------------- @what.3=cosd(94-90) ---------------* * YZP pp1 8 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 75 * *--------------- @what.1=sind(186-90) ---------------* * * *--------------- @what.3=cosd(186-90) ---------------* * * *--------------- @what.4=b(pl1,4)+sind(94)*1955.*mm ---------------* * * *--------------- @what.6=b(pl1,6)+cosd(94)*1955.*mm ---------------* * PLA pl1 9 0.69756474D-01 0.00000000D+00 0.99756405D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 85 * *--------------- @what.1=sind(274-90) ---------------* * * *--------------- @what.3=cosd(274-90) ---------------* * * *--------------- @what.4=b(pl2,4)+sind(186)*1448.*mm ---------------* * * *--------------- @what.6=b(pl2,6)+cosd(186)*1448.*mm ---------------* * PLA pl2 10 0.99452190D+00 0.00000000D+00 -0.10452846D+00 0.19502377D+03 0.00000000D+00 -0.13637391D+02 95 * *--------------- @what.1=sind(330-90) ---------------* * * *--------------- @what.3=cosd(330-90) ---------------* * * *--------------- @what.4=b(pl3,4)+sind(274)*2122.*mm ---------------* * * *--------------- @what.6=b(pl3,6)+cosd(274)*2122.*mm ---------------* * PLA pl3 11 -0.69756474D-01 0.00000000D+00 -0.99756405D+00 0.17988805D+03 0.00000000D+00 -0.15764416D+03 105 * *--------------- @what.1=sind(0.8525-90) ---------------* * * *--------------- @what.3=cosd(0.8525-90) ---------------* * * *--------------- @what.4=b(pl4,4)+sind(330)*1352.*mm ---------------* * * *--------------- @what.6=b(pl4,6)+cosd(330)*1352.*mm ---------------* * PLA pl4 12 -0.86602540D+00 0.00000000D+00 -0.50000000D+00 -0.31795041D+02 0.00000000D+00 -0.14284184D+03 115 * *--------------- ---------------* * PLA pl5 13 -0.99988931D+00 0.00000000D+00 0.14878383D-01 -0.99395041D+02 0.00000000D+00 -0.25755203D+02 125 RPP blk3 14 -0.99000000D+02 0.00000000D+00 -0.12000000D+03 0.20000000D+03 -0.10000000D+01 0.10500000D+04 135 RPP blk4 15 -0.10000000D+03 0.26500000D+03 -0.12000000D+03 0.20000000D+03 -0.17000000D+03 0.10000000D+01 145 XYP pl6 16 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 155 * *--------------- @what.1=sind(94-90) ---------------* * * *--------------- @what.3=cosd(94-90) ---------------* * YZP pp2 17 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 165 * *--------------- @what.1=sind(186-90) ---------------* * * *--------------- @what.3=cosd(186-90) ---------------* * * *--------------- @what.4=b(pl7,4)+sind(94)*2621.*mm ---------------* * * *--------------- @what.6=b(pl7,6)+cosd(94)*2621.*mm ---------------* * PLA pl7 18 0.69756474D-01 0.00000000D+00 0.99756405D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 175 * *--------------- @what.1=sind(274-90) ---------------* * * *--------------- @what.3=cosd(274-90) ---------------* * * *--------------- @what.4=b(pl8,4)+sind(186)*1473.*mm ---------------* * * *--------------- @what.6=b(pl8,6)+cosd(186)*1473.*mm ---------------* * PLA pl8 19 0.99452190D+00 0.00000000D+00 -0.10452846D+00 0.26146154D+03 0.00000000D+00 -0.18283172D+02 185 * *--------------- @what.1=sind(330-90) ---------------* * * *--------------- @what.3=cosd(330-90) ---------------* * * *--------------- @what.4=b(pl9,4)+sind(274)*2784.*mm ---------------* * * *--------------- @what.6=b(pl9,6)+cosd(274)*2784.*mm ---------------* * PLA pl9 20 -0.69756474D-01 0.00000000D+00 -0.99756405D+00 0.24606449D+03 0.00000000D+00 -0.16477625D+03 195 * *--------------- @what.1=sind(1.-90) ---------------* * * *--------------- @what.3=cosd(1.-90) ---------------* * * *--------------- @what.4=b(pl10,4)+sind(330)*1359.*mm ---------------* * * *--------------- @what.6=b(pl10,6)+cosd(330)*1359.*mm ---------------* * PLA pl10 21 -0.86602540D+00 0.00000000D+00 -0.50000000D+00 -0.31657337D+02 0.00000000D+00 -0.14535604D+03 205 * *--------------- ---------------* * * *--------------- @what.1=w(2)-15. ---------------* * * *--------------- @what.5=b(blk5,6)-12*inch ---------------* * * *--------------- @what.6=w(5)+60*inch ---------------* * PLA pl11 22 -0.99984770D+00 0.00000000D+00 0.17452406D-01 -0.99607337D+02 0.00000000D+00 -0.27663192D+02 215 * *--------------- @what.1=w(2)-10. ---------------* * * *--------------- @what.2=b(doorpol,1) ---------------* * * *--------------- @what.5=b(blk5,6)-12*inch ---------------* * * *--------------- @what.6=w(5)+60*inch ---------------* * RPP doorpol 23 -0.15000000D+02 0.00000000D+00 -0.12000000D+03 0.20000000D+03 0.89992000D+03 0.10523200D+04 225 * *--------------- @what.1=w(2)-5. ---------------* * * *--------------- @what.2=b(doorfe,1) ---------------* * * *--------------- @what.5=b(blk5,6)-12*inch ---------------* * * *--------------- @what.6=w(5)+60*inch ---------------* * RPP doorfe 24 -0.25000000D+02 -0.15000000D+02 -0.12000000D+03 0.20000000D+03 0.89992000D+03 0.10523200D+04 235 * *--------------- @what.1=w(2)-20*inch ---------------* * * *--------------- @what.2=b(doorpb,1) ---------------* * * *--------------- @what.5=b(blk5,6)+36*inch ---------------* * * *--------------- @what.6=w(5)+12*inch ---------------* * RPP doorpb 25 -0.30000000D+02 -0.25000000D+02 -0.12000000D+03 0.20000000D+03 0.89992000D+03 0.10523200D+04 245 * *--------------- @what.1=w(2)-20*inch ---------------* * * *--------------- @what.2=b(doorpb,1) ---------------* * * *--------------- @what.5=b(blk5,6) ---------------* * * *--------------- @what.6=w(5)+36*inch ---------------* * RPP dooradd 26 -0.80800000D+02 -0.30000000D+02 -0.12000000D+03 0.20000000D+03 0.10218400D+04 0.10523200D+04 255 RPP doorblk 27 -0.80800000D+02 -0.30000000D+02 -0.12000000D+03 0.20000000D+03 0.93040000D+03 0.10218400D+04 265 RPP blk5 28 -0.99000000D+02 0.00000000D+00 -0.12000000D+03 0.20000000D+03 -0.10000000D+01 0.93040000D+03 275 RPP blk6 29 -0.10000000D+03 0.24500000D+03 -0.12000000D+03 0.20000000D+03 -0.17000000D+03 0.10000000D+01 285 XYP pl12 30 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 295 * *--------------- @what.1=sind(94-90) ---------------* * * *--------------- @what.3=cosd(94-90) ---------------* * YZP pp3 31 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 305 * *--------------- @what.1=sind(186-90) ---------------* * * *--------------- @what.3=cosd(186-90) ---------------* * * *--------------- @what.4=b(pl13,4)+sind(94)*2400.*mm ---------------* * * *--------------- @what.6=b(pl13,6)+cosd(94)*2400.*mm ---------------* * PLA pl13 32 0.69756474D-01 0.00000000D+00 0.99756405D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 315 * *--------------- @what.1=sind(274-90) ---------------* * * *--------------- @what.3=cosd(274-90) ---------------* * * *--------------- @what.4=b(pl14,4)+sind(186)*1473.*mm ---------------* * * *--------------- @what.6=b(pl14,6)+cosd(186)*1473.*mm ---------------* * PLA pl14 33 0.99452190D+00 0.00000000D+00 -0.10452846D+00 0.23941537D+03 0.00000000D+00 -0.16741554D+02 325 * *--------------- @what.1=sind(330-90) ---------------* * * *--------------- @what.3=cosd(330-90) ---------------* * * *--------------- @what.4=b(pl15,4)+sind(274)*2563.*mm ---------------* * * *--------------- @what.6=b(pl15,6)+cosd(274)*2563.*mm ---------------* * PLA pl15 34 -0.69756474D-01 0.00000000D+00 -0.99756405D+00 0.22401833D+03 0.00000000D+00 -0.16323463D+03 335 * *--------------- @what.1=sind(1.125-90) ---------------* * * *--------------- @what.3=cosd(1.125-90) ---------------* * * *--------------- @what.4=b(pl16,4)+sind(330)*1359.*mm ---------------* * * *--------------- @what.6=b(pl16,6)+cosd(330)*1359.*mm ---------------* * PLA pl16 35 -0.86602540D+00 0.00000000D+00 -0.50000000D+00 -0.31657337D+02 0.00000000D+00 -0.14535604D+03 345 PLA pl17 36 -0.99980724D+00 0.00000000D+00 0.19633692D-01 -0.99607337D+02 0.00000000D+00 -0.27663192D+02 355 RPP floor 37 -0.50000000D+03 0.10000000D+04 -0.22000000D+03 -0.12000000D+03 -0.15000000D+04 0.15000000D+04 365 * *--------------- @what.2=b(roof,4)+DHeight ---------------* * * *--------------- @what.5=6.*inch ---------------* * * *--------------- @what.7=30.*inch ---------------* * RPP roof 38 -0.50000000D+03 0.10000000D+04 0.20000000D+03 0.28000000D+03 -0.15000000D+04 0.15000000D+04 375 * *--------------- Biasing cylinder ---------------* * RCC det1 39 0.00000000D+00 0.31000000D+03 0.40000000D+03 0.00000000D+00 0.15240000D+02 0.00000000D+00 385 0.76200000D+02 RCC cyl1 40 0.00000000D+00 0.20010000D+03 0.40000000D+03 0.00000000D+00 0.15000000D+03 0.00000000D+00 396 0.10000000D+03 * *--------------- Kicker body ---------------* * RPP inwall 41 -0.33400000D+03 -0.21800000D+03 -0.12000000D+03 0.20000000D+03 -0.15000000D+04 0.15000000D+04 407 * *--------------- Kicker apperture ---------------* * RPP kickblk 42 -0.79000000D+01 0.79000000D+01 -0.70000000D+01 0.45000000D+01 -0.32500000D+02 0.32500000D+02 417 * *--------------- Replica2 ---------------* * * *--------------- @what.1=b(kickblk,1) ---------------* * * *--------------- @what.2=b(kickblk,2) ---------------* * * *--------------- @what.3=b(kickblk,3) ---------------* * * *--------------- @what.4=b(kickblk,4) ---------------* * * *--------------- @what.5=b(kickblk,5) ---------------* * * *--------------- @what.6=b(kickblk,6) ---------------* * RPP kickapp 43 -0.47700000D+01 0.47700000D+01 -0.16500000D+01 0.16500000D+01 -0.32600000D+02 0.32600000D+02 427 * *--------------- Replica3 ---------------* * * *--------------- @what.1=b(kickblk,1) ---------------* * * *--------------- @what.2=b(kickblk,2) ---------------* * * *--------------- @what.3=b(kickblk,3) ---------------* * * *--------------- @what.4=b(kickblk,4) ---------------* * * *--------------- @what.5=b(kickblk,5) ---------------* * * *--------------- @what.6=b(kickblk,6) ---------------* * RPP kickblk2 44 -0.79000000D+01 0.79000000D+01 -0.70000000D+01 0.45000000D+01 -0.32500000D+02 0.32500000D+02 437 * *--------------- Replica4 ---------------* * * *--------------- @what.1=b(kickblk,1) ---------------* * * *--------------- @what.2=b(kickblk,2) ---------------* * * *--------------- @what.3=b(kickblk,3) ---------------* * * *--------------- @what.4=b(kickblk,4) ---------------* * * *--------------- @what.5=b(kickblk,5) ---------------* * * *--------------- @what.6=b(kickblk,6) ---------------* * RPP kickblk3 45 -0.79000000D+01 0.79000000D+01 -0.70000000D+01 0.45000000D+01 -0.32500000D+02 0.32500000D+02 447 * *--------------- Stored beam pipe outside ---------------* * RPP kickblk4 46 -0.79000000D+01 0.79000000D+01 -0.70000000D+01 0.45000000D+01 -0.32500000D+02 0.32500000D+02 457 * *--------------- Stored beam pipe inside (3mm wall) ---------------* * * *--------------- @what.1=b(esbmpipe,1) ---------------* * * *--------------- @what.2=b(esbmpipe,2) ---------------* * * *--------------- @what.3=b(esbmpipe,3)-3*mm ---------------* * * *--------------- @what.4=b(esbmpipe,4)-3*mm ---------------* * ZEC esbmpipe 47 0.40000000D+01 0.00000000D+00 0.28000000D+01 0.15500000D+01 0.00000000D+00 0.00000000D+00 467 * *--------------- Outer radius of septum yoke ---------------* * ZEC esbphole 48 0.40000000D+01 0.00000000D+00 0.25000000D+01 0.12500000D+01 0.00000000D+00 0.00000000D+00 477 * *--------------- Inner radius of septum yoke ---------------* * RCC esptout 49 -0.17745000D+04 -0.35000000D+01 0.00000000D+00 0.00000000D+00 0.70000000D+01 0.00000000D+00 487 0.17770000D+04 * *--------------- Downstream Septum cut ---------------* * RCC esptinr 50 -0.17795000D+04 -0.35000000D+01 0.00000000D+00 0.00000000D+00 0.70000000D+01 0.00000000D+00 498 0.17770000D+04 * *--------------- Downstream Septum beampipe cut ---------------* * XYP esptds 51 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 509 * *--------------- Upstream Septum beampipe cut (extended to prev kicker) ---------------* * XYP esptdsbp 52 0.53499900D+02 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 519 * *--------------- Upstream Septum cut ---------------* * XYP esptusbp 53 -0.22549900D+03 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 529 * *--------------- Outside cut ---------------* * PLA esptus 54 -0.78807081D-01 0.00000000D+00 -0.99688989D+00 -0.55000000D+01 0.00000000D+00 -0.14000000D+03 539 * *--------------- Outer radius of septum vacuum ---------------* * YZP esptxct 55 0.12000000D+01 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 549 * *--------------- Inner radius of septum vacuum ---------------* * RCC esptvcot 56 -0.17760000D+04 -0.50000000D+00 0.00000000D+00 0.00000000D+00 0.10000000D+01 0.00000000D+00 559 0.17770000D+04 * *--------------- Lead curtain out (moved 3cm closer) ---------------* * * *--------------- @what.1=26.35-3*cm ---------------* * * *--------------- @what.2=51.65-3*cm ---------------* * RCC esptvcin 57 -0.17780000D+04 -0.50000000D+00 0.00000000D+00 0.00000000D+00 0.10000000D+01 0.00000000D+00 570 0.17770000D+04 * *--------------- Lead curtain in ---------------* * RPP shield 58 0.23350000D+02 0.48650000D+02 -0.21400000D+02 0.39500000D+02 0.97000000D+02 0.76200000D+03 581 * *--------------- Lead curtain top (NOT increased thickness by 5cm) ---------------* * * *--------------- @what.4=55.8+0*cm ---------------* * RPP shield1 59 -0.62850000D+02 -0.47650000D+02 -0.11900000D+02 0.39500000D+02 0.46200000D+03 0.76200000D+03 591 * *--------------- DC sept yoke ---------------* * RPP shieldtp 60 -0.42850000D+02 0.22850000D+02 0.35500000D+02 0.55800000D+02 0.11600000D+03 0.76200000D+03 601 * *--------------- DC sept aperture ---------------* * RPP dcsept 61 -0.16000000D+02 0.16000000D+02 -0.28000000D+02 0.28000000D+02 -0.60000000D+02 0.60000000D+02 611 RPP dcseptap 62 -0.20000000D+01 0.16100000D+02 -0.10000000D+01 0.10000000D+01 -0.60100000D+02 0.60100000D+02 621 XZP pla1 63 0.24000000D+03 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 631 END 64 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 641 Number of bodies 63 Length of FPD-Array 646 Accuracy parameter: 1.64E-04 suggested: 1.64E-04 Detected max. geometry dimension: 3.56E+03 cm Input region data * *--------------- Black hole ---------------* * BLKBODY 10 + blkbody - void * *--------------- Void around ---------------* * VOID 10 | + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esbmpipe - esptout - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptinr + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esbmpipe - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esbmpipe - esptds - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esbmpipe - esptus - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esbmpipe - esptxct - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptdsbp - esptout - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptinr + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptdsbp - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptds - esptdsbp - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptdsbp - esptus - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptdsbp - esptxct - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptusbp + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptout - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptinr + esptusbp + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptusbp + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptds - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptusbp + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptus - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptusbp + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptxct - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptxct + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptout - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptinr + esptxct + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptxct + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptds - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + esptxct + void - blk1 - blk2 - blk5 - cblk - cyl1 - dcsept - dooradd - doorblk - doorfe - doorpb - doorpol - esptus - floor - inwall - kickblk - kickblk2 - kickblk3 - kickblk4 - roof - shield - shield1 - shieldtp | + kickapp | + dcseptap * *--------------- Void around ---------------* * VOID1 10 | + blk1 + pl0 + void - blk2 - cblk - dooradd - doorfe - doorpb - doorpol | + blk2 + void - blk1 - cblk - dooradd - doorfe - doorpb - doorpol - pl0 | + blk2 + void - blk1 - cblk - dooradd - doorfe - doorpb - doorpol - pl1 | + blk1 + pl0 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl1 | + blk2 + pl0 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl1 | + blk2 + void - blk1 - cblk - dooradd - doorfe - doorpb - doorpol - pl2 | + blk1 + pl0 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl2 | + blk2 + pl0 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl2 | + blk2 + void - blk1 - cblk - dooradd - doorfe - doorpb - doorpol - pl3 | + blk1 + pl0 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl3 | + blk2 + pl0 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl3 | + blk2 + void - blk1 - cblk - dooradd - doorfe - doorpb - doorpol - pl4 | + blk1 + pl0 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl4 | + blk2 + pl0 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl4 | + blk1 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl5 | + blk2 + void - cblk - dooradd - doorfe - doorpb - doorpol - pl5 | + dooradd + pl3 + void - blk1 - blk2 - cblk | + blk1 + pl0 + pl3 + void - blk2 - cblk | + dooradd + pl0 + pl3 + void - blk2 - cblk | + blk2 + pl3 + void - blk1 - cblk - pl0 | + dooradd + pl3 + void - blk1 - cblk - pl0 | + blk2 + pl3 + void - blk1 - cblk - pl1 | + dooradd + pl3 + void - blk1 - cblk - pl1 | + blk1 + pl0 + pl3 + void - cblk - pl1 | + blk2 + pl0 + pl3 + void - cblk - pl1 | + dooradd + pl0 + pl3 + void - cblk - pl1 | + blk2 + pl3 + void - blk1 - cblk - pl2 | + dooradd + pl3 + void - blk1 - cblk - pl2 | + blk1 + pl0 + pl3 + void - cblk - pl2 | + blk2 + pl0 + pl3 + void - cblk - pl2 | + dooradd + pl0 + pl3 + void - cblk - pl2 | + blk2 + pl3 + void - blk1 - cblk - pl4 | + dooradd + pl3 + void - blk1 - cblk - pl4 | + blk1 + pl0 + pl3 + void - cblk - pl4 | + blk2 + pl0 + pl3 + void - cblk - pl4 | + dooradd + pl0 + pl3 + void - cblk - pl4 | + blk1 + pl3 + void - cblk - pl5 | + blk2 + pl3 + void - cblk - pl5 | + dooradd + pl3 + void - cblk - pl5 * *--------------- Void around ---------------* * VOID3 10 | + blk5 + pl12 + void | + blk5 + void - pl17 * *--------------- Void around ---------------* * VOID4 10 | + roof + void - pl14 - pp1 - pp2 - pp3 | + roof + void - pl13 - pp1 - pp2 - pp3 | + roof + void - pl1 - pl14 - pp1 - pp2 | + roof + void - pl1 - pl13 - pp1 - pp2 | + roof + void - pl14 - pl7 - pp2 - pp3 | + roof + void - pl13 - pl7 - pp2 - pp3 | + roof + void - pl1 - pl14 - pl7 - pp2 | + roof + void - pl1 - pl13 - pl7 - pp2 KICKER1 10 + kickblk - kickapp KICKER2 10 + kickblk2 KICKER3 10 + kickblk3 KICKER4 10 + kickblk4 WALL 10 + void + blk1 - pl0 + pl5 | + blk2 + pl0 + pl1 + pl2 + pl3 + pl4 + pl5 | + dooradd - pl3 WALL2 10 + blk5 - pl12 + pl17 - doorpol - doorfe - doorpb + void DOORPOLY 10 + doorpol - pl3 DOORFE 10 + doorfe - pl3 DOORPB 10 + doorpb - pl3 DOORBLK 10 + doorblk CBLOCK 10 + cblk - pl1 FLOOR 10 + floor + void INWALL 10 + inwall + void ROOF 10 + roof + pl14 + pl13 + void | + roof + pp3 + pl1 + void | + roof + pp1 + pl7 - cyl1 + void | + roof + pp2 - cyl1 + void ROOF1 10 + roof + cyl1 + pla1 ROOF2 10 + roof + cyl1 - pla1 VOID5 5 + void + cyl1 - roof - det1 DET1 10 + det1 * *--------------- Septum Steel Yoke ---------------* * EXTSPTUM 10 | + esptds + esptout + esptus + esptxct - esptinr - esptvcot | + esptds + esptout + esptus + esptvcin + esptxct - esptinr * *--------------- Septum Vacuum ---------------* * EXSPTVAC 10 + esptvcot - esptvcin + esptds + esptus * *--------------- Septum Stored Beam Pipe ---------------* * EXSPTBP 10 + esbmpipe - esbphole + esptdsbp - esptusbp - esptxct * *--------------- Septum Stored Beam Pipe ---------------* * EXSPBPV 10 + esbphole + esptdsbp - esptusbp SHIELD 10 + shield | + shield1 SHIELDTP 10 + shieldtp DCSEPT 10 + dcsept - dcseptap END Number of input regions 30 Number of code zones 103 Length of integer array 4742 CODE ZONE INPUT REGION ZONE DATA LOC. NO. OF BODIES REGION NO. 1 1 505 2 1 2 2 514 24 2 3 2 611 24 2 4 2 708 24 2 5 2 805 24 2 6 2 902 24 2 7 2 999 24 2 8 2 1096 24 2 9 2 1193 24 2 10 2 1290 24 2 11 2 1387 24 2 12 2 1484 24 2 13 2 1581 24 2 14 2 1678 24 2 15 2 1775 24 2 16 2 1872 24 2 17 2 1969 24 2 18 2 2066 24 2 19 2 2163 24 2 20 2 2260 24 2 21 2 2357 1 2 22 2 2362 1 2 23 3 2367 9 3 24 3 2404 9 3 25 3 2441 9 3 26 3 2478 9 3 27 3 2515 9 3 28 3 2552 9 3 29 3 2589 9 3 30 3 2626 9 3 31 3 2663 9 3 32 3 2700 9 3 33 3 2737 9 3 34 3 2774 9 3 35 3 2811 9 3 36 3 2848 9 3 37 3 2885 8 3 38 3 2918 8 3 39 3 2951 6 3 40 3 2976 6 3 41 3 3001 6 3 42 3 3026 6 3 43 3 3051 6 3 44 3 3076 6 3 45 3 3101 6 3 46 3 3126 6 3 47 3 3151 6 3 48 3 3176 6 3 49 3 3201 6 3 50 3 3226 6 3 51 3 3251 6 3 52 3 3276 6 3 53 3 3301 6 3 54 3 3326 6 3 55 3 3351 6 3 56 3 3376 6 3 57 3 3401 6 3 58 3 3426 6 3 59 3 3451 5 3 60 3 3472 5 3 61 3 3493 5 3 62 4 3514 3 4 63 4 3527 3 4 64 5 3540 6 5 65 5 3565 6 5 66 5 3590 6 5 67 5 3615 6 5 68 5 3640 6 5 69 5 3665 6 5 70 5 3690 6 5 71 5 3715 6 5 72 6 3740 2 6 73 7 3749 1 7 74 8 3754 1 8 75 9 3759 1 9 76 10 3764 4 10 77 10 3781 7 10 78 10 3810 2 10 79 11 3819 7 11 80 12 3848 2 12 81 13 3857 2 13 82 14 3866 2 14 83 15 3875 1 15 84 16 3880 2 16 85 17 3889 2 17 86 18 3898 2 18 87 19 3907 4 19 88 19 3924 4 19 89 19 3941 5 19 90 19 3962 4 19 91 20 3979 3 20 92 21 3992 3 21 93 22 4005 4 22 94 23 4022 1 23 95 24 4027 6 24 96 24 4052 6 24 97 25 4077 4 25 98 26 4094 5 26 99 27 4115 3 27 100 28 4128 1 28 101 28 4133 1 28 102 29 4138 1 29 103 30 4143 2 30 I IR1(I) IR2(I) 1 1 1 2 2 22 3 23 61 4 62 63 5 64 71 6 72 72 7 73 73 8 74 74 9 75 75 10 76 78 11 79 79 12 80 80 13 81 81 14 82 82 15 83 83 16 84 84 17 85 85 18 86 86 19 87 90 20 91 91 21 92 92 22 93 93 23 94 94 24 95 96 25 97 97 26 98 98 27 99 99 28 100 101 29 102 102 30 103 103 Interpreted body echo Body n. 1 SPH blkbody Rot. 0 0.000000 0.000000 0.000000 100000.0 Body n. 2 SPH void Rot. 0 0.000000 0.000000 250.0000 550.0000 Body n. 3 RPP plug2 Rot. -1 -76.20000 -15.24000 -120.0000 200.0000 1190.000 1311.920 Body n. 4 RPP blk1 Rot. -1 -99.00000 0.000000 -120.0000 200.0000 -1.000000 1190.000 Body n. 5 RPP blk2 Rot. -1 -100.0000 195.0000 -120.0000 200.0000 -158.0000 1.000000 Body n. 6 RPP cblk Rot. -1 0.000000 40.64000 -120.0000 200.0000 -3.000000 300.0000 Body n. 7 XYP pl0 Rot. -1 0.000000 Body n. 8 YZP pp1 Rot. -1 0.000000 Body n. 9 PLA pl1 Rot. -1 0.6975647E-01 0.000000 0.9975641 -0.000000 0.000000 0.000000 Body n. 10 PLA pl2 Rot. -1 0.9945219 0.000000 -0.1045285 -195.3809 0.000000 0.000000 Body n. 11 PLA pl3 Rot. -1 -0.6975647E-01 0.000000 -0.9975641 -144.7118 0.000000 0.000000 Body n. 12 PLA pl4 Rot. -1 -0.8660254 0.000000 -0.5000000 -98.95623 0.000000 0.000000 Body n. 13 PLA pl5 Rot. -1 -0.9998893 0.000000 0.1487838E-01 -99.00084 0.000000 0.000000 Body n. 14 RPP blk3 Rot. -3 -99.00000 0.000000 -120.0000 200.0000 -1.000000 1050.000 Body n. 15 RPP blk4 Rot. -3 -100.0000 265.0000 -120.0000 200.0000 -170.0000 1.000000 Body n. 16 XYP pl6 Rot. -3 0.000000 Body n. 17 YZP pp2 Rot. -3 0.000000 Body n. 18 PLA pl7 Rot. -3 0.6975647E-01 0.000000 0.9975641 -0.000000 0.000000 0.000000 Body n. 19 PLA pl8 Rot. -3 0.9945219 0.000000 -0.1045285 -261.9403 0.000000 0.000000 Body n. 20 PLA pl9 Rot. -3 -0.6975647E-01 0.000000 -0.9975641 -147.2103 0.000000 0.000000 Body n. 21 PLA pl10 Rot. -3 -0.8660254 0.000000 -0.5000000 -100.0941 0.000000 0.000000 Body n. 22 PLA pl11 Rot. -3 -0.9998477 0.000000 0.1745241E-01 -99.10938 0.000000 0.000000 Body n. 23 RPP doorpol Rot. -5 -15.00000 0.000000 -120.0000 200.0000 899.9200 1052.320 Body n. 24 RPP doorfe Rot. -5 -25.00000 -15.00000 -120.0000 200.0000 899.9200 1052.320 Body n. 25 RPP doorpb Rot. -5 -30.00000 -25.00000 -120.0000 200.0000 899.9200 1052.320 Body n. 26 RPP dooradd Rot. -5 -80.80000 -30.00000 -120.0000 200.0000 1021.840 1052.320 Body n. 27 RPP doorblk Rot. -5 -80.80000 -30.00000 -120.0000 200.0000 930.4000 1021.840 Body n. 28 RPP blk5 Rot. -5 -99.00000 0.000000 -120.0000 200.0000 -1.000000 930.4000 Body n. 29 RPP blk6 Rot. -5 -100.0000 245.0000 -120.0000 200.0000 -170.0000 1.000000 Body n. 30 XYP pl12 Rot. -5 0.000000 Body n. 31 YZP pp3 Rot. -5 0.000000 Body n. 32 PLA pl13 Rot. -5 0.6975647E-01 0.000000 0.9975641 -0.000000 0.000000 0.000000 Body n. 33 PLA pl14 Rot. -5 0.9945219 0.000000 -0.1045285 -239.8538 0.000000 0.000000 Body n. 34 PLA pl15 Rot. -5 -0.6975647E-01 0.000000 -0.9975641 -147.2103 0.000000 0.000000 Body n. 35 PLA pl16 Rot. -5 -0.8660254 0.000000 -0.5000000 -100.0941 0.000000 0.000000 Body n. 36 PLA pl17 Rot. -5 -0.9998072 0.000000 0.1963369E-01 -99.04501 0.000000 0.000000 Body n. 37 RPP floor Rot. 0 -500.0000 1000.000 -220.0000 -120.0000 -1500.000 1500.000 Body n. 38 RPP roof Rot. 0 -500.0000 1000.000 200.0000 280.0000 -1500.000 1500.000 Body n. 39 RCC det1 Rot. 0 0.000000 310.0000 400.0000 0.000000 15.24000 0.000000 76.20000 Body n. 40 RCC cyl1 Rot. 0 0.000000 200.1000 400.0000 0.000000 150.0000 0.000000 100.0000 Body n. 41 RPP inwall Rot. 0 -334.0000 -218.0000 -120.0000 200.0000 -1500.000 1500.000 Body n. 42 RPP kickblk Rot. 0 -7.900000 7.900000 -7.000000 4.500000 -32.50000 32.50000 Body n. 43 RPP kickapp Rot. 0 -4.770000 4.770000 -1.650000 1.650000 -32.60000 32.60000 Body n. 44 RPP kickblk2 Rot. -7 -7.900000 7.900000 -7.000000 4.500000 -32.50000 32.50000 Body n. 45 RPP kickblk3 Rot. -8 -7.900000 7.900000 -7.000000 4.500000 -32.50000 32.50000 Body n. 46 RPP kickblk4 Rot. -9 -7.900000 7.900000 -7.000000 4.500000 -32.50000 32.50000 Body n. 47 ZEC esbmpipe Rot. -10 4.000000 0.000000 7.840000 2.402500 Body n. 48 ZEC esbphole Rot. -10 4.000000 0.000000 6.250000 1.562500 Body n. 49 RCC esptout Rot. -10 -1774.500 -3.500000 0.000000 0.000000 7.000000 0.000000 1777.000 Body n. 50 RCC esptinr Rot. -10 -1779.500 -3.500000 0.000000 0.000000 7.000000 0.000000 1777.000 Body n. 51 XYP esptds Rot. -10 0.000000 Body n. 52 XYP esptdsbp Rot. -10 53.49990 Body n. 53 XYP esptusbp Rot. -10 -225.4990 Body n. 54 PLA esptus Rot. -10 -0.7880708E-01 0.000000 -0.9968899 -139.9980 0.000000 0.000000 Body n. 55 YZP esptxct Rot. -10 1.200000 Body n. 56 RCC esptvcot Rot. -10 -1776.000 -0.5000000 0.000000 0.000000 1.000000 0.000000 1777.000 Body n. 57 RCC esptvcin Rot. -10 -1778.000 -0.5000000 0.000000 0.000000 1.000000 0.000000 1777.000 Body n. 58 RPP shield Rot. 0 23.35000 48.65000 -21.40000 39.50000 97.00000 762.0000 Body n. 59 RPP shield1 Rot. 0 -62.85000 -47.65000 -11.90000 39.50000 462.0000 762.0000 Body n. 60 RPP shieldtp Rot. 0 -42.85000 22.85000 35.50000 55.80000 116.0000 762.0000 Body n. 61 RPP dcsept Rot. -11 -16.00000 16.00000 -28.00000 28.00000 -60.00000 60.00000 Body n. 62 RPP dcseptap Rot. -11 -2.000000 16.10000 -1.000000 1.000000 -60.10000 60.10000 Body n. 63 XZP pla1 Rot. 0 240.0000 Interpreted region echo Region n. 1 BLKBODY 1 -2 Region n. 2 VOID OR 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -47 -49 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 50 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -47 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -47 -51 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -47 -54 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -47 -55 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -52 -49 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 50 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -52 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -51 -52 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -52 -54 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -52 -55 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 53 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -49 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 50 53 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 53 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -51 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 53 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -54 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 53 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -55 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 55 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -49 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 50 55 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 55 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -51 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 55 2 -4 -5 -28 -6 -40 -61 -26 -27 -24 -25 -23 -54 -37 -41 -42 -44 -45 -46 -38 -58 -59 -60 OR 43 OR 62 Region n. 3 VOID1 OR 4 7 2 -5 -6 -26 -24 -25 -23 OR 5 2 -4 -6 -26 -24 -25 -23 -7 OR 5 2 -4 -6 -26 -24 -25 -23 -9 OR 4 7 2 -6 -26 -24 -25 -23 -9 OR 5 7 2 -6 -26 -24 -25 -23 -9 OR 5 2 -4 -6 -26 -24 -25 -23 -10 OR 4 7 2 -6 -26 -24 -25 -23 -10 OR 5 7 2 -6 -26 -24 -25 -23 -10 OR 5 2 -4 -6 -26 -24 -25 -23 -11 OR 4 7 2 -6 -26 -24 -25 -23 -11 OR 5 7 2 -6 -26 -24 -25 -23 -11 OR 5 2 -4 -6 -26 -24 -25 -23 -12 OR 4 7 2 -6 -26 -24 -25 -23 -12 OR 5 7 2 -6 -26 -24 -25 -23 -12 OR 4 2 -6 -26 -24 -25 -23 -13 OR 5 2 -6 -26 -24 -25 -23 -13 OR 26 11 2 -4 -5 -6 OR 4 7 11 2 -5 -6 OR 26 7 11 2 -5 -6 OR 5 11 2 -4 -6 -7 OR 26 11 2 -4 -6 -7 OR 5 11 2 -4 -6 -9 OR 26 11 2 -4 -6 -9 OR 4 7 11 2 -6 -9 OR 5 7 11 2 -6 -9 OR 26 7 11 2 -6 -9 OR 5 11 2 -4 -6 -10 OR 26 11 2 -4 -6 -10 OR 4 7 11 2 -6 -10 OR 5 7 11 2 -6 -10 OR 26 7 11 2 -6 -10 OR 5 11 2 -4 -6 -12 OR 26 11 2 -4 -6 -12 OR 4 7 11 2 -6 -12 OR 5 7 11 2 -6 -12 OR 26 7 11 2 -6 -12 OR 4 11 2 -6 -13 OR 5 11 2 -6 -13 OR 26 11 2 -6 -13 Region n. 4 VOID3 OR 28 30 2 OR 28 2 -36 Region n. 5 VOID4 OR 38 2 -33 -8 -17 -31 OR 38 2 -32 -8 -17 -31 OR 38 2 -9 -33 -8 -17 OR 38 2 -9 -32 -8 -17 OR 38 2 -33 -18 -17 -31 OR 38 2 -32 -18 -17 -31 OR 38 2 -9 -33 -18 -17 OR 38 2 -9 -32 -18 -17 Region n. 6 KICKER1 42 -43 Region n. 7 KICKER2 44 Region n. 8 KICKER3 45 Region n. 9 KICKER4 46 Region n. 10 WALL OR 2 4 -7 13 OR 5 7 9 10 11 12 13 OR 26 -11 Region n. 11 WALL2 28 -30 36 -23 -24 -25 2 Region n. 12 DOORPOLY 23 -11 Region n. 13 DOORFE 24 -11 Region n. 14 DOORPB 25 -11 Region n. 15 DOORBLK 27 Region n. 16 CBLOCK 6 -9 Region n. 17 FLOOR 37 2 Region n. 18 INWALL 41 2 Region n. 19 ROOF OR 38 33 32 2 OR 38 31 9 2 OR 38 8 18 -40 2 OR 38 17 -40 2 Region n. 20 ROOF1 38 40 63 Region n. 21 ROOF2 38 40 -63 Region n. 22 VOID5 2 40 -38 -39 Region n. 23 DET1 39 Region n. 24 EXTSPTUM OR 51 49 54 55 -50 -56 OR 51 49 54 57 55 -50 Region n. 25 EXSPTVAC 56 -57 51 54 Region n. 26 EXSPTBP 47 -48 52 -53 -55 Region n. 27 EXSPBPV 48 52 -53 Region n. 28 SHIELD OR 58 OR 59 Region n. 29 SHIELDTP 60 Region n. 30 DCSEPT 61 -62 All region volumes set to 1 Volumes (cm**3) 1 Reg. 1 2 3 4 5 6 7 8 9 10 Volume 1.000D+00 1.000D+00 1.000D+00 1.000D+00 1.000D+00 1.000D+00 1.000D+00 1.000D+00 1.000D+00 1.000D+00 *** Geometry lattice capabilities activated *** *** Geometry lattice capabilities activated *** *****NEXT CONTROL CARD ***** LATTICE 7.000 7.000 1.000 1.000 1.000 1.000 kick2 *****NEXT CONTROL CARD ***** LATTICE 8.000 8.000 1.000 2.000 2.000 1.000 kick3 *****NEXT CONTROL CARD ***** LATTICE 9.000 9.000 1.000 3.000 3.000 1.000 kick4 *** Region # 2 Dnear according to possible overlapping ORs *** *** Region # 3 Dnear according to no overlapping ORs *** *** Region # 4 Dnear according to possible overlapping ORs *** *** Region # 5 Dnear according to possible overlapping ORs *** *** Region # 10 Dnear according to no overlapping ORs *** *** Region # 19 Dnear according to possible overlapping ORs *** *** Region # 24 Dnear according to possible overlapping ORs *** *** Region # 28 Dnear according to no overlapping ORs *** 0NGEOM= 4002, NGLAST= 10991 **** Stars/Energy accumulation arrays start at location 10995 and end at 11234 (I*4 addr.) **** **** Minimum step size array start at location 11237 and end at 11300 (I*4 addr.) **** **** Maximum step size array start at location 11303 and end at 11366 (I*4 addr.) **** GEOEND Total time used for geometry initialization: 0.164 s ***** Next control card ***** MATERIAL 0.000 0.000 2.340 0.000 0.000 0.000 Concrete ***** Next control card ***** MATERIAL 16.00 32.07 2.000 0.000 0.000 0.000 SULFUR ***** Next control card ***** MATERIAL 15.00 30.97 2.200 0.000 0.000 0.000 PHOSPHO ***** Next control card ***** MATERIAL 0.000 0.000 3.700 0.000 0.000 0.000 HDconc ***** Next control card ***** MATERIAL 19.00 39.10 0.8620 0.000 0.000 0.000 POTASSIU ***** Next control card ***** MATERIAL 0.000 0.000 2.300 0.000 0.000 0.000 PORTLAND ***** Next control card ***** MATERIAL 24.00 52.00 7.180 0.000 0.000 0.000 CHROMIUM ***** Next control card ***** MATERIAL 25.00 54.94 7.210 0.000 0.000 0.000 MANGANES ***** Next control card ***** MATERIAL 0.000 0.000 7.800 0.000 0.000 0.000 SS316LN ***** Next control card ***** MATERIAL 0.000 0.000 1.032 0.000 0.000 0.000 PLASTSCI ***** Next control card ***** COMPOUND 23.00 6.000 40.00 8.000 12.00 14.00 Concrete ***** Next control card ***** COMPOUND 12.00 21.00 10.00 3.000 2.000 9.000 Concrete ***** Next control card ***** COMPOUND 31.08 11.00 56.45 8.000 3.220 21.00 HDconc ***** Next control card ***** COMPOUND 2.050 14.00 0.6000 10.00 6.220 3.000 HDconc ***** Next control card ***** COMPOUND 0.2100 9.000 9.0000E-02 24.00 6.0000E-02 27.00 HDconc ***** Next control card ***** COMPOUND 1.0000E-02 28.00 0.000 0.000 0.000 0.000 HDconc ***** Next control card ***** COMPOUND -1.0000E-02 3.000 -1.0000E-03 6.000 -0.5291 8.000 PORTLAND ***** Next control card ***** COMPOUND -1.6000E-02 19.00 -2.0000E-03 9.000 -3.3872E-02 10.00 PORTLAND ***** Next control card ***** COMPOUND -0.3370 14.00 -1.3000E-02 30.00 -4.4000E-02 21.00 PORTLAND ***** Next control card ***** COMPOUND -1.4000E-02 11.00 0.000 0.000 0.000 0.000 PORTLAND ***** Next control card ***** COMPOUND -0.6714 11.00 -0.1850 32.00 -0.1125 25.00 SS316LN ***** Next control card ***** COMPOUND -2.0000E-02 33.00 -1.0000E-02 14.00 -4.5000E-04 28.00 SS316LN ***** Next control card ***** COMPOUND -3.0000E-04 27.00 -3.0000E-04 6.000 0.000 0.000 SS316LN ***** Next control card ***** COMPOUND -8.5000E-02 3.000 -0.9150 6.000 0.000 0.000 PLASTSCI ***** Next control card ***** RANDOMIZ 1.000 48.00 0.000 0.000 0.000 0.000 !!!!!!!!!! Seed file not accepted: or corrupted or main seed not matching the requested one !!!!!!!!!! FLRM64 INITIALIZED 0 0 48 12345 1234500048 ***** Next control card ***** ASSIGNMA 1.000 1.000 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 36.00 2.000 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 36.00 3.000 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 36.00 4.000 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 36.00 5.000 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 11.00 6.000 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 29.00 10.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 29.00 11.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 37.00 12.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 11.00 13.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 17.00 14.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 31.00 15.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 31.00 16.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 31.00 17.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 31.00 18.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 31.00 19.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 35.00 23.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 31.00 20.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 31.00 21.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 36.00 22.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 11.00 24.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 2.000 25.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 34.00 26.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 2.000 27.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 17.00 28.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 11.00 29.00 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 11.00 30.00 0.000 0.000 0.000 0.000 ***** Next control card ***** PHOTONUC 1.000 0.000 0.000 3.000 710.0 0.000 ***** Next control card ***** MAT-PROP 0.000 0.000 64.70 35.00 0.000 0.000 ***** Next control card ***** STERNHEI 3.200 0.1464 2.486 0.1610 3.239 0.000 35 ***** Next control card ***** EMFCUT -3.0000E-04 1.0000E-04 1.000 3.000 710.0 0.000 PROD-CUT ***** Next control card ***** EMFCUT -3.0000E-04 1.0000E-04 0.000 2.000 30.00 0.000 ***** Next control card ***** LAM-BIAS 0.000 2.0000E-02 0.000 7.000 0.000 0.000 ***** Next control card ***** BIASING 0.000 1.000 1.000 2.000 30.00 0.000 ***** Next control card ***** BIASING 0.000 1.000 2.000 20.00 0.000 0.000 ***** Next control card ***** BIASING 0.000 1.000 4.000 21.00 0.000 0.000 ***** Next control card ***** BIASING 0.000 1.000 8.000 22.00 23.00 0.000 ***** Next control card ***** USRBIN 10.00 240.0 -40.00 500.0 10.00 2200. allpartH ***** Next control card ***** USRBIN -100.0 -10.00 -1000. 120.0 1.000 320.0 & ***** Next control card ***** USRBIN 10.00 240.0 -41.00 298.5 349.0 449.5 allpart ***** Next control card ***** USRBIN -151.5 -101.0 350.5 150.0 150.0 99.00 & ***** Next control card ***** USRBIN 10.00 240.0 -41.00 298.5 349.0 449.5 photvol ***** Next control card ***** USRBIN -151.5 -101.0 350.5 150.0 150.0 99.00 & ***** Next control card ***** USRBIN 10.00 240.0 -41.00 298.5 349.0 449.5 neuVol ***** Next control card ***** USRBIN -151.5 -101.0 350.5 150.0 150.0 99.00 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 2.200 200.0 1500. lwallall ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 1.000 160.0 300.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 2.200 200.0 1500. lwallne ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 1.000 160.0 300.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 2.200 200.0 1500. lwallph ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 1.000 160.0 300.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 2.200 200.0 1250. lwallal2 ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 1.000 160.0 250.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 2.200 200.0 1250. lwallne2 ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 1.000 160.0 250.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 2.200 200.0 1250. lwallph2 ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 1.000 160.0 250.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 250.0 200.0 2.200 swallall ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 125.0 160.0 1.000 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 250.0 200.0 2.200 swallne ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 125.0 160.0 1.000 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 250.0 200.0 2.200 swallph ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 125.0 160.0 1.000 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 300.0 200.0 2.200 swallal1 ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 150.0 160.0 1.000 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 300.0 200.0 2.200 swallne1 ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 150.0 160.0 1.000 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 300.0 200.0 2.200 swallph1 ***** Next control card ***** USRBIN 0.2000 -120.0 0.2000 150.0 160.0 1.000 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 400.0 282.2 1800. roofall ***** Next control card ***** USRBIN -220.0 280.2 -1200. 124.0 1.000 600.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 400.0 282.2 1800. roofne ***** Next control card ***** USRBIN -220.0 280.2 -1200. 124.0 1.000 600.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 400.0 282.2 1800. roofph ***** Next control card ***** USRBIN -220.0 280.2 -1200. 124.0 1.000 600.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 -334.2 200.0 1800. inwallal ***** Next control card ***** USRBIN -336.2 -120.0 -1200. 1.000 160.0 300.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 -334.2 200.0 1800. inwallane ***** Next control card ***** USRBIN -336.2 -120.0 -1200. 1.000 160.0 300.0 & ***** Next control card ***** USRBIN 10.00 240.0 -40.00 -334.2 200.0 1800. inwallph ***** Next control card ***** USRBIN -336.2 -120.0 -1200. 1.000 160.0 300.0 & ***** Next control card ***** USRBDX 99.00 8.000 -42.00 22.00 23.00 243.0 roofne ***** Next control card ***** USRBDX 3.000 1.0000E-14 100.0 0.000 0.000 0.000 & ***** Next control card ***** USRBDX 99.00 7.000 -42.00 22.00 23.00 243.0 roofph ***** Next control card ***** USRBDX 3.000 1.0000E-06 100.0 0.000 0.000 0.000 & ***** Next control card ***** USRBDX 99.00 240.0 -42.00 22.00 23.00 243.0 roofned ***** Next control card ***** USRBDX 3.000 1.0000E-14 100.0 0.000 0.000 0.000 & ***** Next control card ***** USRBDX 99.00 240.0 -42.00 22.00 23.00 243.0 roofphd ***** Next control card ***** USRBDX 3.000 1.0000E-06 100.0 0.000 0.000 0.000 & ***** Next control card ***** AUXSCORE 2.000 201.0 0.000 1.000 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 2.000 201.0 0.000 2.000 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 2.000 7.000 0.000 3.000 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 2.000 8.000 0.000 4.000 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 2.000 201.0 0.000 5.000 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 1.000 0.000 5.000 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 8.000 0.000 6.000 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 1.000 0.000 6.000 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 7.000 0.000 7.000 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 1.000 0.000 7.000 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 201.0 0.000 8.000 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 5.000 0.000 8.000 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 8.000 0.000 9.000 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 5.000 0.000 9.000 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 7.000 0.000 10.00 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 5.000 0.000 10.00 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 201.0 0.000 11.00 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 2.000 0.000 11.00 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 8.000 0.000 12.00 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 2.000 0.000 12.00 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 7.000 0.000 13.00 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 2.000 0.000 13.00 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 201.0 0.000 14.00 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 4.000 0.000 14.00 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 8.000 0.000 15.00 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 4.000 0.000 15.00 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 7.000 0.000 16.00 0.000 0.000 AMB74 ***** Next control card ***** ROTPRBIN 0.000 4.000 0.000 16.00 0.000 0.000 ***** Next control card ***** AUXSCORE 2.000 201.0 0.000 17.00 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 2.000 8.000 0.000 18.00 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 2.000 7.000 0.000 19.00 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 2.000 201.0 0.000 20.00 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 2.000 8.000 0.000 21.00 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 2.000 7.000 0.000 22.00 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 1.000 8.000 0.000 3.000 0.000 0.000 AMB74 ***** Next control card ***** AUXSCORE 1.000 7.000 0.000 4.000 0.000 0.000 AMB74 ***** Next control card ***** START 6.0000E+05 0.000 0.000 0.000 0.000 0.000 Total time used for input reading: 3.200E-02 s **** Power exponent for grey particle correlations set at -13.000000 **** *** Reading evaporation and nuclear data from unit: 14 **** Nuclear data file for Fluka9x-20xy **** File version: 2011.1 Copyright (C) 1990-2011 by Alfredo Ferrari & Paola Sala *** Evaporation: using NNDC (1996) data *** Starting location in blank common of LVL data: 11368 Last location in blank common of LVL data: 9641623 Starting location in blank common of CE data: 9641624 Last location in blank common of CE data: 9692383 Starting location in blank common of alpha data: 9692384 Last location in blank common of alpha data: 9695143 Starting location in blank common of gamma data: 9695144 Last location in blank common of gamma data: 9826077 Starting location in blank common of beta data: 9826078 Last location in blank common of beta data: 9868365 Starting location in blank common of GDR data: 9868366 Last location in blank common of GDR data: 9923420 Starting location in blank common of (g,x) data: 9923421 Last location in blank common of (g,x) data: 10226341 **** RIPL2/Ign. self-cons. T=0 N,Z-dep. level density used **** **** RIPL-2 / Ignyatuk level density en. dep. used **** **** with Moller, Nix self-cons set of parameters for T=oo **** **** Original Gilbert/Cameron pairing energy used **** **** Maximum Fermi momentum : 0.26837131 GeV/c **** **** Maximum Fermi energy : 3.76013778E-02 GeV **** **** Average Fermi energy : 2.26768460E-02 GeV **** **** Average binding energy : 7.68006314E-03 GeV **** **** Nuclear well depth : 4.52814400E-02 GeV **** **** Excess mass for 11-B : 8.66803993E-03 GeV **** **** Cameron E. m. for 11-B : 7.92484451E-03 GeV **** **** Cam.El. E. m. for 11-B : 8.51833168E-03 GeV **** **** My.&Sw. E. m. for 11-B : 8.87639914E-03 GeV **** **** Atomic mass for 11-B : 10.255106 GeV **** **** Nuclear mass for 11-B : 10.252551 GeV **** **** Excess mass for 12-C : 0.0000000 GeV **** **** Cameron E. m. for 12-C : 1.51353085E-03 GeV **** **** Cam.El. E. m. for 12-C : 1.63579884E-03 GeV **** **** My.&Sw. E. m. for 12-C : -3.83192004E-04 GeV **** **** Atomic mass for 12-C : 11.177932 GeV **** **** Nuclear mass for 12-C : 11.174867 GeV **** **** Excess mass for 13-C : 3.12499981E-03 GeV **** **** Cameron E. m. for 13-C : 2.87424121E-03 GeV **** **** Cam.El. E. m. for 13-C : 3.48056527E-03 GeV **** **** My.&Sw. E. m. for 13-C : 3.55792139E-03 GeV **** **** Atomic mass for 13-C : 12.112551 GeV **** **** Nuclear mass for 13-C : 12.109487 GeV **** **** Excess mass for 14-N : 2.86339992E-03 GeV **** **** Cameron E. m. for 14-N : 3.37313744E-03 GeV **** **** Cam.El. E. m. for 14-N : 3.69752850E-03 GeV **** **** My.&Sw. E. m. for 14-N : 2.86558713E-03 GeV **** **** Atomic mass for 14-N : 13.043784 GeV **** **** Nuclear mass for 14-N : 13.040209 GeV **** **** Excess mass for 15-O : 2.85555003E-03 GeV **** **** Cameron E. m. for 15-O : 2.40658456E-03 GeV **** **** Cam.El. E. m. for 15-O : 2.59008165E-03 GeV **** **** My.&Sw. E. m. for 15-O : 3.32844956E-03 GeV **** **** Atomic mass for 15-O : 13.975270 GeV **** **** Nuclear mass for 15-O : 13.971185 GeV **** **** Excess mass for 16-O : -4.73699998E-03 GeV **** **** Cameron E. m. for 16-O : -3.31055629E-03 GeV **** **** Cam.El. E. m. for 16-O : -3.19385715E-03 GeV **** **** My.&Sw. E. m. for 16-O : -4.83116647E-03 GeV **** **** Atomic mass for 16-O : 14.899172 GeV **** **** Nuclear mass for 16-O : 14.895086 GeV **** **** Excess mass for 27-Al : -1.71969198E-02 GeV **** **** Cameron E. m. for 27-Al : -1.86259765E-02 GeV **** **** Cam.El. E. m. for 27-Al : -1.71393938E-02 GeV **** **** My.&Sw. E. m. for 27-Al : -1.71456710E-02 GeV **** **** Atomic mass for 27-Al : 25.133150 GeV **** **** Nuclear mass for 27-Al : 25.126513 GeV **** **** Excess mass for 28-Si : -2.14928202E-02 GeV **** **** Cameron E. m. for 28-Si : -2.20552329E-02 GeV **** **** Cam.El. E. m. for 28-Si : -2.02140864E-02 GeV **** **** My.&Sw. E. m. for 28-Si : -2.15357170E-02 GeV **** **** Atomic mass for 28-Si : 26.060349 GeV **** **** Nuclear mass for 28-Si : 26.053202 GeV **** **** Excess mass for 40-Ca : -3.48461308E-02 GeV **** **** Cameron E. m. for 40-Ca : -3.57677415E-02 GeV **** **** Cam.El. E. m. for 40-Ca : -3.36877368E-02 GeV **** **** My.&Sw. E. m. for 40-Ca : -3.49160209E-02 GeV **** **** Atomic mass for 40-Ca : 37.224926 GeV **** **** Nuclear mass for 40-Ca : 37.214725 GeV **** **** Excess mass for 55-Fe : -5.74751087E-02 GeV **** **** Cameron E. m. for 55-Fe : -5.95041849E-02 GeV **** **** Cam.El. E. m. for 55-Fe : -5.80860823E-02 GeV **** **** My.&Sw. E. m. for 55-Fe : -5.75032495E-02 GeV **** **** Atomic mass for 55-Fe : 51.174713 GeV **** **** Nuclear mass for 55-Fe : 51.161461 GeV **** **** Excess mass for 56-Fe : -6.06013089E-02 GeV **** **** Cameron E. m. for 56-Fe : -6.23576604E-02 GeV **** **** Cam.El. E. m. for 56-Fe : -6.08849637E-02 GeV **** **** My.&Sw. E. m. for 56-Fe : -6.04862086E-02 GeV **** **** Atomic mass for 56-Fe : 52.103081 GeV **** **** Nuclear mass for 56-Fe : 52.089828 GeV **** **** Excess mass for 107-Ag: -8.84052590E-02 GeV **** **** Cameron E. m. for 107-Ag: -8.91378522E-02 GeV **** **** Cam.El. E. m. for 107-Ag: -8.86852369E-02 GeV **** **** My.&Sw. E. m. for 107-Ag: -8.82571116E-02 GeV **** **** Atomic mass for 107-Ag: 99.581490 GeV **** **** Nuclear mass for 107-Ag: 99.557610 GeV **** **** Excess mass for 132-Xe: -8.92794058E-02 GeV **** **** Cameron E. m. for 132-Xe: -8.98088515E-02 GeV **** **** Cam.El. E. m. for 132-Xe: -8.92864987E-02 GeV **** **** My.&Sw. E. m. for 132-Xe: -8.94251093E-02 GeV **** **** Atomic mass for 132-Xe: 122.86797 GeV **** **** Nuclear mass for 132-Xe: 122.84058 GeV **** **** Excess mass for 181-Ta: -4.84412275E-02 GeV **** **** Cameron E. m. for 181-Ta: -4.81105074E-02 GeV **** **** Cam.El. E. m. for 181-Ta: -4.78131436E-02 GeV **** **** My.&Sw. E. m. for 181-Ta: -4.82191741E-02 GeV **** **** Atomic mass for 181-Ta: 168.55203 GeV **** **** Nuclear mass for 181-Ta: 168.51514 GeV **** **** Excess mass for 208-Pb: -2.17638295E-02 GeV **** **** Cameron E. m. for 208-Pb: -1.84126478E-02 GeV **** **** Cam.El. E. m. for 208-Pb: -2.03331560E-02 GeV **** **** My.&Sw. E. m. for 208-Pb: -2.09293775E-02 GeV **** **** Atomic mass for 208-Pb: 193.72905 GeV **** **** Nuclear mass for 208-Pb: 193.68768 GeV **** **** Excess mass for 209-Bi: -1.82725303E-02 GeV **** **** Cameron E. m. for 209-Bi: -1.47107309E-02 GeV **** **** Cam.El. E. m. for 209-Bi: -1.71704441E-02 GeV **** **** My.&Sw. E. m. for 209-Bi: -1.77380107E-02 GeV **** **** Atomic mass for 209-Bi: 194.66405 GeV **** **** Nuclear mass for 209-Bi: 193.68719 GeV **** **** Excess mass for 235-U : 4.09132205E-02 GeV **** **** Cameron E. m. for 235-U : 4.64000776E-02 GeV **** **** Cam.El. E. m. for 235-U : 4.20622788E-02 GeV **** **** My.&Sw. E. m. for 235-U : 4.13222089E-02 GeV **** **** Atomic mass for 235-U : 218.94208 GeV **** **** Nuclear mass for 235-U : 218.89577 GeV **** **** Excess mass for 238-U : 4.73045185E-02 GeV **** **** Cameron E. m. for 238-U : 5.24553321E-02 GeV **** **** Cam.El. E. m. for 238-U : 4.81762439E-02 GeV **** **** My.&Sw. E. m. for 238-U : 4.73943055E-02 GeV **** **** Atomic mass for 238-U : 221.74295 GeV **** **** Nuclear mass for 238-U : 221.69666 GeV **** **** Evaporation from residual nucleus activated **** **** Deexcitation gamma production activated **** **** Evaporated "heavies" transport activated **** **** High Energy fission requested & activated **** **** Fermi Break Up requested & activated **** **** Neutrino generators initialized F T T **** *** Neutrino xsec file header: Neutrino Xsec file fronm *** *** Neutrino xsec file generated on: DATE: 9/10/ 8, TIME: 19:48:1 *** Minimum kinetic energy for BME : 1.0000E-03 (GeV/n) Overall minimum kinetic energy for ion nuclear interactions: 1.0000E-03 (GeV/n) *** Material AIR (# 36 automatically guessed by FLUKA, please check its correctness *** *** Material POLYETHY (# 37 automatically guessed by FLUKA, please check its correctness *** Rayleigh option requested for medium number 1 Rayleigh option requested for medium number 2 Rayleigh option requested for medium number 3 Rayleigh option requested for medium number 4 Rayleigh option requested for medium number 5 Rayleigh option requested for medium number 6 Rayleigh option requested for medium number 7 Rayleigh option requested for medium number 8 **** Fluorescence data successfully retrieved from unit 13 **** **** Subroutine Mulmix: medium n. 36 **** Number of elements = 4, Density= 1.204790E-03 (g/cm**3) 0 I Z Pa F_i Rho_i Index Atomic Atomic Proportion Proportion Number Weight by Number by weight 1 6.00000 12.0107 1.501907E-04 1.493940E-07 2 7.00000 14.0067 0.784430 9.099383E-04 3 8.00000 15.9994 0.210749 2.792483E-04 4 18.0000 39.9480 4.671156E-03 1.545402E-05 ZTILDE,AE1O3,BLCCRA= 7.56378E+00 2.51981E+00 9.97356E-03 **** Warning!!! Least square fit for blccre failed to keep max. rel. Blcce err. below 1% **** **** Max. error is 1.1 %, for beta2 = 0.00358 **** ZTILDE,AE1O3,BLCCRE= 6.53933E+00 2.51981E+00 1.04505E-02 BLCC,XCC,TFFLU0,XR0FLU= 7.70398E+00 2.63537E-05 8.69055E-01 4.25526E-05 BLCCE,XCCE,TFEMF0,XR0EMF= 8.76462E+00 2.80872E-02 2.28234E+00 9.00129E-02 Particle n.: -6 Ecutm (prim. & sec.) = 3.727 GeV 3.727 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -5 Ecutm (prim. & sec.) = 2.808 GeV 2.808 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -4 Ecutm (prim. & sec.) = 2.809 GeV 2.809 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -3 Ecutm (prim. & sec.) = 1.876 GeV 1.876 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 1 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 3 Ecutm (prim. & sec.) = 5.1417E-04 GeV 5.1417E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 4 Ecutm (prim. & sec.) = 5.1417E-04 GeV 5.1417E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 10 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4936 GeV 0.4936 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4936 GeV 0.4936 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 41 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 42 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 45 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 46 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 49 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 50 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 51 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 52 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 54 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 57 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 58 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 60 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV **** Atomic electron contribution accounted via the Fano correction **** **** f_Fano = 9.481E+00, Z_Fano = 7.359E+00 **** **** Subroutine Mulmix: medium n. 11 **** Number of elements = 1, Density= 7.87400 (g/cm**3) 0 I Z Pa F_i Rho_i Index Atomic Atomic Proportion Proportion Number Weight by Number by weight 1 26.0000 55.8450 1.00000 7.87400 ZTILDE,AE1O3,BLCCRA= 2.60000E+01 3.82233E+00 1.20233E-01 **** Warning!!! Least square fit for blccre failed to keep max. rel. Blcce err. below 1% **** **** Max. error is 10.7 %, for beta2 = 0.37014 **** ZTILDE,AE1O3,BLCCRE= 2.50000E+01 3.82233E+00 1.20233E-01 BLCC,XCC,TFFLU0,XR0FLU= 6.49777E+04 3.86733E-03 1.03038E-04 6.79940E-05 BLCCE,XCCE,TFEMF0,XR0EMF= 6.74769E+04 3.94100E+00 2.96454E-04 1.43943E-01 Particle n.: -6 Ecutm (prim. & sec.) = 3.727 GeV 3.727 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -5 Ecutm (prim. & sec.) = 2.808 GeV 2.808 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -4 Ecutm (prim. & sec.) = 2.809 GeV 2.809 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -3 Ecutm (prim. & sec.) = 1.876 GeV 1.876 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 1 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 3 Ecutm (prim. & sec.) = 5.2445E-04 GeV 5.2445E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 4 Ecutm (prim. & sec.) = 5.2445E-04 GeV 5.2445E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 10 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 41 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 42 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 45 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 46 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 49 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 50 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 51 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 52 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 54 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 57 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 58 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 60 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV **** Atomic electron contribution accounted via the Fano correction **** **** f_Fano = 8.283E+00, Z_Fano = 2.600E+01 **** **** Subroutine Mulmix: medium n. 29 **** Number of elements = 10, Density= 3.70000 (g/cm**3) 0 I Z Pa F_i Rho_i Index Atomic Atomic Proportion Proportion Number Weight by Number by weight 1 26.0000 55.8450 0.310831 2.24578 2 8.00000 15.9994 0.564556 1.16861 3 20.0000 40.0780 3.220322E-02 0.166980 4 14.0000 28.0855 2.050205E-02 7.449698E-02 5 13.0000 26.9815 6.000600E-03 2.094694E-02 6 1.00000 1.00794 6.220622E-02 8.111995E-03 7 12.0000 24.3050 2.100210E-03 6.604159E-03 8 22.0000 47.8670 9.000900E-04 5.574185E-03 9 16.0000 32.0660 6.000600E-04 2.489423E-03 10 15.0000 30.9738 1.000100E-04 4.007713E-04 **** Warning!!! Least square fit for blccra failed to keep max. rel. Blcc err. below 1% **** **** Max. error is 5.4 %, for beta2 = 0.06325 **** ZTILDE,AE1O3,BLCCRA= 2.29889E+01 3.82233E+00 8.41610E-02 **** Warning!!! Least square fit for blccre failed to keep max. rel. Blcce err. below 1% **** **** Max. error is 9.1 %, for beta2 = 0.00358 **** ZTILDE,AE1O3,BLCCRE= 2.18082E+01 3.82233E+00 9.43981E-02 BLCC,XCC,TFFLU0,XR0FLU= 2.69792E+04 2.32008E-03 2.48160E-04 6.33037E-05 BLCCE,XCCE,TFEMF0,XR0EMF= 2.86353E+04 2.37937E+00 6.98571E-04 1.33405E-01 Particle n.: -6 Ecutm (prim. & sec.) = 3.727 GeV 3.727 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -5 Ecutm (prim. & sec.) = 2.808 GeV 2.808 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -4 Ecutm (prim. & sec.) = 2.809 GeV 2.809 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -3 Ecutm (prim. & sec.) = 1.876 GeV 1.876 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 1 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 3 Ecutm (prim. & sec.) = 5.2188E-04 GeV 5.2188E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 4 Ecutm (prim. & sec.) = 5.2188E-04 GeV 5.2188E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 10 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 41 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 42 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 45 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 46 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 49 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 50 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 51 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 52 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 54 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 57 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 58 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 60 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV **** Atomic electron contribution accounted via the Fano correction **** **** f_Fano = 8.667E+00, Z_Fano = 1.932E+01 **** **** Subroutine Mulmix: medium n. 37 **** Number of elements = 2, Density= 0.940000 (g/cm**3) 0 I Z Pa F_i Rho_i Index Atomic Atomic Proportion Proportion Number Weight by Number by weight 1 1.00000 1.00794 0.666667 0.135095 2 6.00000 12.0107 0.333333 0.804905 ZTILDE,AE1O3,BLCCRA= 5.73684E+00 2.29011E+00 5.93117E-03 ZTILDE,AE1O3,BLCCRE= 4.56522E+00 2.29011E+00 5.84683E-03 BLCC,XCC,TFFLU0,XR0FLU= 5.47137E+03 6.32138E-04 1.22367E-03 3.83006E-05 BLCCE,XCCE,TFEMF0,XR0EMF= 6.90192E+03 6.95503E-01 2.89830E-03 7.94286E-02 Particle n.: -6 Ecutm (prim. & sec.) = 3.727 GeV 3.727 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -5 Ecutm (prim. & sec.) = 2.808 GeV 2.808 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -4 Ecutm (prim. & sec.) = 2.809 GeV 2.809 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -3 Ecutm (prim. & sec.) = 1.876 GeV 1.876 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 1 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 3 Ecutm (prim. & sec.) = 5.1335E-04 GeV 5.1335E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 4 Ecutm (prim. & sec.) = 5.1335E-04 GeV 5.1335E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 10 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4936 GeV 0.4936 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4936 GeV 0.4936 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 41 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 42 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 45 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 46 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 49 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 50 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 51 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 52 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 54 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 57 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 58 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 60 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV **** Atomic electron contribution accounted via the Fano correction **** **** f_Fano = 9.886E+00, Z_Fano = 4.750E+00 **** **** Subroutine Mulmix: medium n. 17 **** Number of elements = 1, Density= 11.3500 (g/cm**3) 0 I Z Pa F_i Rho_i Index Atomic Atomic Proportion Proportion Number Weight by Number by weight 1 82.0000 207.200 1.00000 11.3500 ZTILDE,AE1O3,BLCCRA= 8.20000E+01 5.91739E+00 1.19593E+00 **** Warning!!! Least square fit for blccre failed to keep max. rel. Blcce err. below 1% **** **** Max. error is 54.5 %, for beta2 = 0.37014 **** ZTILDE,AE1O3,BLCCRE= 8.10000E+01 5.91739E+00 1.19593E+00 BLCC,XCC,TFFLU0,XR0FLU= 5.95622E+04 7.60237E-03 1.12407E-04 1.39606E-04 BLCCE,XCCE,TFEMF0,XR0EMF= 6.02886E+04 7.64859E+00 3.31801E-04 2.95547E-01 Particle n.: -6 Ecutm (prim. & sec.) = 3.727 GeV 3.727 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -5 Ecutm (prim. & sec.) = 2.808 GeV 2.808 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -4 Ecutm (prim. & sec.) = 2.809 GeV 2.809 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -3 Ecutm (prim. & sec.) = 1.876 GeV 1.876 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 1 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 3 Ecutm (prim. & sec.) = 5.6957E-04 GeV 5.6957E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 4 Ecutm (prim. & sec.) = 5.6957E-04 GeV 5.6957E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 10 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 41 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 42 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 45 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 46 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 49 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 50 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 51 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 52 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 54 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 57 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 58 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 60 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV **** Atomic electron contribution accounted via the Fano correction **** **** f_Fano = 7.452E+00, Z_Fano = 8.200E+01 **** **** Subroutine Mulmix: medium n. 31 **** Number of elements = 10, Density= 2.30000 (g/cm**3) 0 I Z Pa F_i Rho_i Index Atomic Atomic Proportion Proportion Number Weight by Number by weight 1 1.00000 1.00794 0.168759 2.300000E-02 2 6.00000 12.0107 1.416226E-03 2.300000E-03 3 8.00000 15.9994 0.562524 1.21695 4 11.0000 22.9898 1.183822E-02 3.680000E-02 5 12.0000 24.3050 1.399701E-03 4.600000E-03 6 13.0000 26.9815 2.135379E-02 7.790560E-02 7 14.0000 28.0855 0.204115 0.775148 8 19.0000 39.0983 5.655700E-03 2.990000E-02 9 20.0000 40.0780 1.867444E-02 0.101200 10 26.0000 55.8450 4.264270E-03 3.220000E-02 **** Warning!!! Least square fit for blccra failed to keep max. rel. Blcc err. below 1% **** **** Max. error is 3.6 %, for beta2 = 0.03260 **** ZTILDE,AE1O3,BLCCRA= 1.25372E+01 3.42217E+00 2.56866E-02 **** Warning!!! Least square fit for blccre failed to keep max. rel. Blcce err. below 1% **** **** Max. error is 3.1 %, for beta2 = 0.00358 **** ZTILDE,AE1O3,BLCCRE= 1.14069E+01 3.42217E+00 2.91321E-02 BLCC,XCC,TFFLU0,XR0FLU= 1.59331E+04 1.41123E-03 4.20206E-04 5.01059E-05 BLCCE,XCCE,TFEMF0,XR0EMF= 1.75440E+04 1.47411E+00 1.14021E-03 1.05591E-01 Particle n.: -6 Ecutm (prim. & sec.) = 3.727 GeV 3.727 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -5 Ecutm (prim. & sec.) = 2.808 GeV 2.808 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -4 Ecutm (prim. & sec.) = 2.809 GeV 2.809 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -3 Ecutm (prim. & sec.) = 1.876 GeV 1.876 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 1 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 3 Ecutm (prim. & sec.) = 5.1635E-04 GeV 5.1635E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 4 Ecutm (prim. & sec.) = 5.1635E-04 GeV 5.1635E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 10 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4936 GeV 0.4936 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4936 GeV 0.4936 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 41 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 42 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 45 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 46 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 49 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 50 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 51 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 52 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 54 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 57 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 58 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 60 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV **** Atomic electron contribution accounted via the Fano correction **** **** f_Fano = 9.074E+00, Z_Fano = 1.098E+01 **** **** Subroutine Mulmix: medium n. 35 **** Number of elements = 2, Density= 1.03200 (g/cm**3) 0 I Z Pa F_i Rho_i Index Atomic Atomic Proportion Proportion Number Weight by Number by weight 1 1.00000 1.00794 0.525382 8.772000E-02 2 6.00000 12.0107 0.474618 0.944280 ZTILDE,AE1O3,BLCCRA= 5.85084E+00 2.29011E+00 6.13296E-03 ZTILDE,AE1O3,BLCCRE= 4.74964E+00 2.29011E+00 6.08236E-03 BLCC,XCC,TFFLU0,XR0FLU= 6.09867E+03 6.76591E-04 1.09781E-03 3.88285E-05 BLCCE,XCCE,TFEMF0,XR0EMF= 7.44550E+03 7.38547E-01 2.68670E-03 8.12070E-02 Particle n.: -6 Ecutm (prim. & sec.) = 3.727 GeV 3.727 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -5 Ecutm (prim. & sec.) = 2.808 GeV 2.808 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -4 Ecutm (prim. & sec.) = 2.809 GeV 2.809 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -3 Ecutm (prim. & sec.) = 1.876 GeV 1.876 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 1 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 3 Ecutm (prim. & sec.) = 5.1342E-04 GeV 5.1342E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 4 Ecutm (prim. & sec.) = 5.1342E-04 GeV 5.1342E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 10 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4936 GeV 0.4936 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4936 GeV 0.4936 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 41 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 42 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 45 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 46 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 49 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 50 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 51 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 52 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 54 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 57 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 58 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 60 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV **** Atomic electron contribution accounted via the Fano correction **** **** f_Fano = 9.793E+00, Z_Fano = 5.221E+00 **** **** Subroutine Mulmix: medium n. 34 **** Number of elements = 8, Density= 7.80000 (g/cm**3) 0 I Z Pa F_i Rho_i Index Atomic Atomic Proportion Proportion Number Weight by Number by weight 1 26.0000 55.8450 0.658202 5.23731 2 24.0000 51.9961 0.194774 1.44300 3 28.0000 58.6934 0.104928 0.877500 4 25.0000 54.9380 1.992905E-02 0.156000 5 14.0000 28.0855 1.949161E-02 7.800000E-02 6 15.0000 30.9738 7.953320E-04 3.510000E-03 7 16.0000 32.0660 5.121608E-04 2.340000E-03 8 6.00000 12.0107 1.367360E-03 2.340000E-03 ZTILDE,AE1O3,BLCCRA= 2.58134E+01 3.88624E+00 1.18039E-01 **** Warning!!! Least square fit for blccre failed to keep max. rel. Blcce err. below 1% **** **** Max. error is 10.6 %, for beta2 = 0.00358 **** ZTILDE,AE1O3,BLCCRE= 2.48092E+01 3.88624E+00 1.18440E-01 BLCC,XCC,TFFLU0,XR0FLU= 6.41921E+04 3.82981E-03 1.04299E-04 6.77452E-05 BLCCE,XCCE,TFEMF0,XR0EMF= 6.67005E+04 3.90361E+00 2.99905E-04 1.43405E-01 Particle n.: -6 Ecutm (prim. & sec.) = 3.727 GeV 3.727 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -5 Ecutm (prim. & sec.) = 2.808 GeV 2.808 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -4 Ecutm (prim. & sec.) = 2.809 GeV 2.809 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: -3 Ecutm (prim. & sec.) = 1.876 GeV 1.876 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 1 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 3 Ecutm (prim. & sec.) = 5.2430E-04 GeV 5.2430E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 4 Ecutm (prim. & sec.) = 5.2430E-04 GeV 5.2430E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 10 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.321 GeV 1.321 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 41 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 42 Ecutm (prim. & sec.) = 1.777 GeV 1.777 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 45 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 46 Ecutm (prim. & sec.) = 1.869 GeV 1.869 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 49 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 50 Ecutm (prim. & sec.) = 1.968 GeV 1.968 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 51 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 52 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 54 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 57 Ecutm (prim. & sec.) = 2.285 GeV 2.285 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 58 Ecutm (prim. & sec.) = 2.468 GeV 2.468 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 60 Ecutm (prim. & sec.) = 2.574 GeV 2.574 GeV, Hthnsz = 1.0000E+30 GeV **** Atomic electron contribution accounted via the Fano correction **** **** f_Fano = 8.280E+00, Z_Fano = 2.570E+01 **** **** Isotope tabulation data start at location 10226342 and end at 10304348 (I*4 addr.) **** No radioactive products/decays requested Flags for applying biasing to prompt and/or decay radiation: Hadr/muon EM Low en. Neut. Prompt/Decay Prompt/Decay Prompt/Decay Inter./decay length: T F T F T F Leading Particle : T F T F T F Importance and WW : T F T F T F EM transport threshold multipliers: prompt decay 1.00E+00 1.00E+00 **** Non analog absorption factors start at location 10304351 and end at 10304410 (I*4 addr.) **** **** Biased downscattering factors start at location 10304413 and end at 10304472 (I*4 addr.) **** **** Non analog absorption group limits start at location10304473 and end at 10304502 (I*4 addr.) **** **** Biased downscattering group limits start at location10304503 and end at 10304532 (I*4 addr.) **** **** Cut-off group limits start at location 10304533 and end at 10304562 (I*4 addr.) **** **** Fluka particle importances start at location 10304564 and end at 10304593 (I*4 addr.) **** **** EM particle importances start at location 10304595 and end at 10304624 (I*4 addr.) **** **** Low en. neutron importances start at location 10304626 and end at 10304655 (I*4 addr.) **** **** Russian Roulette factors start at location 10304657 and end at 10304716 (I*4 addr.) **** **** Lower Weight Window limits start at location 10304719 and end at 10304778 (I*4 addr.) **** 1 ***** Neutron Xsec: group limits, average energies, velocities and momenta ***** ***** start at location 10304779, end at location 10306946 (I*4 addr.) ***** ***** Neutron Xsec: **** **** Group limits, average energies, velocities and momenta start at location 10304779, end at location 10306946 (I*4 addr.) ***** *** Recoil proton production activated for Xsec mat. # 1 *** *** (n,p) proton production activated for Xsec mat. # 3 *** Group cross sections storage starts at 10435387 Last location used for group xsecs 14482306 *** Values read from the cross section file *** Panini independent Xsec Number of primary groups 260 Number of primary downscatters 260 Number of primary upscatters 30 Number of secondary groups 42 Number of secondary downscatters 42 Number of neutron+gamma groups 302 Total xsec table length 335 Loc. of within group (g->g) xsec 34 Number of media read 285 Number of Leg. coefficients 6 Number of discrete angles 3 **** No bound pointwise H cross sections below 3.059E-09 GeV **** *** Pointwise cross sections activated for Xsec mat. # 1 HYDROGEN *** *** from 3.05902E-09 GeV to 2.00000E-02 GeV *** 1 *** Fluka low energy group transport threshold: 261 corresponding to an energy threshold of: 1.00001E-14 GeV 1 *** Fluka to low en. xsec material correspondence: printed atomic densities are meaningless when used in a compound *** Fluka medium Name Xsec medium atomic density Id. 1 Id. 2 Id. 3 number number ( at/(cm barn) ) 1 BLCKHOLE 0 0.0000E+00 0 0 0 2 VACUUM 1000 0.0000E+00 0 0 0 3 HYDROGEN 1 0.0000E+00 1 -2 296 6 CARBON 2 0.0000E+00 6 -2 296 7 NITROGEN 3 0.0000E+00 7 -2 296 8 OXYGEN 4 0.0000E+00 8 16 296 9 MAGNESIU 6 0.0000E+00 12 -2 296 10 ALUMINUM 7 0.0000E+00 13 27 296 11 IRON 17 8.4911E-02 26 -2 296 14 SILICON 8 0.0000E+00 14 -2 296 17 LEAD 19 3.2988E-02 82 -2 296 19 SODIUM 5 0.0000E+00 11 23 296 20 ARGON 11 0.0000E+00 18 -2 296 21 CALCIUM 13 0.0000E+00 20 -2 296 24 TITANIUM 14 0.0000E+00 22 -2 296 25 NICKEL 18 0.0000E+00 28 -2 296 27 SULFUR 10 0.0000E+00 16 -2 296 28 PHOSPHO 9 0.0000E+00 15 31 296 30 POTASSIU 12 0.0000E+00 19 -2 296 32 CHROMIUM 15 0.0000E+00 24 -2 296 33 MANGANES 16 0.0000E+00 25 55 296 *** dp/dx tab. generated up to 10.66 GeV/c/n *** *** Barkas Z^3 corrections accounted for *** *** Bloch Z^4 corrections accounted for *** *** Mott Z - e corrections accounted for *** *** Nuclear stopping power accounted for *** **** Nuclear form factor 'a la Kelner' selected **** **** Standard Coulomb correction selected **** **** for charged hadron and muon bremmstrahlung **** ***** dp/dx : material number 36 "AIR " ***** ***** Gas: actual (Fluka) pressure : 1.0000E+00 atm. ***** ***** Average excitation energy : 8.5700E+01 eV, weighted Z/A : 4.9919E-01 ***** ***** Sternheimer density effect parameters: ***** ***** X0 = 1.7418, X1 = 4.2759, C = -10.5961, A = 0.1091 m = 3.3994 D0 = 0.0000 ***** ***** Restricted energy loss tabulated in 275 intervals ***** ***** Delta ray production activated above 1.0000E-04 GeV ***** ***** dE/dx fluctuations activated for this medium, level 1 ***** ***** (up to 2I discrete levels, up to 2 K-edges) ***** ***** Restricted pair production energy loss added ***** ***** Exp. pair production activated above 0.0000E+00 GeV ***** ***** Restricted bremsstrahlung energy loss added ***** ***** Exp. bremsstrahlung activated above 3.0000E-04 GeV ***** ***** dp/dx : material number 11 "IRON " ***** ***** Average excitation energy : 2.8600E+02 eV, weighted Z/A : 4.6557E-01 ***** ***** Sternheimer density effect parameters: ***** ***** X0 = -0.0012, X1 = 3.1531, C = -4.2911, A = 0.1468 m = 2.9632 D0 = 0.1200 ***** ***** Restricted energy loss tabulated in 275 intervals ***** ***** Delta ray production activated above 1.0000E-04 GeV ***** ***** dE/dx fluctuations activated for this medium, level 1 ***** ***** (up to 2I discrete levels, up to 2 K-edges) ***** ***** Restricted pair production energy loss added ***** ***** Exp. pair production activated above 0.0000E+00 GeV ***** ***** Restricted bremsstrahlung energy loss added ***** ***** Exp. bremsstrahlung activated above 3.0000E-04 GeV ***** ***** dp/dx : material number 29 "HDconc " ***** ***** Average excitation energy : 1.9692E+02 eV, weighted Z/A : 4.7994E-01 ***** ***** Sternheimer density effect parameters: ***** ***** X0 = 0.2000, X1 = 3.0000, C = -4.2695, A = 0.1525 m = 3.0000 D0 = 0.0000 ***** ***** Restricted energy loss tabulated in 275 intervals ***** ***** Delta ray production activated above 1.0000E-04 GeV ***** ***** dE/dx fluctuations activated for this medium, level 1 ***** ***** (up to 2I discrete levels, up to 2 K-edges) ***** ***** Restricted pair production energy loss added ***** ***** Exp. pair production activated above 0.0000E+00 GeV ***** ***** Restricted bremsstrahlung energy loss added ***** ***** Exp. bremsstrahlung activated above 3.0000E-04 GeV ***** *** dp/dx:d,imat,ztar,ij,po,eo -2.14175137007721617E-005 37 2.6666666666666665 15 0.67675230345960624 0.83766344885871857 *** *** x,xoster,ccster,d0ster 0.13701412036373448 0.13700000000000001 -3.0015999999999998 0.0000000000000000 *** *** dp/dx:d,imat,ztar,ij,po,eo -2.14175137007721617E-005 37 2.6666666666666665 16 0.67675230345960624 0.83766344885871857 *** *** x,xoster,ccster,d0ster 0.13701412036373448 0.13700000000000001 -3.0015999999999998 0.0000000000000000 *** ***** dp/dx : material number 37 "POLYETHY" ***** ***** Average excitation energy : 5.7400E+01 eV, weighted Z/A : 5.7035E-01 ***** ***** Sternheimer density effect parameters: ***** ***** X0 = 0.1370, X1 = 2.5177, C = -3.0016, A = 0.1211 m = 3.4292 D0 = 0.0000 ***** ***** Restricted energy loss tabulated in 275 intervals ***** ***** Delta ray production activated above 1.0000E-04 GeV ***** ***** dE/dx fluctuations activated for this medium, level 1 ***** ***** (up to 2I discrete levels, up to 2 K-edges) ***** ***** Restricted pair production energy loss added ***** ***** Exp. pair production activated above 0.0000E+00 GeV ***** ***** Restricted bremsstrahlung energy loss added ***** ***** Exp. bremsstrahlung activated above 3.0000E-04 GeV ***** ***** dp/dx : material number 17 "LEAD " ***** ***** Average excitation energy : 8.2300E+02 eV, weighted Z/A : 3.9575E-01 ***** ***** Sternheimer density effect parameters: ***** ***** X0 = 0.3776, X1 = 3.8073, C = -6.2018, A = 0.0936 m = 3.1608 D0 = 0.1400 ***** ***** Restricted energy loss tabulated in 275 intervals ***** ***** Delta ray production activated above 1.0000E-04 GeV ***** ***** dE/dx fluctuations activated for this medium, level 1 ***** ***** (up to 2I discrete levels, up to 2 K-edges) ***** ***** Restricted pair production energy loss added ***** ***** Exp. pair production activated above 0.0000E+00 GeV ***** ***** Restricted bremsstrahlung energy loss added ***** ***** Exp. bremsstrahlung activated above 3.0000E-04 GeV ***** ***** dp/dx : material number 31 "PORTLAND" ***** ***** Average excitation energy : 1.2897E+02 eV, weighted Z/A : 5.0274E-01 ***** ***** Sternheimer density effect parameters: ***** ***** X0 = 0.2000, X1 = 3.0000, C = -3.8521, A = 0.1335 m = 3.0000 D0 = 0.0000 ***** ***** Restricted energy loss tabulated in 275 intervals ***** ***** Delta ray production activated above 1.0000E-04 GeV ***** ***** dE/dx fluctuations activated for this medium, level 1 ***** ***** (up to 2I discrete levels, up to 2 K-edges) ***** ***** Restricted pair production energy loss added ***** ***** Exp. pair production activated above 0.0000E+00 GeV ***** ***** Restricted bremsstrahlung energy loss added ***** ***** Exp. bremsstrahlung activated above 3.0000E-04 GeV ***** ***** dp/dx : material number 35 "PLASTSCI" ***** ***** Average excitation energy : 6.4700E+01 eV, weighted Z/A : 5.4142E-01 ***** ***** Sternheimer density effect parameters: ***** ***** X0 = 0.1464, X1 = 2.4855, C = -3.1997, A = 0.1610 m = 3.2393 D0 = 0.0000 ***** ***** Restricted energy loss tabulated in 275 intervals ***** ***** Delta ray production activated above 1.0000E-04 GeV ***** ***** dE/dx fluctuations activated for this medium, level 1 ***** ***** (up to 2I discrete levels, up to 2 K-edges) ***** ***** Restricted pair production energy loss added ***** ***** Exp. pair production activated above 0.0000E+00 GeV ***** ***** Restricted bremsstrahlung energy loss added ***** ***** Exp. bremsstrahlung activated above 3.0000E-04 GeV ***** ***** dp/dx : material number 34 "SS316LN " ***** ***** Average excitation energy : 2.8116E+02 eV, weighted Z/A : 4.6627E-01 ***** ***** Sternheimer density effect parameters: ***** ***** X0 = 0.2000, X1 = 3.0000, C = -4.2648, A = 0.1523 m = 3.0000 D0 = 0.0000 ***** ***** Restricted energy loss tabulated in 275 intervals ***** ***** Delta ray production activated above 1.0000E-04 GeV ***** ***** dE/dx fluctuations activated for this medium, level 1 ***** ***** (up to 2I discrete levels, up to 2 K-edges) ***** ***** Restricted pair production energy loss added ***** ***** Exp. pair production activated above 0.0000E+00 GeV ***** ***** Restricted bremsstrahlung energy loss added ***** ***** Exp. bremsstrahlung activated above 3.0000E-04 GeV ***** ***** dp/dx tabulations in blank common start at location 14483653 ***** ***** end at location 14774052 (I*4 addresses) ***** *** Range: P_max: 1.2300843 P_min 3.98107152E-03 *** ***** Range tabulations in blank common start at location 14774055 ***** ***** end at location 14774918 (I*4 addresses) ***** ***** Sigtab : material number 6 "CARBON " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14774921 ***** ***** end at location 14782826 (I*4 addresses) for this medium ***** ***** Sigtab : material number 7 "NITROGEN" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14782827 ***** ***** end at location 14790732 (I*4 addresses) for this medium ***** ***** Sigtab : material number 8 "OXYGEN " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14790733 ***** ***** end at location 14798638 (I*4 addresses) for this medium ***** ***** Sigtab : material number 20 "ARGON " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14798639 ***** ***** end at location 14806544 (I*4 addresses) for this medium ***** ***** Sigtab : material number 36 "AIR " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14806545 ***** ***** end at location 14814450 (I*4 addresses) for this medium ***** ***** Sigtab : material number 11 "IRON " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14814451 ***** ***** end at location 14822356 (I*4 addresses) for this medium ***** ***** Sigtab : material number 21 "CALCIUM " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14822357 ***** ***** end at location 14830262 (I*4 addresses) for this medium ***** ***** Sigtab : material number 14 "SILICON " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14830263 ***** ***** end at location 14838168 (I*4 addresses) for this medium ***** ***** Sigtab : material number 10 "ALUMINUM" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14838169 ***** ***** end at location 14846074 (I*4 addresses) for this medium ***** ***** Sigtab : material number 3 "HYDROGEN" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14846075 ***** ***** end at location 14853980 (I*4 addresses) for this medium ***** ***** Sigtab : material number 9 "MAGNESIU" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14853981 ***** ***** end at location 14861886 (I*4 addresses) for this medium ***** ***** Sigtab : material number 24 "TITANIUM" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14861887 ***** ***** end at location 14869792 (I*4 addresses) for this medium ***** ***** Sigtab : material number 27 "SULFUR " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14869793 ***** ***** end at location 14877698 (I*4 addresses) for this medium ***** ***** Sigtab : material number 28 "PHOSPHO " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14877699 ***** ***** end at location 14885604 (I*4 addresses) for this medium ***** ***** Sigtab : material number 29 "HDconc " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14885605 ***** ***** end at location 14893510 (I*4 addresses) for this medium ***** ***** Sigtab : material number 37 "POLYETHY" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14893511 ***** ***** end at location 14901416 (I*4 addresses) for this medium ***** ***** Sigtab : material number 17 "LEAD " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14901417 ***** ***** end at location 14909322 (I*4 addresses) for this medium ***** ***** Sigtab : material number 19 "SODIUM " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14909323 ***** ***** end at location 14917228 (I*4 addresses) for this medium ***** ***** Sigtab : material number 30 "POTASSIU" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14917229 ***** ***** end at location 14925134 (I*4 addresses) for this medium ***** ***** Sigtab : material number 31 "PORTLAND" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14925135 ***** ***** end at location 14933040 (I*4 addresses) for this medium ***** ***** Sigtab : material number 35 "PLASTSCI" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14933041 ***** ***** end at location 14940946 (I*4 addresses) for this medium ***** ***** Sigtab : material number 32 "CHROMIUM" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14940947 ***** ***** end at location 14948852 (I*4 addresses) for this medium ***** ***** Sigtab : material number 25 "NICKEL " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14948853 ***** ***** end at location 14956758 (I*4 addresses) for this medium ***** ***** Sigtab : material number 33 "MANGANES" ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14956759 ***** ***** end at location 14964664 (I*4 addresses) for this medium ***** ***** Sigtab : material number 34 "SS316LN " ***** ***** Muon photonuclear interac. requested ***** ***** Xsec tabulations in blank common start at location 14964665 ***** ***** end at location 14972570 (I*4 addresses) for this medium ***** ***** Total,elastic,inelastic,pair,bremss. macroscopic cross sections tabulated in 70 intervals ***** ***** Xsec tabulations in blank common start at location 14774921 ***** ***** end at location 14972570 (I*4 addresses) ***** ***** Form Fact. tabulations in blank common start at location14972571 ***** ***** end at location15033942 (I*4 addresses) ***** Chem. sym. : N, Z = 7., A = 14.007, PZ = 7.84430E-01 , RHOZ = 9.09938E-04 Chem. sym. : O, Z = 8., A = 15.999, PZ = 2.10749E-01 , RHOZ = 2.79248E-04 Chem. sym. : Ar, Z = 18., A = 39.948, PZ = 4.67116E-03 , RHOZ = 1.54540E-05 Chem. sym. : C, Z = 6., A = 12.011, PZ = 1.50191E-04 , RHOZ = 1.49394E-07 Chem. sym. : Fe, Z = 26., A = 55.845, PZ = 1.00000E+00 , RHOZ = 7.87400E+00 Chem. sym. : Fe, Z = 26., A = 55.845, PZ = 3.10831E-01 , RHOZ = 2.24578E+00 Chem. sym. : Ca, Z = 20., A = 40.078, PZ = 3.22032E-02 , RHOZ = 1.66980E-01 Chem. sym. : O, Z = 8., A = 15.999, PZ = 5.64556E-01 , RHOZ = 1.16861E+00 Chem. sym. : Si, Z = 14., A = 28.085, PZ = 2.05021E-02 , RHOZ = 7.44970E-02 Chem. sym. : Al, Z = 13., A = 26.982, PZ = 6.00060E-03 , RHOZ = 2.09469E-02 Chem. sym. : Ti, Z = 22., A = 47.867, PZ = 9.00090E-04 , RHOZ = 5.57418E-03 Chem. sym. : Mg, Z = 12., A = 24.305, PZ = 2.10021E-03 , RHOZ = 6.60416E-03 Chem. sym. : S, Z = 16., A = 32.066, PZ = 6.00060E-04 , RHOZ = 2.48942E-03 Chem. sym. : P, Z = 15., A = 30.974, PZ = 1.00010E-04 , RHOZ = 4.00771E-04 Chem. sym. : H, Z = 1., A = 1.008, PZ = 6.22062E-02 , RHOZ = 8.11200E-03 Chem. sym. : C, Z = 6., A = 12.011, PZ = 3.33333E-01 , RHOZ = 8.04905E-01 Chem. sym. : H, Z = 1., A = 1.008, PZ = 6.66667E-01 , RHOZ = 1.35095E-01 Chem. sym. : Pb, Z = 82., A = 207.200, PZ = 1.00000E+00 , RHOZ = 1.13500E+01 Chem. sym. : Si, Z = 14., A = 28.085, PZ = 2.04115E-01 , RHOZ = 7.75148E-01 Chem. sym. : O, Z = 8., A = 15.999, PZ = 5.62524E-01 , RHOZ = 1.21695E+00 Chem. sym. : Ca, Z = 20., A = 40.078, PZ = 1.86744E-02 , RHOZ = 1.01200E-01 Chem. sym. : Fe, Z = 26., A = 55.845, PZ = 4.26427E-03 , RHOZ = 3.22000E-02 Chem. sym. : Al, Z = 13., A = 26.982, PZ = 2.13538E-02 , RHOZ = 7.79056E-02 Chem. sym. : K, Z = 19., A = 39.098, PZ = 5.65570E-03 , RHOZ = 2.99000E-02 Chem. sym. : Na, Z = 11., A = 22.990, PZ = 1.18382E-02 , RHOZ = 3.68000E-02 Chem. sym. : Mg, Z = 12., A = 24.305, PZ = 1.39970E-03 , RHOZ = 4.60000E-03 Chem. sym. : C, Z = 6., A = 12.011, PZ = 1.41623E-03 , RHOZ = 2.30000E-03 Chem. sym. : H, Z = 1., A = 1.008, PZ = 1.68759E-01 , RHOZ = 2.30000E-02 Chem. sym. : C, Z = 6., A = 12.011, PZ = 4.74618E-01 , RHOZ = 9.44280E-01 Chem. sym. : H, Z = 1., A = 1.008, PZ = 5.25382E-01 , RHOZ = 8.77200E-02 Chem. sym. : Fe, Z = 26., A = 55.845, PZ = 6.58202E-01 , RHOZ = 5.23731E+00 Chem. sym. : Cr, Z = 24., A = 51.996, PZ = 1.94774E-01 , RHOZ = 1.44300E+00 Chem. sym. : Ni, Z = 28., A = 58.693, PZ = 1.04928E-01 , RHOZ = 8.77500E-01 Chem. sym. : Mn, Z = 25., A = 54.938, PZ = 1.99291E-02 , RHOZ = 1.56000E-01 Chem. sym. : Si, Z = 14., A = 28.085, PZ = 1.94916E-02 , RHOZ = 7.80000E-02 Chem. sym. : P, Z = 15., A = 30.974, PZ = 7.95332E-04 , RHOZ = 3.51000E-03 Chem. sym. : S, Z = 16., A = 32.066, PZ = 5.12161E-04 , RHOZ = 2.34000E-03 Chem. sym. : C, Z = 6., A = 12.011, PZ = 1.36736E-03 , RHOZ = 2.34000E-03 *** Blank common cells from 15033943 to 15034240 allocated for an EMF R*4 tab. array *** Blank common cells from 15034241 to 15034461 allocated for an EMF R*4 tab. array *** Blank common cells from 15034462 to 15034753 allocated for an EMF R*4 tab. array *** Blank common cells from 15034754 to 15035062 allocated for an EMF R*4 tab. array *** Blank common cells from 15035063 to 15035371 allocated for an EMF R*4 tab. array *** Blank common cells from 15035372 to 15035584 allocated for an EMF R*4 tab. array *** Blank common cells from 15035585 to 15035869 allocated for an EMF R*4 tab. array *** Blank common cells from 15035870 to 15036171 allocated for an EMF R*4 tab. array *** Blank common cells from 15036172 to 15036474 allocated for an EMF R*4 tab. array *** Blank common cells from 15036475 to 15036680 allocated for an EMF R*4 tab. array *** Blank common cells from 15036681 to 15036959 allocated for an EMF R*4 tab. array *** Blank common cells from 15036960 to 15037256 allocated for an EMF R*4 tab. array *** Blank common cells from 15037257 to 15037553 allocated for an EMF R*4 tab. array *** Blank common cells from 15037554 to 15039619 allocated for an EMF R*4 tab. array *** Blank common cells from 15039620 to 15041756 allocated for an EMF R*4 tab. array *** Blank common cells from 15041757 to 15043907 allocated for an EMF R*4 tab. array *** Blank common cells from 15043908 to 15046059 allocated for an EMF R*4 tab. array *** Blank common cells from 15046060 to 15048260 allocated for an EMF R*4 tab. array *** Blank common cells from 15048261 to 15050020 allocated for an EMF R*4 tab. array *** Blank common cells from 15050021 to 15051848 allocated for an EMF R*4 tab. array *** Blank common cells from 15051849 to 15053687 allocated for an EMF R*4 tab. array *** Blank common cells from 15053688 to 15055526 allocated for an EMF R*4 tab. array *** Blank common cells from 15055527 to 15057418 allocated for an EMF R*4 tab. array *** Blank common cells from 15057419 to 15057597 allocated for an EMF R*4 tab. array *** Blank common cells from 15057598 to 15057841 allocated for an EMF R*4 tab. array *** Blank common cells from 15057842 to 15058094 allocated for an EMF R*4 tab. array *** Blank common cells from 15058095 to 15058347 allocated for an EMF R*4 tab. array *** Blank common cells from 15058348 to 15058653 allocated for an EMF R*4 tab. array *** Blank common cells from 15058654 to 15058977 allocated for an EMF R*4 tab. array *** Blank common cells from 15058978 to 15059301 allocated for an EMF R*4 tab. array *** Blank common cells from 15059302 to 15059476 allocated for an EMF R*4 tab. array *** Blank common cells from 15059477 to 15059714 allocated for an EMF R*4 tab. array *** Blank common cells from 15059715 to 15059960 allocated for an EMF R*4 tab. array *** Blank common cells from 15059961 to 15060206 allocated for an EMF R*4 tab. array *** Blank common cells from 15060207 to 15060504 allocated for an EMF R*4 tab. array *** Blank common cells from 15060505 to 15060821 allocated for an EMF R*4 tab. array *** Blank common cells from 15060822 to 15061138 allocated for an EMF R*4 tab. array *** Blank common cells from 15061139 to 15061309 allocated for an EMF R*4 tab. array *** Blank common cells from 15061310 to 15061541 allocated for an EMF R*4 tab. array *** Blank common cells from 15061542 to 15061781 allocated for an EMF R*4 tab. array *** Blank common cells from 15061782 to 15062021 allocated for an EMF R*4 tab. array *** Blank common cells from 15062022 to 15062313 allocated for an EMF R*4 tab. array *** Blank common cells from 15062314 to 15062623 allocated for an EMF R*4 tab. array *** Blank common cells from 15062624 to 15062934 allocated for an EMF R*4 tab. array *** Blank common cells from 15062935 to 15063101 allocated for an EMF R*4 tab. array *** Blank common cells from 15063102 to 15063328 allocated for an EMF R*4 tab. array *** Blank common cells from 15063329 to 15063562 allocated for an EMF R*4 tab. array *** Blank common cells from 15063563 to 15063796 allocated for an EMF R*4 tab. array *** Blank common cells from 15063797 to 15064083 allocated for an EMF R*4 tab. array *** Blank common cells from 15064084 to 15064388 allocated for an EMF R*4 tab. array *** Blank common cells from 15064389 to 15064693 allocated for an EMF R*4 tab. array *** Blank common cells from 15064694 to 15064854 allocated for an EMF R*4 tab. array *** Blank common cells from 15064855 to 15065073 allocated for an EMF R*4 tab. array *** Blank common cells from 15065074 to 15065298 allocated for an EMF R*4 tab. array *** Blank common cells from 15065299 to 15065523 allocated for an EMF R*4 tab. array *** Blank common cells from 15065524 to 15065802 allocated for an EMF R*4 tab. array *** Blank common cells from 15065803 to 15066098 allocated for an EMF R*4 tab. array *** Blank common cells from 15066099 to 15066395 allocated for an EMF R*4 tab. array *** Blank common cells from 15066396 to 15066957 allocated for an EMF R*4 tab. array *** Blank common cells from 15066958 to 15067576 allocated for an EMF R*4 tab. array *** Blank common cells from 15067577 to 15068200 allocated for an EMF R*4 tab. array *** Blank common cells from 15068201 to 15068824 allocated for an EMF R*4 tab. array *** Blank common cells from 15068825 to 15069499 allocated for an EMF R*4 tab. array *** Blank common cells from 15069500 to 15070187 allocated for an EMF R*4 tab. array *** Blank common cells from 15070188 to 15070876 allocated for an EMF R*4 tab. array *** Blank common cells from 15070877 to 15071608 allocated for an EMF R*4 tab. array *** Blank common cells from 15071609 to 15072327 allocated for an EMF R*4 tab. array *** Blank common cells from 15072328 to 15073102 allocated for an EMF R*4 tab. array *** Blank common cells from 15073103 to 15073882 allocated for an EMF R*4 tab. array *** Blank common cells from 15073883 to 15074662 allocated for an EMF R*4 tab. array *** Blank common cells from 15074663 to 15075490 allocated for an EMF R*4 tab. array *** Blank common cells from 15075491 to 15076329 allocated for an EMF R*4 tab. array *** Blank common cells from 15076330 to 15077168 allocated for an EMF R*4 tab. array *** Blank common cells from 15077169 to 15078053 allocated for an EMF R*4 tab. array *** Blank common cells from 15078054 to 15078203 allocated for an EMF R*4 tab. array *** Blank common cells from 15078204 to 15078408 allocated for an EMF R*4 tab. array *** Blank common cells from 15078409 to 15078617 allocated for an EMF R*4 tab. array *** Blank common cells from 15078618 to 15078826 allocated for an EMF R*4 tab. array *** Blank common cells from 15078827 to 15079083 allocated for an EMF R*4 tab. array *** Blank common cells from 15079084 to 15079351 allocated for an EMF R*4 tab. array *** Blank common cells from 15079352 to 15079619 allocated for an EMF R*4 tab. array *** Blank common cells from 15079620 to 15079929 allocated for an EMF R*4 tab. array *** Blank common cells from 15079930 to 15080240 allocated for an EMF R*4 tab. array *** Blank common cells from 15080241 to 15080558 allocated for an EMF R*4 tab. array *** Blank common cells from 15080559 to 15080703 allocated for an EMF R*4 tab. array *** Blank common cells from 15080704 to 15080902 allocated for an EMF R*4 tab. array *** Blank common cells from 15080903 to 15081105 allocated for an EMF R*4 tab. array *** Blank common cells from 15081106 to 15081309 allocated for an EMF R*4 tab. array *** Blank common cells from 15081310 to 15081563 allocated for an EMF R*4 tab. array *** Blank common cells from 15081564 to 15081828 allocated for an EMF R*4 tab. array *** Blank common cells from 15081829 to 15082093 allocated for an EMF R*4 tab. array *** Blank common cells from 15082094 to 15082410 allocated for an EMF R*4 tab. array *** Blank common cells from 15082411 to 15082727 allocated for an EMF R*4 tab. array *** Blank common cells from 15082728 to 15083046 allocated for an EMF R*4 tab. array *** Blank common cells from 15083047 to 15083390 allocated for an EMF R*4 tab. array *** Blank common cells from 15083391 to 15083788 allocated for an EMF R*4 tab. array *** Blank common cells from 15083789 to 15084189 allocated for an EMF R*4 tab. array *** Blank common cells from 15084190 to 15084591 allocated for an EMF R*4 tab. array *** Blank common cells from 15084592 to 15085042 allocated for an EMF R*4 tab. array *** Blank common cells from 15085043 to 15085503 allocated for an EMF R*4 tab. array *** Blank common cells from 15085504 to 15085965 allocated for an EMF R*4 tab. array *** Blank common cells from 15085966 to 15086468 allocated for an EMF R*4 tab. array *** Blank common cells from 15086469 to 15086971 allocated for an EMF R*4 tab. array *** Blank common cells from 15086972 to 15087486 allocated for an EMF R*4 tab. array *** Blank common cells from 15087487 to 15087995 allocated for an EMF R*4 tab. array *** Blank common cells from 15087996 to 15088557 allocated for an EMF R*4 tab. array *** Blank common cells from 15088558 to 15089123 allocated for an EMF R*4 tab. array *** Blank common cells from 15089124 to 15089689 allocated for an EMF R*4 tab. array *** Blank common cells from 15089690 to 15090305 allocated for an EMF R*4 tab. array *** Blank common cells from 15090306 to 15090931 allocated for an EMF R*4 tab. array *** Blank common cells from 15090932 to 15091557 allocated for an EMF R*4 tab. array *** Blank common cells from 15091558 to 15092225 allocated for an EMF R*4 tab. array *** Blank common cells from 15092226 to 15092893 allocated for an EMF R*4 tab. array *** Blank common cells from 15092894 to 15093574 allocated for an EMF R*4 tab. array *** Blank common cells from 15093575 to 15094142 allocated for an EMF R*4 tab. array *** Blank common cells from 15094143 to 15094763 allocated for an EMF R*4 tab. array *** Blank common cells from 15094764 to 15095387 allocated for an EMF R*4 tab. array *** Blank common cells from 15095388 to 15096012 allocated for an EMF R*4 tab. array *** Blank common cells from 15096013 to 15096687 allocated for an EMF R*4 tab. array *** Blank common cells from 15096688 to 15097371 allocated for an EMF R*4 tab. array *** Blank common cells from 15097372 to 15098056 allocated for an EMF R*4 tab. array *** Blank common cells from 15098057 to 15098783 allocated for an EMF R*4 tab. array *** Blank common cells from 15098784 to 15099510 allocated for an EMF R*4 tab. array *** Blank common cells from 15099511 to 15100252 allocated for an EMF R*4 tab. array *** Blank common cells from 15100253 to 15100329 allocated for an EMF R*4 tab. array *** Blank common cells from 15100330 to 15100449 allocated for an EMF R*4 tab. array *** Blank common cells from 15100450 to 15100570 allocated for an EMF R*4 tab. array *** Blank common cells from 15100571 to 15100695 allocated for an EMF R*4 tab. array *** Blank common cells from 15100696 to 15100851 allocated for an EMF R*4 tab. array *** Blank common cells from 15100852 to 15101009 allocated for an EMF R*4 tab. array *** Blank common cells from 15101010 to 15101171 allocated for an EMF R*4 tab. array *** Blank common cells from 15101172 to 15101337 allocated for an EMF R*4 tab. array *** Blank common cells from 15101338 to 15101504 allocated for an EMF R*4 tab. array *** Blank common cells from 15101505 to 15101697 allocated for an EMF R*4 tab. array *** Blank common cells from 15101698 to 15101894 allocated for an EMF R*4 tab. array *** Blank common cells from 15101895 to 15102095 allocated for an EMF R*4 tab. array *** Blank common cells from 15102096 to 15102306 allocated for an EMF R*4 tab. array *** Blank common cells from 15102307 to 15102518 allocated for an EMF R*4 tab. array *** Blank common cells from 15102519 to 15102755 allocated for an EMF R*4 tab. array *** Blank common cells from 15102756 to 15102993 allocated for an EMF R*4 tab. array *** Blank common cells from 15102994 to 15103230 allocated for an EMF R*4 tab. array *** Blank common cells from 15103231 to 15103475 allocated for an EMF R*4 tab. array *** Blank common cells from 15103476 to 15103726 allocated for an EMF R*4 tab. array *** Blank common cells from 15103727 to 15104005 allocated for an EMF R*4 tab. array *** Blank common cells from 15104006 to 15104287 allocated for an EMF R*4 tab. array *** Blank common cells from 15104288 to 15104583 allocated for an EMF R*4 tab. array *** Blank common cells from 15104584 to 15104898 allocated for an EMF R*4 tab. array *** Blank common cells from 15104899 to 15105220 allocated for an EMF R*4 tab. array Electron Xsecs for EMF medium # 1(AIR ) tabulated in 362 intervals Min kin. energy 3.000E-04 (GeV)Max kin. energy 10.7 (GeV) Electron Xsecs for EMF medium # 2(IRON ) tabulated in 362 intervals Min kin. energy 3.000E-04 (GeV)Max kin. energy 10.7 (GeV) Electron Xsecs for EMF medium # 3(HDconc ) tabulated in 362 intervals Min kin. energy 3.000E-04 (GeV)Max kin. energy 10.7 (GeV) Electron Xsecs for EMF medium # 4(POLYETHY) tabulated in 362 intervals Min kin. energy 3.000E-04 (GeV)Max kin. energy 10.7 (GeV) Electron Xsecs for EMF medium # 5(LEAD ) tabulated in 362 intervals Min kin. energy 3.000E-04 (GeV)Max kin. energy 10.7 (GeV) Electron Xsecs for EMF medium # 6(PORTLAND) tabulated in 362 intervals Min kin. energy 3.000E-04 (GeV)Max kin. energy 10.7 (GeV) Electron Xsecs for EMF medium # 7(PLASTSCI) tabulated in 362 intervals Min kin. energy 3.000E-04 (GeV)Max kin. energy 10.7 (GeV) Electron Xsecs for EMF medium # 8(SS316LN ) tabulated in 362 intervals Min kin. energy 3.000E-04 (GeV)Max kin. energy 10.7 (GeV) ***** EMF tabulations in blank common start at location15105221 ***** ***** end at location15364086 (I*4 addresses) ***** **** Fluorescence X-ray production requested for Emf medium # 1 **** **** Maximum K-edge energy 3.17759998E-03 MeV **** **** Lowest energy bin above it # 0 **** **** Fluorescence X-ray production requested for Emf medium # 2 **** **** Maximum K-edge energy 7.08340015E-03 MeV **** **** Lowest energy bin above it # 0 **** **** Fluorescence X-ray production requested for Emf medium # 3 **** **** Maximum K-edge energy 7.08340015E-03 MeV **** **** Lowest energy bin above it # 0 **** **** Fluorescence X-ray production requested for Emf medium # 4 **** **** Maximum K-edge energy 2.91009987E-04 MeV **** **** Lowest energy bin above it # 0 **** **** Fluorescence X-ray production requested for Emf medium # 5 **** **** Maximum K-edge energy 8.82899985E-02 MeV **** **** Lowest energy bin above it # 0 **** **** Fluorescence X-ray production requested for Emf medium # 6 **** **** Maximum K-edge energy 7.08340015E-03 MeV **** **** Lowest energy bin above it # 0 **** **** Fluorescence X-ray production requested for Emf medium # 7 **** **** Maximum K-edge energy 2.91009987E-04 MeV **** **** Lowest energy bin above it # 0 **** **** Fluorescence X-ray production requested for Emf medium # 8 **** **** Maximum K-edge energy 8.30280036E-03 MeV **** **** Lowest energy bin above it # 0 **** 1 Quantities/Biasing associated with each media: AIR Rho = 1.204790E-03 g/cm**3 Rlc= 30392.0 cm Ae = 0.810999 MeV Ue = 10664.8 MeV Ap = 0.100000 MeV Up = 10664.3 MeV dE/dx fluctuations activated for this medium, level 1 below the threshold for explicit secondary electron production (up to 2I discrete levels, up to 2 K-edges) IRON Rho = 7.87400 g/cm**3 Rlc= 1.75749 cm Ae = 0.810999 MeV Ue = 10664.8 MeV Ap = 0.100000 MeV Up = 10664.3 MeV dE/dx fluctuations activated for this medium, level 1 below the threshold for explicit secondary electron production (up to 2I discrete levels, up to 2 K-edges) HDconc Rho = 3.70000 g/cm**3 Rlc= 4.71852 cm Ae = 0.810999 MeV Ue = 10664.8 MeV Ap = 0.100000 MeV Up = 10664.3 MeV dE/dx fluctuations activated for this medium, level 1 below the threshold for explicit secondary electron production (up to 2I discrete levels, up to 2 K-edges) POLYETHY Rho = 0.940000 g/cm**3 Rlc= 47.6316 cm Ae = 0.810999 MeV Ue = 10664.8 MeV Ap = 0.100000 MeV Up = 10664.3 MeV dE/dx fluctuations activated for this medium, level 1 below the threshold for explicit secondary electron production (up to 2I discrete levels, up to 2 K-edges) LEAD Rho = 11.3500 g/cm**3 Rlc= 0.561207 cm Ae = 0.810999 MeV Ue = 10664.8 MeV Ap = 0.100000 MeV Up = 10664.3 MeV dE/dx fluctuations activated for this medium, level 1 below the threshold for explicit secondary electron production (up to 2I discrete levels, up to 2 K-edges) PORTLAND Rho = 2.30000 g/cm**3 Rlc= 11.5527 cm Ae = 0.810999 MeV Ue = 10664.8 MeV Ap = 0.100000 MeV Up = 10664.3 MeV dE/dx fluctuations activated for this medium, level 1 below the threshold for explicit secondary electron production (up to 2I discrete levels, up to 2 K-edges) PLASTSCI Rho = 1.03200 g/cm**3 Rlc= 42.5400 cm Ae = 0.810999 MeV Ue = 10664.8 MeV Ap = 0.100000 MeV Up = 10664.3 MeV dE/dx fluctuations activated for this medium, level 1 below the threshold for explicit secondary electron production (up to 2I discrete levels, up to 2 K-edges) SS316LN Rho = 7.80000 g/cm**3 Rlc= 1.78955 cm Ae = 0.810999 MeV Ue = 10664.8 MeV Ap = 0.100000 MeV Up = 10664.3 MeV dE/dx fluctuations activated for this medium, level 1 below the threshold for explicit secondary electron production (up to 2I discrete levels, up to 2 K-edges) 1 Correspondence of regions and EMF-FLUKA material numbers and names: Region EMF FLUKA 1 0 VACUUM 1 BLCKHOLE Ecut = 0.0000E+00 MeV, Pcut = 0.0000E+00 MeV, BIAS = F, Ray. = F, S(q,Z) = F, Pz(q,Z) = F 2 1 AIR 36 AIR Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 3 1 AIR 36 AIR Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 4 1 AIR 36 AIR Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 5 1 AIR 36 AIR Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 6 2 IRON 11 IRON Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 10 3 HDconc 29 HDconc Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 11 3 HDconc 29 HDconc Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 12 4 POLYETHY 37 POLYETHY Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 13 2 IRON 11 IRON Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 14 5 LEAD 17 LEAD Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 15 6 PORTLAND 31 PORTLAND Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 16 6 PORTLAND 31 PORTLAND Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 17 6 PORTLAND 31 PORTLAND Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 18 6 PORTLAND 31 PORTLAND Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 19 6 PORTLAND 31 PORTLAND Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 20 6 PORTLAND 31 PORTLAND Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 21 6 PORTLAND 31 PORTLAND Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 22 1 AIR 36 AIR Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 23 7 PLASTSCI 35 PLASTSCI Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 24 2 IRON 11 IRON Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 25 0 VACUUM 2 VACUUM Ecut = 0.0000E+00 MeV, Pcut = 0.0000E+00 MeV, BIAS = F, Ray. = F, S(q,Z) = F, Pz(q,Z) = F 26 8 SS316LN 34 SS316LN Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 27 0 VACUUM 2 VACUUM Ecut = 0.0000E+00 MeV, Pcut = 0.0000E+00 MeV, BIAS = F, Ray. = F, S(q,Z) = F, Pz(q,Z) = F 28 5 LEAD 17 LEAD Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 29 2 IRON 11 IRON Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T 30 2 IRON 11 IRON Ecut = 8.1100E-01 MeV, Pcut = 1.0000E-01 MeV, BIAS = F, Ray. = T, S(q,Z) = T, Pz(q,Z) = T Starting location in blank common of binning data:15375705 Last location in blank common of binning data: 30343907 Starting location in blank common of bdrx data:30343909 Last location in blank common of bdrx data: 30345827 1 === Output before the actual run - Particle properties: === === Transportable Fluka particles: === Particle Number Mass Mean Life Charge Baryon Discard Decay PDG id (GeV/c**2) (s) number Flag(=1) Flag 4-HELIUM -6 3.7273803 1.000E+18 2 4 0 1 9999 3-HELIUM -5 2.8083922 1.000E+18 2 3 0 1 9999 TRITON -4 2.8089218 1.000E+18 1 3 0 1 9999 DEUTERON -3 1.8756134 1.000E+18 1 2 0 1 9999 HEAVYION -2 0.0000000 1.000E+18 0 0 0 1 9999 OPTIPHOT -1 0.0000000 1.000E+18 0 0 0 1 9999 RAY 0 0.0000000 0.00 0 0 0 1 9999 PROTON 1 0.9382723 1.000E+18 1 1 0 1 2212 APROTON 2 0.9382723 1.000E+18 -1 -1 0 1 -2212 ELECTRON 3 0.0005110 1.000E+18 -1 0 0 1 11 POSITRON 4 0.0005110 1.000E+18 1 0 0 1 -11 NEUTRIE 5 0.0000000 1.000E+18 0 0 1 1 12 ANEUTRIE 6 0.0000000 1.000E+18 0 0 1 1 -12 PHOTON 7 0.0000000 1.000E+18 0 0 0 1 22 NEUTRON 8 0.9395656 889. 0 1 0 1 2112 ANEUTRON 9 0.9395656 889. 0 -1 0 1 -2112 MUON+ 10 0.1056584 2.197E-06 1 0 0 1 -13 MUON- 11 0.1056584 2.197E-06 -1 0 0 1 13 KAONLONG 12 0.4976710 5.170E-08 0 0 0 1 130 PION+ 13 0.1395699 2.603E-08 1 0 0 1 211 PION- 14 0.1395699 2.603E-08 -1 0 0 1 -211 KAON+ 15 0.4936460 1.237E-08 1 0 0 1 321 KAON- 16 0.4936460 1.237E-08 -1 0 0 1 -321 LAMBDA 17 1.1156300 2.632E-10 0 1 0 1 3122 ALAMBDA 18 1.1156300 2.632E-10 0 -1 0 1 -3122 KAONSHRT 19 0.4976710 8.922E-11 0 0 0 1 310 SIGMA- 20 1.1974300 1.479E-10 -1 1 0 1 3112 SIGMA+ 21 1.1893700 7.990E-11 1 1 0 1 3222 SIGMAZER 22 1.1925500 7.400E-20 0 1 0 1 3212 PIZERO 23 0.1349764 8.400E-17 0 0 0 1 111 KAONZERO 24 0.4976710 0.00 0 0 0 1 311 AKAONZER 25 0.4976710 0.00 0 0 0 1 -311 RESERVED 26 0.1349764 8.400E-17 0 0 0 1 0 NEUTRIM 27 0.0000000 1.000E+18 0 0 1 1 14 ANEUTRIM 28 0.0000000 1.000E+18 0 0 1 1 -14 RESERVED 29 0.5474500 0.00 0 0 0 1 0 RESERVED 30 0.0000000 0.00 0 0 0 1 0 ASIGMA- 31 1.1893700 7.990E-11 -1 -1 0 1 -3222 ASIGMAZE 32 1.1925500 7.400E-20 0 -1 0 1 -3212 ASIGMA+ 33 1.1974300 1.479E-10 1 -1 0 1 -3112 XSIZERO 34 1.3149000 2.900E-10 0 1 0 1 3322 AXSIZERO 35 1.3149000 2.900E-10 0 -1 0 1 -3322 XSI- 36 1.3213200 1.639E-10 -1 1 0 1 3312 AXSI+ 37 1.3213200 1.639E-10 1 -1 0 1 -3312 OMEGA- 38 1.6724300 8.220E-11 -1 1 0 1 3334 AOMEGA+ 39 1.6724300 8.220E-11 1 -1 0 1 -3334 WWLOWNEU 40 0.9395656 889. 0 1 0 1 2112 TAU+ 41 1.7770000 2.910E-13 1 0 0 1 -15 TAU- 42 1.7770000 2.910E-13 -1 0 0 1 15 NEUTRIT 43 0.0000000 1.000E+18 0 0 1 1 16 ANEUTRIT 44 0.0000000 1.000E+18 0 0 1 1 -16 D+ 45 1.8693000 1.057E-12 1 0 0 1 411 D- 46 1.8693000 1.057E-12 -1 0 0 1 -411 D0 47 1.8646000 4.150E-13 0 0 0 1 421 D0BAR 48 1.8646000 4.150E-13 0 0 0 1 -421 DS+ 49 1.9683000 4.900E-13 1 0 0 1 431 DS- 50 1.9683000 4.900E-13 -1 0 0 1 -431 LAMBDAC+ 51 2.2849000 2.060E-13 1 1 0 1 4122 XSIC+ 52 2.4679000 4.420E-13 1 1 0 1 4232 XSIC0 53 2.4710000 1.120E-13 0 1 0 1 4132 XSIPC+ 54 2.5741000 5.000E-20 1 1 0 1 4322 XSIPC0 55 2.5788000 5.000E-20 0 1 0 1 4312 OMEGAC0 56 2.7300000 6.400E-14 0 1 0 1 4332 ALAMBDC- 57 2.2849000 2.060E-13 -1 -1 0 1 -4122 AXSIC- 58 2.4679000 4.420E-13 -1 -1 0 1 -4232 AXSIC0 59 2.4710000 1.120E-13 0 -1 0 1 -4132 AXSIPC- 60 2.5741000 5.000E-20 -1 -1 0 1 -4322 AXSIPC0 61 2.5788000 5.000E-20 0 -1 0 1 -4312 AOMEGAC0 62 2.7300000 6.400E-14 0 -1 0 1 -4332 RESERVED 63 0.0000000 0.00 0 0 0 1 9999 RESERVED 64 0.0000000 0.00 0 0 0 1 9999 1 === Generalised particles (201-233) (for scoring): === Generalised particle Number ALL-PART 201 ALL-CHAR 202 ALL-NEUT 203 ALL-NEGA 204 ALL-POSI 205 NUCLEONS 206 NUC&PI+- 207 ENERGY 208 PIONS+- 209 BEAMPART 210 EM-ENRGY 211 MUONS 212 E+&E- 213 AP&AN 214 KAONS 215 STRANGE 216 KAONS+- 217 HAD-CHAR 218 FISSIONS 219 HE-FISS 220 LE-FISS 221 NEU-BALA 222 HAD-NEUT 223 KAONS0 224 C-MESONS 225 C-(A)BAR 226 CHARMED 227 DOSE 228 UNB-ENER 229 UNB-EMEN 230 X-MOMENT 231 Y-MOMENT 232 Z-MOMENT 233 ACTIVITY 234 ACTOMASS 235 SI1MEVNE 236 HADGT20M 237 NIEL-DEP 238 DPA-SCO 239 DOSE-EQ 240 DOSE-EM 241 NET-CHRG 242 DOSEQLET 243 RES-NIEL 244 BLANK 245 BLANK 246 BLANK 247 BLANK 248 HEHAD-EQ 249 THNEU-EQ 250 BLANK 251 BLANK 252 BLANK 253 BLANK 254 BLANK 255 BLANK 256 BLANK 257 BLANK 258 BLANK 259 BLANK 260 *** PHOTON Inelas. interac. length reduced by a factor 2.0000E-02 *** 1 === Output before the actual run - Beam properties === Fluka incident beam properties: Beam particle: ELECTRON Id: 3 (Fluka) 11 (PDG) Charge: -1 Baryon n.: 0 Mass: 5.1100E-04 (GeV/c^2) Mean life: 1.0000E+18 (s) Weight: 1.000 Average beam momentum : 3.000511 (GeV/c) Average beam kinetic energy: 3.000000 (GeV) Momentum deviation at FWHM (rectangular): 0.0300000 (GeV/c) Beam hit position : -12.9000000 0.00000000 268.600000 cm Beam direction cosines: 8.715574300E-02 0.00000000 0.996194698 Beam spot FWHM X-width (Rectangular ): 0.0000 cm Beam spot FWHM Y-width (Rectangular ): 0.0000 cm Beam FWHM angular divergence (Rectangular ): 0.0000 (mrad) (Spatial distribution, polarization, and angular direction and distribution are given in the beam frame of reference) Beam reference frame (world coordinates): Beam X axis: 1.00000000 0.00000000 0.00000000 Beam Y axis: 0.00000000 1.00000000 0.00000000 Beam Z axis: 0.00000000 0.00000000 1.00000000 The nominal beam position belongs to region: 2(VOID ), lattice cell: 0( ) === Particle transport thresholds: Global cut-off kinetic energy for particle transport: 1.000E-04 GeV The cut-off kinetic energy is superseded by individual particle thresholds if set Cut-off kinetic energy for 4-HELIUM transport: 1.000E-04 GeV Importance biasing for 4-HELIUM multiplied by: 1.000E+00 Cut-off kinetic energy for 3-HELIUM transport: 1.000E-04 GeV Importance biasing for 3-HELIUM multiplied by: 1.000E+00 Cut-off kinetic energy for TRITON transport: 1.000E-04 GeV Importance biasing for TRITON multiplied by: 1.000E+00 Cut-off kinetic energy for DEUTERON transport: 1.000E-04 GeV Importance biasing for DEUTERON multiplied by: 1.000E+00 Cut-off kinetic energy for PROTON transport: 1.000E-04 GeV Importance biasing for PROTON multiplied by: 1.000E+00 Cut-off kinetic energy for APROTON transport: 1.000E-04 GeV Importance biasing for APROTON multiplied by: 1.000E+00 Cut-off kinetic energy for ELECTRON transport defined in the Emfcut card Importance biasing for ELECTRON multiplied by: 1.000E+00 Cut-off kinetic energy for POSITRON transport defined in the Emfcut card Importance biasing for POSITRON multiplied by: 1.000E+00 Cut-off kinetic energy for NEUTRIE transport: 0.000E+00 GeV Importance biasing for NEUTRIE multiplied by: 1.000E+00 Cut-off kinetic energy for ANEUTRIE transport: 0.000E+00 GeV Importance biasing for ANEUTRIE multiplied by: 1.000E+00 Cut-off kinetic energy for PHOTON transport defined in the Emfcut card Importance biasing for PHOTON multiplied by: 1.000E+00 Cut-off kinetic energy for NEUTRON transport: 1.000E-14 GeV Importance biasing for NEUTRON multiplied by: 1.000E+00 Cut-off kinetic energy for ANEUTRON transport: 1.000E-05 GeV Importance biasing for ANEUTRON multiplied by: 1.000E+00 Cut-off kinetic energy for MUON+ transport: 1.000E-04 GeV Importance biasing for MUON+ multiplied by: 1.000E+00 Cut-off kinetic energy for MUON- transport: 1.000E-04 GeV Importance biasing for MUON- multiplied by: 1.000E+00 Cut-off kinetic energy for KAONLONG transport: 1.000E-04 GeV Importance biasing for KAONLONG multiplied by: 1.000E+00 Cut-off kinetic energy for PION+ transport: 1.000E-04 GeV Importance biasing for PION+ multiplied by: 1.000E+00 Cut-off kinetic energy for PION- transport: 1.000E-04 GeV Importance biasing for PION- multiplied by: 1.000E+00 Cut-off kinetic energy for KAON+ transport: 1.000E-04 GeV Importance biasing for KAON+ multiplied by: 1.000E+00 Cut-off kinetic energy for KAON- transport: 1.000E-04 GeV Importance biasing for KAON- multiplied by: 1.000E+00 Cut-off kinetic energy for LAMBDA transport: 1.000E-04 GeV Importance biasing for LAMBDA multiplied by: 1.000E+00 Cut-off kinetic energy for ALAMBDA transport: 1.000E-04 GeV Importance biasing for ALAMBDA multiplied by: 1.000E+00 Cut-off kinetic energy for KAONSHRT transport: 1.000E-04 GeV Importance biasing for KAONSHRT multiplied by: 1.000E+00 Cut-off kinetic energy for SIGMA- transport: 1.000E-04 GeV Importance biasing for SIGMA- multiplied by: 1.000E+00 Cut-off kinetic energy for SIGMA+ transport: 1.000E-04 GeV Importance biasing for SIGMA+ multiplied by: 1.000E+00 Cut-off kinetic energy for SIGMAZER transport: 1.000E-04 GeV Importance biasing for SIGMAZER multiplied by: 1.000E+00 Cut-off kinetic energy for PIZERO transport: 1.000E-04 GeV Importance biasing for PIZERO multiplied by: 1.000E+00 Cut-off kinetic energy for KAONZERO transport: 1.000E-04 GeV Importance biasing for KAONZERO multiplied by: 1.000E+00 Cut-off kinetic energy for AKAONZER transport: 1.000E-04 GeV Importance biasing for AKAONZER multiplied by: 1.000E+00 Cut-off kinetic energy for RESERVED transport: 1.000E-04 GeV Importance biasing for RESERVED multiplied by: 1.000E+00 Cut-off kinetic energy for NEUTRIM transport: 0.000E+00 GeV Importance biasing for NEUTRIM multiplied by: 1.000E+00 Cut-off kinetic energy for ANEUTRIM transport: 0.000E+00 GeV Importance biasing for ANEUTRIM multiplied by: 1.000E+00 Cut-off kinetic energy for RESERVED transport: 1.000E-04 GeV Importance biasing for RESERVED multiplied by: 1.000E+00 Cut-off kinetic energy for RESERVED transport: 1.000E-04 GeV Importance biasing for RESERVED multiplied by: 1.000E+00 Cut-off kinetic energy for ASIGMA- transport: 1.000E-04 GeV Importance biasing for ASIGMA- multiplied by: 1.000E+00 Cut-off kinetic energy for ASIGMAZE transport: 1.000E-04 GeV Importance biasing for ASIGMAZE multiplied by: 1.000E+00 Cut-off kinetic energy for ASIGMA+ transport: 1.000E-04 GeV Importance biasing for ASIGMA+ multiplied by: 1.000E+00 Cut-off kinetic energy for XSIZERO transport: 1.000E-04 GeV Importance biasing for XSIZERO multiplied by: 1.000E+00 Cut-off kinetic energy for AXSIZERO transport: 1.000E-04 GeV Importance biasing for AXSIZERO multiplied by: 1.000E+00 Cut-off kinetic energy for XSI- transport: 1.000E-04 GeV Importance biasing for XSI- multiplied by: 1.000E+00 Cut-off kinetic energy for AXSI+ transport: 1.000E-04 GeV Importance biasing for AXSI+ multiplied by: 1.000E+00 Cut-off kinetic energy for OMEGA- transport: 1.000E-04 GeV Importance biasing for OMEGA- multiplied by: 1.000E+00 Cut-off kinetic energy for AOMEGA+ transport: 1.000E-04 GeV Importance biasing for AOMEGA+ multiplied by: 1.000E+00 Cut-off kinetic energy for WWLOWNEU transport: 1.000E-04 GeV Importance biasing for WWLOWNEU multiplied by: 1.000E+00 Cut-off kinetic energy for TAU+ transport: 1.000E-04 GeV Importance biasing for TAU+ multiplied by: 1.000E+00 Cut-off kinetic energy for TAU- transport: 1.000E-04 GeV Importance biasing for TAU- multiplied by: 1.000E+00 Cut-off kinetic energy for NEUTRIT transport: 0.000E+00 GeV Importance biasing for NEUTRIT multiplied by: 1.000E+00 Cut-off kinetic energy for ANEUTRIT transport: 0.000E+00 GeV Importance biasing for ANEUTRIT multiplied by: 1.000E+00 Cut-off kinetic energy for D+ transport: 1.000E-04 GeV Importance biasing for D+ multiplied by: 1.000E+00 Cut-off kinetic energy for D- transport: 1.000E-04 GeV Importance biasing for D- multiplied by: 1.000E+00 Cut-off kinetic energy for D0 transport: 1.000E-04 GeV Importance biasing for D0 multiplied by: 1.000E+00 Cut-off kinetic energy for D0BAR transport: 1.000E-04 GeV Importance biasing for D0BAR multiplied by: 1.000E+00 Cut-off kinetic energy for DS+ transport: 1.000E-04 GeV Importance biasing for DS+ multiplied by: 1.000E+00 Cut-off kinetic energy for DS- transport: 1.000E-04 GeV Importance biasing for DS- multiplied by: 1.000E+00 Cut-off kinetic energy for LAMBDAC+ transport: 1.000E-04 GeV Importance biasing for LAMBDAC+ multiplied by: 1.000E+00 Cut-off kinetic energy for XSIC+ transport: 1.000E-04 GeV Importance biasing for XSIC+ multiplied by: 1.000E+00 Cut-off kinetic energy for XSIC0 transport: 1.000E-04 GeV Importance biasing for XSIC0 multiplied by: 1.000E+00 Cut-off kinetic energy for XSIPC+ transport: 1.000E-04 GeV Importance biasing for XSIPC+ multiplied by: 1.000E+00 Cut-off kinetic energy for XSIPC0 transport: 1.000E-04 GeV Importance biasing for XSIPC0 multiplied by: 1.000E+00 Cut-off kinetic energy for OMEGAC0 transport: 1.000E-04 GeV Importance biasing for OMEGAC0 multiplied by: 1.000E+00 Cut-off kinetic energy for ALAMBDC- transport: 1.000E-04 GeV Importance biasing for ALAMBDC- multiplied by: 1.000E+00 Cut-off kinetic energy for AXSIC- transport: 1.000E-04 GeV Importance biasing for AXSIC- multiplied by: 1.000E+00 Cut-off kinetic energy for AXSIC0 transport: 1.000E-04 GeV Importance biasing for AXSIC0 multiplied by: 1.000E+00 Cut-off kinetic energy for AXSIPC- transport: 1.000E-04 GeV Importance biasing for AXSIPC- multiplied by: 1.000E+00 Cut-off kinetic energy for AXSIPC0 transport: 1.000E-04 GeV Importance biasing for AXSIPC0 multiplied by: 1.000E+00 Cut-off kinetic energy for AOMEGAC0 transport: 1.000E-04 GeV Importance biasing for AOMEGAC0 multiplied by: 1.000E+00 Cut-off kinetic energy for RESERVED transport: 1.000E-04 GeV Importance biasing for RESERVED multiplied by: 1.000E+00 Cut-off kinetic energy for RESERVED transport: 1.000E-04 GeV Importance biasing for RESERVED multiplied by: 1.000E+00 "Heavy" residual transport activated === Termination conditions: === Maximum cpu-time allocated for this run: 100000000000000000.00 sec Minimum cpu-time reserved for output: 10000.00 sec Maximum number of beam particles to be followed: 600000 Maximum number of stars to be generated: infinite === Multiple Coulomb scattering: === Moliere Coulomb scattering for primaries: T Moliere Coulomb scattering for secondaries: T Hadrons/muons: Flag for MCS check with boundary normals: F Flag for Coulomb single scattering(s) at boundaries: F (# of Coulomb single scattering(s) at boundaries: 1) Flag for single scatterings below min. (Moliere) energy: F === Electromagnetic Showers: === EM showers are treated by the EMF (A.Fasso`,A.Ferrari,P.R.Sala) code Electrons/positrons: Flag for MCS check with boundary normals: F Flag for Coulomb single scattering(s) at boundaries: F (# of Coulomb single scattering(s) at boundaries: 1) Flag for single scatterings below min. (Moliere) energy: F 1 Region Particle importances RR factor Cut off N.A. abs. N.A. abs. Bias. Dow. Bias. Dow. number Fluka part. EM part. Low en. n. group group factor group factor 1 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 2 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 3 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 4 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 5 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 6 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 7 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 8 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 9 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 10 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 11 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 12 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 13 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 14 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 15 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 16 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 17 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 18 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 19 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 20 2.0000 2.0000 2.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 21 4.0000 4.0000 4.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 22 8.0000 8.0000 8.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 23 8.0000 8.0000 8.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 24 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 25 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 26 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 27 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 28 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 29 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 30 1.0000 1.0000 1.0000 1.000E+00 261 261 8.500E-01 0 1.500E+00 ******* "usrbin" option: Cartesian binning n. 1 "allpartH " , generalized particle n. 240 X coordinate: from -1.0000E+02 to 5.0000E+02 cm, 120 bins ( 5.0000E+00 cm wide) Y coordinate: from -1.0000E+01 to 1.0000E+01 cm, 1 bins ( 2.0000E+01 cm wide) Z coordinate: from -1.0000E+03 to 2.2000E+03 cm, 320 bins ( 1.0000E+01 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 201 ( ALL-PART ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Cartesian binning n. 2 "allpart " , generalized particle n. 240 X coordinate: from -1.5150E+02 to 2.9850E+02 cm, 150 bins ( 3.0000E+00 cm wide) Y coordinate: from -1.0100E+02 to 3.4900E+02 cm, 150 bins ( 3.0000E+00 cm wide) Z coordinate: from 3.5050E+02 to 4.4950E+02 cm, 99 bins ( 1.0000E+00 cm wide) data will be printed on unit -41 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 201 ( ALL-PART ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Cartesian binning n. 3 "photvol " , generalized particle n. 240 X coordinate: from -1.5150E+02 to 2.9850E+02 cm, 150 bins ( 3.0000E+00 cm wide) Y coordinate: from -1.0100E+02 to 3.4900E+02 cm, 150 bins ( 3.0000E+00 cm wide) Z coordinate: from 3.5050E+02 to 4.4950E+02 cm, 99 bins ( 1.0000E+00 cm wide) data will be printed on unit -41 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 7 ( PHOTON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Cartesian binning n. 4 "neuVol " , generalized particle n. 240 X coordinate: from -1.5150E+02 to 2.9850E+02 cm, 150 bins ( 3.0000E+00 cm wide) Y coordinate: from -1.0100E+02 to 3.4900E+02 cm, 150 bins ( 3.0000E+00 cm wide) Z coordinate: from 3.5050E+02 to 4.4950E+02 cm, 99 bins ( 1.0000E+00 cm wide) data will be printed on unit -41 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 8 ( NEUTRON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Cartesian binning n. 5 "lwallall " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 1.5000E+03 cm, 300 bins ( 4.9993E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 201 ( ALL-PART ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 1 applied to this binning Cartesian binning n. 6 "lwallne " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 1.5000E+03 cm, 300 bins ( 4.9993E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 8 ( NEUTRON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 1 applied to this binning Cartesian binning n. 7 "lwallph " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 1.5000E+03 cm, 300 bins ( 4.9993E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 7 ( PHOTON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 1 applied to this binning Cartesian binning n. 8 "lwallal2 " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 1.2500E+03 cm, 250 bins ( 4.9992E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 201 ( ALL-PART ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 5 applied to this binning Cartesian binning n. 9 "lwallne2 " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 1.2500E+03 cm, 250 bins ( 4.9992E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 8 ( NEUTRON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 5 applied to this binning Cartesian binning n. 10 "lwallph2 " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 1.2500E+03 cm, 250 bins ( 4.9992E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 7 ( PHOTON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 5 applied to this binning Cartesian binning n. 11 "swallall " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 2.5000E+02 cm, 125 bins ( 1.9984E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 201 ( ALL-PART ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 2 applied to this binning Cartesian binning n. 12 "swallne " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 2.5000E+02 cm, 125 bins ( 1.9984E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 8 ( NEUTRON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 2 applied to this binning Cartesian binning n. 13 "swallph " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 2.5000E+02 cm, 125 bins ( 1.9984E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 7 ( PHOTON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 2 applied to this binning Cartesian binning n. 14 "swallal1 " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 3.0000E+02 cm, 150 bins ( 1.9987E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 201 ( ALL-PART ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 4 applied to this binning Cartesian binning n. 15 "swallne1 " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 3.0000E+02 cm, 150 bins ( 1.9987E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 8 ( NEUTRON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 4 applied to this binning Cartesian binning n. 16 "swallph1 " , generalized particle n. 240 X coordinate: from 2.0000E-01 to 3.0000E+02 cm, 150 bins ( 1.9987E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from 2.0000E-01 to 2.2000E+00 cm, 1 bins ( 2.0000E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 7 ( PHOTON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Coordinate transformation # 4 applied to this binning Cartesian binning n. 17 "roofall " , generalized particle n. 240 X coordinate: from -2.2000E+02 to 4.0000E+02 cm, 124 bins ( 5.0000E+00 cm wide) Y coordinate: from 2.8020E+02 to 2.8220E+02 cm, 1 bins ( 2.0000E+00 cm wide) Z coordinate: from -1.2000E+03 to 1.8000E+03 cm, 600 bins ( 5.0000E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 201 ( ALL-PART ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Cartesian binning n. 18 "roofne " , generalized particle n. 240 X coordinate: from -2.2000E+02 to 4.0000E+02 cm, 124 bins ( 5.0000E+00 cm wide) Y coordinate: from 2.8020E+02 to 2.8220E+02 cm, 1 bins ( 2.0000E+00 cm wide) Z coordinate: from -1.2000E+03 to 1.8000E+03 cm, 600 bins ( 5.0000E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 8 ( NEUTRON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Cartesian binning n. 19 "roofph " , generalized particle n. 240 X coordinate: from -2.2000E+02 to 4.0000E+02 cm, 124 bins ( 5.0000E+00 cm wide) Y coordinate: from 2.8020E+02 to 2.8220E+02 cm, 1 bins ( 2.0000E+00 cm wide) Z coordinate: from -1.2000E+03 to 1.8000E+03 cm, 600 bins ( 5.0000E+00 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 7 ( PHOTON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Cartesian binning n. 20 "inwallal " , generalized particle n. 240 X coordinate: from -3.3620E+02 to -3.3420E+02 cm, 1 bins ( 2.0000E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from -1.2000E+03 to 1.8000E+03 cm, 300 bins ( 1.0000E+01 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 201 ( ALL-PART ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Cartesian binning n. 21 "inwallane " , generalized particle n. 240 X coordinate: from -3.3620E+02 to -3.3420E+02 cm, 1 bins ( 2.0000E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from -1.2000E+03 to 1.8000E+03 cm, 300 bins ( 1.0000E+01 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 8 ( NEUTRON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning Cartesian binning n. 22 "inwallph " , generalized particle n. 240 X coordinate: from -3.3620E+02 to -3.3420E+02 cm, 1 bins ( 2.0000E+00 cm wide) Y coordinate: from -1.2000E+02 to 2.0000E+02 cm, 160 bins ( 2.0000E+00 cm wide) Z coordinate: from -1.2000E+03 to 1.8000E+03 cm, 300 bins ( 1.0000E+01 cm wide) data will be printed on unit -40 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 7 ( PHOTON ) accurate deposition along the tracks requested normalized (per unit volume) data will be printed at the end of the run this is a track-length binning ******* "USRBDX" option: Bdrx n. 1 "roofne " , generalized particle n. 8, from region n. 22 to region n. 23 detector area: 2.4300E+02 cm**2 low energy neutrons scored from group 1 to group 260 this is a one way only estimator this is a fluence like estimator logar. energy binning from 2.0000E-02 to 3.0000E+00 GeV, 16 bins (ratio : 1.3677E+00) linear angular binning from 0.0000E+00 to 6.2832E+00 sr , 1 bins ( 6.2832E+00 sr wide ) data will be printed on unit -42 (unformatted if < 0) Bdrx n. 2 "roofph " , generalized particle n. 7, from region n. 22 to region n. 23 detector area: 2.4300E+02 cm**2 this is a one way only estimator this is a fluence like estimator logar. energy binning from 1.0000E-06 to 3.0000E+00 GeV, 100 bins (ratio : 1.1608E+00) linear angular binning from 0.0000E+00 to 6.2832E+00 sr , 1 bins ( 6.2832E+00 sr wide ) data will be printed on unit -42 (unformatted if < 0) Bdrx n. 3 "roofned " , generalized particle n. 240, from region n. 22 to region n. 23 detector area: 2.4300E+02 cm**2 low energy neutrons scored from group 1 to group 260 this is a one way only estimator this is a fluence like estimator logar. energy binning from 2.0000E-02 to 3.0000E+00 GeV, 16 bins (ratio : 1.3677E+00) linear angular binning from 0.0000E+00 to 6.2832E+00 sr , 1 bins ( 6.2832E+00 sr wide ) data will be printed on unit -42 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 8 ( NEUTRON ) Bdrx n. 4 "roofphd " , generalized particle n. 240, from region n. 22 to region n. 23 detector area: 2.4300E+02 cm**2 low energy neutrons scored from group 1 to group 206 this is a one way only estimator this is a fluence like estimator logar. energy binning from 1.0000E-06 to 3.0000E+00 GeV, 100 bins (ratio : 1.1608E+00) linear angular binning from 0.0000E+00 to 6.2832E+00 sr , 1 bins ( 6.2832E+00 sr wide ) data will be printed on unit -42 (unformatted if < 0) Fluence-to-dose-equivalent conversion set:AMB74 Secondary selection criterium: generalized particle n. 7 ( PHOTON ) ******* "USRTRACK" option: No user track-length estimator defined ******* "USRCOLL" option: No user collision density estimator defined ******* "Usryield" option: No user yield estimator defined ******* "RESNUCLEI" option: No residual nuclei estimator defined ******* "Detect" option: No detector defined *** Transformation # 1 (wall ): rotation around the 2 axis *** with polar angle 0.000 deg., and azimuthal angle 8.000 deg. *** with origin offset of ( -2.350610E+02 0.000000E+00 -2.343460E+02) *** The direct transformation is: | Xnew | = | 9.90268069E-01 0.00000000E+00 -1.39173101E-01 | | Xold + -2.35061000E+02| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 1.39173101E-01 0.00000000E+00 9.90268069E-01 | | Zold + -2.34346000E+02| *** The inverse transformation is: | Xold | = | 9.90268069E-01 0.00000000E+00 1.39173101E-01 | | Xnew | - | -2.35061000E+02| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | -1.39173101E-01 0.00000000E+00 9.90268069E-01 | | Znew | - | -2.34346000E+02| *** The axes direct transformation is: u -> | 9.90268069E-01 |, v -> | 0.00000000E+00 |, w -> | -1.39173101E-01 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 1.39173101E-01 |, | 0.00000000E+00 |, | 9.90268069E-01 | *** Transformation # 2 (swall ): rotation around the 2 axis *** with polar angle 0.000 deg., and azimuthal angle 12.000 deg. *** with origin offset of ( -2.350610E+02 0.000000E+00 -2.343460E+02) *** The direct transformation is: | Xnew | = | 9.78147601E-01 0.00000000E+00 -2.07911691E-01 | | Xold + -2.35061000E+02| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 2.07911691E-01 0.00000000E+00 9.78147601E-01 | | Zold + -2.34346000E+02| *** The inverse transformation is: | Xold | = | 9.78147601E-01 0.00000000E+00 2.07911691E-01 | | Xnew | - | -2.35061000E+02| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | -2.07911691E-01 0.00000000E+00 9.78147601E-01 | | Znew | - | -2.34346000E+02| *** The axes direct transformation is: u -> | 9.78147601E-01 |, v -> | 0.00000000E+00 |, w -> | -2.07911691E-01 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 2.07911691E-01 |, | 0.00000000E+00 |, | 9.78147601E-01 | *** Transformation # 3 (wall1 ): rotation around the 2 axis *** with polar angle 0.000 deg., and azimuthal angle 2.000 deg. *** with origin offset of ( -1.495000E+02 0.000000E+00 -1.708300E+03) *** The direct transformation is: | Xnew | = | 9.99390827E-01 0.00000000E+00 -3.48994967E-02 | | Xold + -1.49500000E+02| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 3.48994967E-02 0.00000000E+00 9.99390827E-01 | | Zold + -1.70830000E+03| *** The inverse transformation is: | Xold | = | 9.99390827E-01 0.00000000E+00 3.48994967E-02 | | Xnew | - | -1.49500000E+02| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | -3.48994967E-02 0.00000000E+00 9.99390827E-01 | | Znew | - | -1.70830000E+03| *** The axes direct transformation is: u -> | 9.99390827E-01 |, v -> | 0.00000000E+00 |, w -> | -3.48994967E-02 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 3.48994967E-02 |, | 0.00000000E+00 |, | 9.99390827E-01 | *** Transformation # 4 (swall1 ): rotation around the 2 axis *** with polar angle 0.000 deg., and azimuthal angle 6.000 deg. *** with origin offset of ( -1.495000E+02 0.000000E+00 -1.708300E+03) *** The direct transformation is: | Xnew | = | 9.94521895E-01 0.00000000E+00 -1.04528463E-01 | | Xold + -1.49500000E+02| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 1.04528463E-01 0.00000000E+00 9.94521895E-01 | | Zold + -1.70830000E+03| *** The inverse transformation is: | Xold | = | 9.94521895E-01 0.00000000E+00 1.04528463E-01 | | Xnew | - | -1.49500000E+02| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | -1.04528463E-01 0.00000000E+00 9.94521895E-01 | | Znew | - | -1.70830000E+03| *** The axes direct transformation is: u -> | 9.94521895E-01 |, v -> | 0.00000000E+00 |, w -> | -1.04528463E-01 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 1.04528463E-01 |, | 0.00000000E+00 |, | 9.94521895E-01 | *** Transformation # 5 (wall2 ): rotation around the 2 axis *** with polar angle 0.000 deg., and azimuthal angle 14.000 deg. *** with origin offset of ( -1.667000E+02 0.000000E+00 9.752000E+02) *** The direct transformation is: | Xnew | = | 9.70295726E-01 0.00000000E+00 -2.41921896E-01 | | Xold + -1.66700000E+02| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 2.41921896E-01 0.00000000E+00 9.70295726E-01 | | Zold + 9.75200000E+02| *** The inverse transformation is: | Xold | = | 9.70295726E-01 0.00000000E+00 2.41921896E-01 | | Xnew | - | -1.66700000E+02| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | -2.41921896E-01 0.00000000E+00 9.70295726E-01 | | Znew | - | 9.75200000E+02| *** The axes direct transformation is: u -> | 9.70295726E-01 |, v -> | 0.00000000E+00 |, w -> | -2.41921896E-01 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 2.41921896E-01 |, | 0.00000000E+00 |, | 9.70295726E-01 | *** Transformation # 6 (swall2 ): rotation around the 2 axis *** with polar angle 0.000 deg., and azimuthal angle 18.000 deg. *** with origin offset of ( -1.667000E+02 0.000000E+00 9.752000E+02) *** The direct transformation is: | Xnew | = | 9.51056516E-01 0.00000000E+00 -3.09016994E-01 | | Xold + -1.66700000E+02| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 3.09016994E-01 0.00000000E+00 9.51056516E-01 | | Zold + 9.75200000E+02| *** The inverse transformation is: | Xold | = | 9.51056516E-01 0.00000000E+00 3.09016994E-01 | | Xnew | - | -1.66700000E+02| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | -3.09016994E-01 0.00000000E+00 9.51056516E-01 | | Znew | - | 9.75200000E+02| *** The axes direct transformation is: u -> | 9.51056516E-01 |, v -> | 0.00000000E+00 |, w -> | -3.09016994E-01 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 3.09016994E-01 |, | 0.00000000E+00 |, | 9.51056516E-01 | *** Transformation # 7 (kick2 ): rotation around the 3 axis *** with polar angle 0.000 deg., and azimuthal angle -0.000 deg. *** with origin offset of ( 0.000000E+00 0.000000E+00 -1.880000E+02) *** The direct transformation is: | Xnew | = | 1.00000000E+00 0.00000000E+00 0.00000000E+00 | | Xold + 0.00000000E+00| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 0.00000000E+00 0.00000000E+00 1.00000000E+00 | | Zold + -1.88000000E+02| *** The inverse transformation is: | Xold | = | 1.00000000E+00 0.00000000E+00 0.00000000E+00 | | Xnew | - | 0.00000000E+00| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | 0.00000000E+00 0.00000000E+00 1.00000000E+00 | | Znew | - | -1.88000000E+02| *** The axes direct transformation is: u -> | 1.00000000E+00 |, v -> | 0.00000000E+00 |, w -> | 0.00000000E+00 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 0.00000000E+00 |, | 0.00000000E+00 |, | 1.00000000E+00 | *** Transformation # 8 (kick3 ): rotation around the 3 axis *** with polar angle 0.000 deg., and azimuthal angle -0.000 deg. *** with origin offset of ( 0.000000E+00 0.000000E+00 -5.320000E+02) *** The direct transformation is: | Xnew | = | 1.00000000E+00 0.00000000E+00 0.00000000E+00 | | Xold + 0.00000000E+00| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 0.00000000E+00 0.00000000E+00 1.00000000E+00 | | Zold + -5.32000000E+02| *** The inverse transformation is: | Xold | = | 1.00000000E+00 0.00000000E+00 0.00000000E+00 | | Xnew | - | 0.00000000E+00| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | 0.00000000E+00 0.00000000E+00 1.00000000E+00 | | Znew | - | -5.32000000E+02| *** The axes direct transformation is: u -> | 1.00000000E+00 |, v -> | 0.00000000E+00 |, w -> | 0.00000000E+00 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 0.00000000E+00 |, | 0.00000000E+00 |, | 1.00000000E+00 | *** Transformation # 9 (kick4 ): rotation around the 3 axis *** with polar angle 0.000 deg., and azimuthal angle -0.000 deg. *** with origin offset of ( 0.000000E+00 0.000000E+00 -7.200000E+02) *** The direct transformation is: | Xnew | = | 1.00000000E+00 0.00000000E+00 0.00000000E+00 | | Xold + 0.00000000E+00| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 0.00000000E+00 0.00000000E+00 1.00000000E+00 | | Zold + -7.20000000E+02| *** The inverse transformation is: | Xold | = | 1.00000000E+00 0.00000000E+00 0.00000000E+00 | | Xnew | - | 0.00000000E+00| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | 0.00000000E+00 0.00000000E+00 1.00000000E+00 | | Znew | - | -7.20000000E+02| *** The axes direct transformation is: u -> | 1.00000000E+00 |, v -> | 0.00000000E+00 |, w -> | 0.00000000E+00 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 0.00000000E+00 |, | 0.00000000E+00 |, | 1.00000000E+00 | *** Transformation # 10 (sept ): rotation around the 3 axis *** with polar angle 0.000 deg., and azimuthal angle -0.000 deg. *** with origin offset of ( 4.000000E+00 0.000000E+00 -4.460000E+02) *** The direct transformation is: | Xnew | = | 1.00000000E+00 0.00000000E+00 0.00000000E+00 | | Xold + 4.00000000E+00| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 0.00000000E+00 0.00000000E+00 1.00000000E+00 | | Zold + -4.46000000E+02| *** The inverse transformation is: | Xold | = | 1.00000000E+00 0.00000000E+00 0.00000000E+00 | | Xnew | - | 4.00000000E+00| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | 0.00000000E+00 0.00000000E+00 1.00000000E+00 | | Znew | - | -4.46000000E+02| *** The axes direct transformation is: u -> | 1.00000000E+00 |, v -> | 0.00000000E+00 |, w -> | 0.00000000E+00 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 0.00000000E+00 |, | 0.00000000E+00 |, | 1.00000000E+00 | *** Transformation # 11 (dcsept ): rotation around the 2 axis *** with polar angle 0.000 deg., and azimuthal angle 9.000 deg. *** with origin offset of ( 3.770000E+01 0.000000E+00 -8.220000E+01) *** The direct transformation is: | Xnew | = | 9.87688341E-01 0.00000000E+00 -1.56434465E-01 | | Xold + 3.77000000E+01| | Ynew | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Yold + 0.00000000E+00| | Znew | | 1.56434465E-01 0.00000000E+00 9.87688341E-01 | | Zold + -8.22000000E+01| *** The inverse transformation is: | Xold | = | 9.87688341E-01 0.00000000E+00 1.56434465E-01 | | Xnew | - | 3.77000000E+01| | Yold | | 0.00000000E+00 1.00000000E+00 0.00000000E+00 | | Ynew | - | 0.00000000E+00| | Zold | | -1.56434465E-01 0.00000000E+00 9.87688341E-01 | | Znew | - | -8.22000000E+01| *** The axes direct transformation is: u -> | 9.87688341E-01 |, v -> | 0.00000000E+00 |, w -> | -1.56434465E-01 | | 0.00000000E+00 |, | 1.00000000E+00 |, | 0.00000000E+00 | | 1.56434465E-01 |, | 0.00000000E+00 |, | 9.87688341E-01 | === Material compositions: === Material Atomic Atomic Density Inelastic Elastic Radiation Inelastic Number&Name Number Weight Scattering Scattering Length Scattering Length for Length for Length for ELECTRON at ELECTRON at neutrons at Beam energy Beam energy Threshold Momentum g/cm**3 cm cm cm cm 1 BLCKHOLE 0.000 0.000 0.000 0.1000E+31 0.1000E+31 0.1000E+31 0.1000E+31 2 VACUUM 0.000 0.000 0.000 0.1000E+31 0.1000E+31 0.1000E+31 0.1000E+31 3 HYDROGEN 1.000 1.008 0.8370E-04 0.1195E+35 0.1195E+35 0.7532E+06 0.8508E+09 4 HELIUM 2.000 4.003 0.1660E-03 0.6024E+34 0.6024E+34 0.5682E+06 0.6024E+34 5 BERYLLIU 4.000 9.012 1.848 0.5411E+30 0.5411E+30 35.28 17.26 6 CARBON 6.000 12.01 2.000 0.5000E+30 0.5000E+30 21.35 18.23 7 NITROGEN 7.000 14.01 0.1170E-02 0.8547E+33 0.8547E+33 0.3247E+05 0.3319E+05 8 OXYGEN 8.000 16.00 0.1330E-02 0.7519E+33 0.7519E+33 0.2574E+05 0.3013E+05 9 MAGNESIU 12.00 24.30 1.740 0.5747E+30 0.5747E+30 14.39 26.58 10 ALUMINUM 13.00 26.98 2.699 0.3705E+30 0.3705E+30 8.896 17.24 11 IRON 26.00 55.84 7.874 0.1270E+30 0.1270E+30 1.757 9.128 12 COPPER 29.00 63.55 8.960 0.1116E+30 0.1116E+30 1.436 8.423 13 SILVER 47.00 107.9 10.50 0.9524E+29 0.9524E+29 0.8543 10.59 14 SILICON 14.00 28.09 2.329 0.4294E+30 0.4294E+30 9.370 20.38 15 GOLD 79.00 197.0 19.32 0.5176E+29 0.5176E+29 0.3344 7.012 16 MERCURY 80.00 200.6 13.55 0.7382E+29 0.7382E+29 0.4752 9.852 17 LEAD 82.00 207.2 11.35 0.8811E+29 0.8811E+29 0.5612 12.03 18 TANTALUM 73.00 180.9 16.65 0.6005E+29 0.6005E+29 0.4094 7.390 19 SODIUM 11.00 22.99 0.9710 0.1030E+31 0.1030E+31 28.56 47.77 20 ARGON 18.00 39.95 0.1660E-02 0.6024E+33 0.6024E+33 0.1178E+05 0.3754E+05 21 CALCIUM 20.00 40.08 1.550 0.6452E+30 0.6452E+30 10.42 36.39 22 TIN 50.00 118.7 7.310 0.1368E+30 0.1368E+30 1.206 14.37 23 TUNGSTEN 74.00 183.8 19.30 0.5181E+29 0.5181E+29 0.3504 6.172 24 TITANIUM 22.00 47.87 4.540 0.2203E+30 0.2203E+30 3.560 15.11 25 NICKEL 28.00 58.69 8.902 0.1123E+30 0.1123E+30 1.424 8.419 26 Concrete 9.091 18.11 2.340 0.4274E+30 0.4274E+30 10.57 19.05 Material Number Atom content Partial Densities CARBON 6 0.23232 0.36055 OXYGEN 8 0.40404 0.83528 SILICON 14 0.12121 0.43988 CALCIUM 21 0.12121 0.62770 HYDROGEN 3 0.10101 0.13155E-01 MAGNESIU 9 0.20202E-01 0.63444E-01 27 SULFUR 16.00 32.07 2.000 0.5000E+30 0.5000E+30 9.748 28.45 28 PHOSPHO 15.00 30.97 2.200 0.4545E+30 0.4545E+30 9.639 24.45 29 HDconc 13.73 28.60 3.700 0.2703E+30 0.2703E+30 4.719 15.23 Material Number Atom content Partial Densities IRON 11 0.31083 2.2458 OXYGEN 8 0.56456 1.1686 CALCIUM 21 0.32203E-01 0.16698 SILICON 14 0.20502E-01 0.74497E-01 ALUMINUM 10 0.60006E-02 0.20947E-01 HYDROGEN 3 0.62206E-01 0.81120E-02 MAGNESIU 9 0.21002E-02 0.66042E-02 TITANIUM 24 0.90009E-03 0.55742E-02 SULFUR 27 0.60006E-03 0.24894E-02 PHOSPHO 28 0.10001E-03 0.40077E-03 30 POTASSIU 19.00 39.10 0.8620 0.1160E+31 0.1160E+31 20.09 79.75 31 PORTLAND 8.551 17.01 2.300 0.4348E+30 0.4348E+30 11.55 19.23 Material Number Atom content Partial Densities HYDROGEN 3 0.16876 0.23000E-01 CARBON 6 0.14162E-02 0.23000E-02 OXYGEN 8 0.56252 1.2169 SODIUM 19 0.11838E-01 0.36800E-01 MAGNESIU 9 0.13997E-02 0.46000E-02 ALUMINUM 10 0.21354E-01 0.77906E-01 SILICON 14 0.20412 0.77515 POTASSIU 30 0.56557E-02 0.29900E-01 CALCIUM 21 0.18674E-01 0.10120 IRON 11 0.42643E-02 0.32200E-01 32 CHROMIUM 24.00 52.00 7.180 0.1393E+30 0.1393E+30 2.081 9.734 33 MANGANES 25.00 54.94 7.210 0.1387E+30 0.1387E+30 2.030 9.965 34 SS316LN 25.53 54.74 7.800 0.1282E+30 0.1282E+30 1.790 9.157 Material Number Atom content Partial Densities IRON 11 0.65820 5.2373 CHROMIUM 32 0.19477 1.4430 NICKEL 25 0.10493 0.87750 MANGANES 33 0.19929E-01 0.15600 SILICON 14 0.19492E-01 0.78000E-01 PHOSPHO 28 0.79533E-03 0.35100E-02 SULFUR 27 0.51216E-03 0.23400E-02 CARBON 6 0.13674E-02 0.23400E-02 35 PLASTSCI 3.373 6.230 1.032 0.9690E+30 0.9690E+30 42.54 38.62 Material Number Atom content Partial Densities HYDROGEN 3 0.52538 0.87720E-01 CARBON 6 0.47462 0.94428 36 AIR 7.262 14.55 0.1205E-02 0.8300E+33 0.8300E+33 0.3039E+05 0.3262E+05 Material Number Atom content Partial Densities CARBON 6 0.15019E-03 0.14939E-06 NITROGEN 7 0.78443 0.90994E-03 OXYGEN 8 0.21075 0.27925E-03 ARGON 20 0.46712E-02 0.15454E-04 37 POLYETHY 2.667 4.676 0.9400 0.1064E+31 0.1064E+31 47.63 45.30 Material Number Atom content Partial Densities HYDROGEN 3 0.66667 0.13510 CARBON 6 0.33333 0.80490 ***** Gamma Photo-nuclear int. activated for media # 3 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 4 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 5 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 6 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 7 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 8 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 9 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 10 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 11 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 12 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 13 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 14 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 15 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 16 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 17 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 18 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 19 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 20 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 21 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 22 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 23 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 24 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 25 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 26 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 27 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 28 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 29 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 30 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 31 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 32 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 33 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 34 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 35 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 36 with code 1111 **** ***** Gamma Photo-nuclear int. activated for media # 37 with code 1111 **** === Regions: materials and fields === Region N. and Name Material N. and Name Magn./El. Field (on/off) (Mat. N. and Name Magn./El. Field (on/off) for radioactive products) Minimum and Maximum step size (cm) 1 BLKBODY 1 BLCKHOLE OFF 0.00000E+00 9.99852E+04 ( 1 BLCKHOLE OFF ) 2 VOID 36 AIR OFF 0.00000E+00 9.99852E+04 ( 36 AIR OFF ) 3 VOID1 36 AIR OFF 0.00000E+00 9.99852E+04 ( 36 AIR OFF ) 4 VOID3 36 AIR OFF 0.00000E+00 9.99852E+04 ( 36 AIR OFF ) 5 VOID4 36 AIR OFF 0.00000E+00 9.99852E+04 ( 36 AIR OFF ) 6 KICKER1 11 IRON OFF 0.00000E+00 9.99852E+04 ( 11 IRON OFF ) 7 KICKER2 2 Lattice cell # 1 Name Kicker2 Associated rotation # 7 8 KICKER3 2 Lattice cell # 2 Name Kicker3 Associated rotation # 8 9 KICKER4 2 Lattice cell # 3 Name Kicker4 Associated rotation # 9 10 WALL 29 HDconc OFF 0.00000E+00 9.99852E+04 ( 29 HDconc OFF ) 11 WALL2 29 HDconc OFF 0.00000E+00 9.99852E+04 ( 29 HDconc OFF ) 12 DOORPOLY 37 POLYETHY OFF 0.00000E+00 9.99852E+04 ( 37 POLYETHY OFF ) 13 DOORFE 11 IRON OFF 0.00000E+00 9.99852E+04 ( 11 IRON OFF ) 14 DOORPB 17 LEAD OFF 0.00000E+00 9.99852E+04 ( 17 LEAD OFF ) 15 DOORBLK 31 PORTLAND OFF 0.00000E+00 9.99852E+04 ( 31 PORTLAND OFF ) 16 CBLOCK 31 PORTLAND OFF 0.00000E+00 9.99852E+04 ( 31 PORTLAND OFF ) 17 FLOOR 31 PORTLAND OFF 0.00000E+00 9.99852E+04 ( 31 PORTLAND OFF ) 18 INWALL 31 PORTLAND OFF 0.00000E+00 9.99852E+04 ( 31 PORTLAND OFF ) 19 ROOF 31 PORTLAND OFF 0.00000E+00 9.99852E+04 ( 31 PORTLAND OFF ) 20 ROOF1 31 PORTLAND OFF 0.00000E+00 9.99852E+04 ( 31 PORTLAND OFF ) 21 ROOF2 31 PORTLAND OFF 0.00000E+00 9.99852E+04 ( 31 PORTLAND OFF ) 22 VOID5 36 AIR OFF 0.00000E+00 9.99852E+04 ( 36 AIR OFF ) 23 DET1 35 PLASTSCI OFF 0.00000E+00 9.99852E+04 ( 35 PLASTSCI OFF ) 24 EXTSPTUM 11 IRON OFF 0.00000E+00 9.99852E+04 ( 11 IRON OFF ) 25 EXSPTVAC 2 VACUUM OFF 0.00000E+00 9.99852E+04 ( 2 VACUUM OFF ) 26 EXSPTBP 34 SS316LN OFF 0.00000E+00 9.99852E+04 ( 34 SS316LN OFF ) 27 EXSPBPV 2 VACUUM OFF 0.00000E+00 9.99852E+04 ( 2 VACUUM OFF ) 28 SHIELD 17 LEAD OFF 0.00000E+00 9.99852E+04 ( 17 LEAD OFF ) 29 SHIELDTP 11 IRON OFF 0.00000E+00 9.99852E+04 ( 11 IRON OFF ) 30 DCSEPT 11 IRON OFF 0.00000E+00 9.99852E+04 ( 11 IRON OFF ) === End of the output associated with the input === Total time used for initialization: 9.86 s 1NUMBER OF BEAM NUMBER OF BEAM APPROXIMATE NUMBER AVERAGE TIME USED TIME LEFT (RESERVED NUMBER OF STARS PARTICLES HANDLED PARTICLES LEFT OF BEAM PARTICLES BY A BEAM PARTICLE 10000.0 SECONDS CREATED THAT CAN STILL BE FOR PRINTOUT) HANDLED NEXT SEEDS: 0 0 0 0 0 0 30 3039 0 0 DEQ99C: direct conversion of fluence to ambient dose eq. requested with - ICRP74 and Pelliccioni conversion factors 1 599999 599999 3.0001926E-01 1.0000000E+30 34 NEXT SEEDS: B21AF 0 0 0 0 0 30 3039 0 0