Successfully allocated 800000000 bytes of memory Successfully allocated 8 bytes of memory 1 *====================================================================* * * * * * * * * * FFFFF L U U K K AAA 222 000 222 000 * * F L U U K K A A 2 2 0 0 2 2 0 0 * * F L U U K K A A 2 0 0 2 0 0 * * FFFF L U U KK AAAAA == 2 0 0 2 0 0 * * F L U U K K A A 2 0 0 2 0 0 * * F L U U K K A A 2 0 0 2 0 0 * * F LLLLL UUU K K A A 22222 000 22222 000 * * * * * * * * Version of Fluka2020.0 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` SLAC Stanford * * * * fasso@slac.stanford.edu * * * * * * Johannes Ranft Siegen University * * * * (deceased) * * * * * * * * This version includes all the features of the Fluka2020 * * * * package * * * * * * * *====================================================================*  FLUKA User license COPYRIGHT NOTICE AND LICENSE CONDITIONS The copyright in the FLUKA software Version 2011.2x and FLAIR Version 2.3 is entirely vested in INFN and CERN jointly. The copyright in further versions distributed on www.fluka.org is vested as following: Copyright in developments carried over before September 1st 2019 is vested in INFN and CERN jointly. Copyright in developments carried over after September 1st 2019 is vested in INFN, Alberto Fasso`, and their collabora- tors(*). Authorship is detailed for every routine in the source code. All rights not expressly granted under this license are reserved. Requests for permissions not granted under this license shall be addressed to fsc@fluka.org. Any permission may only be granted in writing. The FLUKA software results in particular from work performed by Alberto Fasso`, Alfredo Ferrari, Johannes Ranft, Paola Sala (the "FLUKA Authors"), and collaborators (the "Collaborators"). The Flair user in- terface results in particular from work performed by Vasilis Vlachoudis (the "Flair Author") and collaborators (also the "Collaborators"). INFN is the exclusive source of distribution of the code, bug fixes and documentation of the FLUKA software version 2020.0 and beyond, (http://www.fluka.org), and may authorise distribution by mirror sites. This license cancels and replaces any prior license condi- tions but their warranty and liability provisions shall con- tinue to apply to any use or modifications made under such prior license conditions. * Creation date and last modification date of each routine are indicated in the source code 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 includes FLUKA core code, FLUKA User Routines (as defi- ned below), and the Flair user interface. 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. The Licensee shall not reverse engineer, decompile, decrypt, disassemble or otherwise attempt to derive the source code from the FLUKA binary code or FLUKA data libraries (except as and only to the extent that any foregoing restriction is prohibited by Law), 7. Any use of FLUKA outside the scope of this license is subject to prior written permission. 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: Developments and Challenges for High Energy and Medical Applications" T.T. Bohlen, F. Cerutti, M.P.W. Chin, A. Fasso`, A. Ferrari, P.G. Ortega, A. Mairani, P.R. Sala, G. Smirnov, and V. Vlachoudis, Nuclear Data Sheets 120, 211-214 (2014) "FLUKA: a multi-particle transport code" A. Ferrari, P.R. Sala, A. Fasso`, and J. Ranft, CERN-2005-10 (2005), INFN/TC_05/11, SLAC-R-773 Use of Flair must be acknowledged using the following refer- ence: V. Vlachoudis, Proc. Int. Conf. on Mathematics, Computational Methods & Reactor Physics (M&C 2009), Saratoga Springs, New York, 2009 Additional FLUKA references can be added, provided they are relevant for the FLUKA version under consideration. Note: Copyright statements contained in individual files re- ferring explicitly to one or more of the Authors and/or Collaborators, must be interpreted as Copyright INFN and CERN, Authors: ..., for the period 1989 - September 1st 2019, and as Copyright INFN, Alberto Fasso` and co- llaborators, Authors: ..., from September 1st 2019 on- wards. !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!! 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 **************************************************************************************************** FLUKA2020 Version 0.3 Apr-20 by P.R. Sala DATE: 6/ 3/20 TIME: 18:58:41 **************************************************************************************************** ***** Next control card ***** TITLE 0.000 0.000 0.000 0.000 0.000 0.000 small cyrce liquid target *---------------- 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 ----------------* *---------------- MATERIAL EFINITION ----------------* *---------------- ##################################### ----------------* *---------------- ..+....1....+....2....+....3....+....4....+....5....+....6....+....7.. ----------------* *---------------- ----------------* *---------------- ----------------* *---------------- ----------------* *---------------- Activation calculations ----------------* *---------------- ----------------------- ----------------* *---------------- PHYSICS 3. EVAPORAT ----------------* *---------------- PHYSICS 1. COALESCE ----------------* *---------------- EOB 18h week 2weeks 3 weeks 4 weeks ----------------* *---------------- DCYTIMES 0.0 ----------------* *---------------- IRRPROFI 3600. 6.21E12 ----------------* *---------------- RADDECAY 1. ----------------* *---------------- RESIDUAL ACTIVITY ----------------* *---------------- ##################################### ----------------* *---------------- RESNUCLE 3. -29. TARGET 1.L1 ----------------* *---------------- DCYSCORE 1. L1 RESNUCLE ----------------* *---------------- **** ----------------* *---------------- Set the random number seed ----------------* *---------------- Set the random number seed ----------------* *---------------- Set the number of primary histories to be simulated in the run ----------------* ***** Next control card ***** BEAM -2.4000E-02 -1.0000E-06 -1.000 0.000 0.000 1.000 PROTON ***** Next control card ***** BEAMPOS 0.000 0.000 -1.000 0.000 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 ---------------* * SPH blkbody 1 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.40000000D+02 0.00000000D+00 0.00000000D+00 5 SPH source 2 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.20000000D+01 0.00000000D+00 0.00000000D+00 15 SPH void 3 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.10000000D+02 0.00000000D+00 0.00000000D+00 25 RPP target 4 -0.67950000D+00 0.67950000D+00 -0.67950000D+00 0.67950000D+00 0.00000000D+00 0.13590000D+01 35 END 5 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 0.00000000D+00 45 Number of bodies 4 Length of FPD-Array 50 Accuracy parameter: 6.85E-07 suggested: 6.85E-07 Detected max. geometry dimension: 10. cm Input region data * *--------------- Black hole ---------------* * BLKBODY 5 + blkbody - void * *--------------- source sphere ---------------* * SOURCE 5 + source - target VOID 5 + void - source * *--------------- source sphere ---------------* * TARGET 5 + target END Number of input regions 4 Number of code zones 4 Length of integer array 105 CODE ZONE INPUT REGION ZONE DATA LOC. NO. OF BODIES REGION NO. 1 1 33 2 1 2 2 42 2 2 3 3 51 2 3 4 4 60 1 4 I IR1(I) IR2(I) 1 1 1 2 2 2 3 3 3 4 4 4 Interpreted body echo Body n. 1 SPH blkbody Rot. 0 0.000000 0.000000 0.000000 40.00000 Body n. 2 SPH source Rot. 0 0.000000 0.000000 0.000000 2.000000 Body n. 3 SPH void Rot. 0 0.000000 0.000000 0.000000 10.00000 Body n. 4 RPP target Rot. 0 -0.6795000 0.6795000 -0.6795000 0.6795000 0.000000 1.359000 Interpreted region echo Region n. 1 BLKBODY 1 -3 Region n. 2 SOURCE 2 -4 Region n. 3 VOID 3 -2 Region n. 4 TARGET 4 All region volumes set to 1 Volumes (cm**3) 1 Reg. 1 2 3 4 Volume 1.000D+00 1.000D+00 1.000D+00 1.000D+00 0NGEOM= 2, NGLAST= 280 Successfully allocated 24 bytes of memory **** Stars/Energy accumulation arrays start at location 283 and end at 314 (I*4 addr.) **** **** Corrfact array start at location 317 and end at 340 (I*4 addr.) **** **** Minimum step size array start at location 343 and end at 354 (I*4 addr.) **** **** Maximum step size array start at location 357 and end at 368 (I*4 addr.) **** **** Lmgfon array start at location 371 and end at 382 (I*4 addr.) **** **** Lelfon array start at location 385 and end at 396 (I*4 addr.) **** **** Icryon array start at location 399 and end at 410 (I*4 addr.) **** **** Phothr array start at location 413 and end at 436 (I*4 addr.) **** **** Phothr array start at location 439 and end at 462 (I*4 addr.) **** **** Medemf array start at location 465 and end at 476 (I*4 addr.) **** **** Iraylr array start at location 479 and end at 484 (I*4 addr.) **** **** Pthlpb array start at location 487 and end at 498 (I*4 addr.) **** **** Ethlpb array start at location 501 and end at 512 (I*4 addr.) **** **** Lpbemf array start at location 515 and end at 520 (I*4 addr.) **** GEOEND Total time used for geometry initialization: 2.333E-03 s ***** Next control card ***** MATERIAL 8.000 0.000 1.4300E-03 0.000 0.000 18.00 Oxy18 ***** Next control card ***** MATERIAL 0.000 0.000 1.110 0.000 0.000 0.000 H2O18 ***** Next control card ***** COMPOUND 2.000 3.000 1.000 26.00 0.000 0.000 H2O18 ***** Next control card ***** RANDOMIZ 1.000 0.000 0.000 0.000 0.000 0.000 RM64 INITIALIZED: 98765 12345 0 0 ***** Next control card ***** ASSIGNMA 1.000 1.000 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 28.00 2.000 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 28.00 3.000 0.000 0.000 0.000 0.000 ***** Next control card ***** ASSIGNMA 27.00 4.000 0.000 0.000 0.000 0.000 ***** Next control card ***** LOW-MAT 26.00 8.000 16.00 296.0 0.000 0.000 OXYGEN ***** Next control card ***** USRBDX 111.0 8.000 -34.00 2.000 3.000 50.27 NF1 ***** Next control card ***** USRBDX 2.4000E-02 1.0000E-07 100.0 0.000 0.000 0.000 & ***** Next control card ***** USRBDX 111.0 7.000 -35.00 2.000 3.000 50.27 GF ***** Next control card ***** USRBDX 2.4000E-02 1.0000E-07 100.0 0.000 0.000 0.000 & ***** Next control card ***** USRBDX 111.0 8.000 -36.00 2.000 3.000 50.27 NF2 ***** Next control card ***** USRBDX 2.4000E-02 1.0000E-07 100.0 12.57 0.000 2.000 & ***** Next control card ***** USRBDX 111.0 8.000 -37.00 2.000 3.000 50.27 NF3 ***** Next control card ***** USRBDX 2.4000E-02 1.0000E-07 100.0 12.57 0.000 4.000 & ***** Next control card ***** USRBDX 111.0 8.000 -38.00 2.000 3.000 50.27 NF4 ***** Next control card ***** USRBDX 2.4000E-02 1.0000E-07 100.0 12.57 0.000 16.00 & ***** Next control card ***** USRBIN 10.00 1.000 -32.00 10.00 10.00 10.00 beamp ***** Next control card ***** USRBIN -10.00 -10.00 -10.00 100.0 100.0 100.0 & ***** Next control card ***** USRBIN 10.00 8.000 -33.00 10.00 10.00 10.00 neus ***** Next control card ***** USRBIN -10.00 -10.00 -10.00 100.0 100.0 100.0 & ***** Next control card ***** START 1.0000E+08 0.000 0.000 0.000 0.000 0.000 Total time used for input reading: 3.456E-03 s **** Power exponent for grey particle correlations set at -13.0000000 **** *** Reading evaporation and nuclear data from unit: 14 **** Atomic and Nuclear data file for Fluka9x-20xy *** File version: 2020.0 Copyright (C) 2019-2020 by Alberto Fasso`, Alfredo Ferrari & Paola Sala *** Evaporation: using NNDC (1996) data *** Starting location in blank common of LVL data: 47876 Last location in blank common of LVL data: 11321187 Starting location in blank common of CE data: 11321188 Last location in blank common of CE data: 11391933 Starting location in blank common of alpha data: 11391934 Last location in blank common of alpha data: 11396865 Starting location in blank common of gamma data: 11396866 Last location in blank common of gamma data: 11549289 Starting location in blank common of beta data: 11549290 Last location in blank common of beta data: 11615577 Starting location in blank common of GDR data: 11615578 Last location in blank common of GDR data: 11670632 Starting location in blank common of (g,x) data: 11670633 Last location in blank common of (g,x) data: 12092580 **** 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 : 0.268371195 GeV/c **** **** Maximum Fermi energy : 3.76013592E-02 GeV **** **** Average Fermi energy : 2.26768348E-02 GeV **** **** Average binding energy : 7.68006593E-03 GeV **** **** Nuclear well depth : 4.52814251E-02 GeV **** **** Excess mass for 11-B : 8.66770744E-03 GeV **** **** Cameron E. m. for 11-B : 7.92484451E-03 GeV **** **** Cam.El. E. m. for 11-B : 8.51835590E-03 GeV **** **** My.&Sw. E. m. for 11-B : 8.87641683E-03 GeV **** **** Atomic mass for 11-B : 10.2551031 GeV **** **** Nuclear mass for 11-B : 10.2525482 GeV **** **** Excess mass for 12-C : 0.00000000 GeV **** **** Cameron E. m. for 12-C : 1.51353085E-03 GeV **** **** Cam.El. E. m. for 12-C : 1.63581886E-03 GeV **** **** My.&Sw. E. m. for 12-C : -3.83182080E-04 GeV **** **** Atomic mass for 12-C : 11.1779289 GeV **** **** Nuclear mass for 12-C : 11.1748638 GeV **** **** Excess mass for 13-C : 3.12500913E-03 GeV **** **** Cameron E. m. for 13-C : 2.87424121E-03 GeV **** **** Cam.El. E. m. for 13-C : 3.48059321E-03 GeV **** **** My.&Sw. E. m. for 13-C : 3.55793885E-03 GeV **** **** Atomic mass for 13-C : 12.1125479 GeV **** **** Nuclear mass for 13-C : 12.1094837 GeV **** **** Excess mass for 14-N : 2.86341691E-03 GeV **** **** Cameron E. m. for 14-N : 3.37313744E-03 GeV **** **** Cam.El. E. m. for 14-N : 3.69755225E-03 GeV **** **** My.&Sw. E. m. for 14-N : 2.86559598E-03 GeV **** **** Atomic mass for 14-N : 13.0437803 GeV **** **** Nuclear mass for 14-N : 13.0402050 GeV **** **** Excess mass for 15-O : 2.85560498E-03 GeV **** **** Cameron E. m. for 15-O : 2.40658456E-03 GeV **** **** Cam.El. E. m. for 15-O : 2.59010098E-03 GeV **** **** My.&Sw. E. m. for 15-O : 3.32844863E-03 GeV **** **** Atomic mass for 15-O : 13.9752674 GeV **** **** Nuclear mass for 15-O : 13.9711809 GeV **** **** Excess mass for 16-O : -4.73700184E-03 GeV **** **** Cameron E. m. for 16-O : -3.31055629E-03 GeV **** **** Cam.El. E. m. for 16-O : -3.19383014E-03 GeV **** **** My.&Sw. E. m. for 16-O : -4.83115949E-03 GeV **** **** Atomic mass for 16-O : 14.8991690 GeV **** **** Nuclear mass for 16-O : 14.8950825 GeV **** **** Excess mass for 27-Al : -1.71968639E-02 GeV **** **** Cameron E. m. for 27-Al : -1.86259765E-02 GeV **** **** Cam.El. E. m. for 27-Al : -1.71393417E-02 GeV **** **** My.&Sw. E. m. for 27-Al : -1.71456840E-02 GeV **** **** Atomic mass for 27-Al : 25.1331444 GeV **** **** Nuclear mass for 27-Al : 25.1265068 GeV **** **** Excess mass for 28-Si : -2.14927960E-02 GeV **** **** Cameron E. m. for 28-Si : -2.20552329E-02 GeV **** **** Cam.El. E. m. for 28-Si : -2.02140380E-02 GeV **** **** My.&Sw. E. m. for 28-Si : -2.15357449E-02 GeV **** **** Atomic mass for 28-Si : 26.0603428 GeV **** **** Nuclear mass for 28-Si : 26.0531960 GeV **** **** Excess mass for 40-Ca : -3.48463878E-02 GeV **** **** Cameron E. m. for 40-Ca : -3.57677415E-02 GeV **** **** Cam.El. E. m. for 40-Ca : -3.36876661E-02 GeV **** **** My.&Sw. E. m. for 40-Ca : -3.49161364E-02 GeV **** **** Atomic mass for 40-Ca : 37.2249184 GeV **** **** Nuclear mass for 40-Ca : 37.2147179 GeV **** **** Excess mass for 55-Fe : -5.74813038E-02 GeV **** **** Cameron E. m. for 55-Fe : -5.95041849E-02 GeV **** **** Cam.El. E. m. for 55-Fe : -5.80859706E-02 GeV **** **** My.&Sw. E. m. for 55-Fe : -5.75035065E-02 GeV **** **** Atomic mass for 55-Fe : 51.1746941 GeV **** **** Nuclear mass for 55-Fe : 51.1614418 GeV **** **** Excess mass for 56-Fe : -6.06070869E-02 GeV **** **** Cameron E. m. for 56-Fe : -6.23576604E-02 GeV **** **** Cam.El. E. m. for 56-Fe : -6.08848445E-02 GeV **** **** My.&Sw. E. m. for 56-Fe : -6.04864582E-02 GeV **** **** Atomic mass for 56-Fe : 52.1030617 GeV **** **** Nuclear mass for 56-Fe : 52.0898094 GeV **** **** Excess mass for 107-Ag: -8.84066746E-02 GeV **** **** Cameron E. m. for 107-Ag: -8.91378522E-02 GeV **** **** Cam.El. E. m. for 107-Ag: -8.86849761E-02 GeV **** **** My.&Sw. E. m. for 107-Ag: -8.82594287E-02 GeV **** **** Atomic mass for 107-Ag: 99.5814590 GeV **** **** Nuclear mass for 107-Ag: 99.5575867 GeV **** **** Excess mass for 132-Xe: -8.92789662E-02 GeV **** **** Cameron E. m. for 132-Xe: -8.98088515E-02 GeV **** **** Cam.El. E. m. for 132-Xe: -8.92861336E-02 GeV **** **** My.&Sw. E. m. for 132-Xe: -8.94292891E-02 GeV **** **** Atomic mass for 132-Xe: 122.867943 GeV **** **** Nuclear mass for 132-Xe: 122.840546 GeV **** **** Excess mass for 181-Ta: -4.84383143E-02 GeV **** **** Cameron E. m. for 181-Ta: -4.81105074E-02 GeV **** **** Cam.El. E. m. for 181-Ta: -4.78126295E-02 GeV **** **** My.&Sw. E. m. for 181-Ta: -4.82364818E-02 GeV **** **** Atomic mass for 181-Ta: 168.551987 GeV **** **** Nuclear mass for 181-Ta: 168.515121 GeV **** **** Excess mass for 208-Pb: -2.17486005E-02 GeV **** **** Cameron E. m. for 208-Pb: -1.84126478E-02 GeV **** **** Cam.El. E. m. for 208-Pb: -2.03325432E-02 GeV **** **** My.&Sw. E. m. for 208-Pb: -2.09601093E-02 GeV **** **** Atomic mass for 208-Pb: 193.729019 GeV **** **** Nuclear mass for 208-Pb: 193.687683 GeV **** **** Excess mass for 209-Bi: -1.82586629E-02 GeV **** **** Cameron E. m. for 209-Bi: -1.47107309E-02 GeV **** **** Cam.El. E. m. for 209-Bi: -1.71698369E-02 GeV **** **** My.&Sw. E. m. for 209-Bi: -1.77706797E-02 GeV **** **** Atomic mass for 209-Bi: 194.664001 GeV **** **** Nuclear mass for 209-Bi: 193.687195 GeV **** **** Excess mass for 235-U : 4.09188494E-02 GeV **** **** Cameron E. m. for 235-U : 4.64000776E-02 GeV **** **** Cam.El. E. m. for 235-U : 4.20629792E-02 GeV **** **** My.&Sw. E. m. for 235-U : 4.12672795E-02 GeV **** **** Atomic mass for 235-U : 218.942032 GeV **** **** Nuclear mass for 235-U : 218.895782 GeV **** **** Excess mass for 238-U : 4.73077856E-02 GeV **** **** Cameron E. m. for 238-U : 5.24553321E-02 GeV **** **** Cam.El. E. m. for 238-U : 4.81769666E-02 GeV **** **** My.&Sw. E. m. for 238-U : 4.73393984E-02 GeV **** **** Atomic mass for 238-U : 221.742905 GeV **** **** Nuclear mass for 238-U : 221.696655 GeV **** **** Evaporation from residual nucleus activated **** **** Deexcitation gamma production activated **** **** Evaporated "heavies" transport activated **** **** High Energy fission requested & activated **** **** Fermi Break Up requested & activated **** *** Heavy fragment evaporation activated *** Heavy fragmentation requested and activated. Total number of evaporation states considered: 53 A and Z of the last one: 9 4 **** Neutrino generators initialized F T T **** *** Neutrino xsec file header: Neutrino Xsec file from nu *** *** Neutrino xsec file generated on: DATE: 6/ 1/15, TIME: 12:53:31 *** *** Maximum momentum for tabulations: 3.9659976907516432 *** 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 (# 28 automatically guessed by FLUKA, please check its correctness *** Rayleigh option requested for medium number 1 Rayleigh option requested for medium number 2 **** Fluorescence data successfully retrieved from unit 13 **** **** Subroutine Mulmix: medium n. 28 **** 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 8.69054E-01 4.25526E-05 BLCCE,XCCE,TFEMF0,XR0EMF= 8.76462E+00 2.80872E-02 2.28234E+00 9.00128E-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 = 0.9387 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 0.9387 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 = 0.1091 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 0.1091 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 0.1422 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 0.1422 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 0.4944 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 0.4944 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.198 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.190 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.190 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.198 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.322 GeV 1.322 GeV, Hthnsz = 1.322 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.322 GeV 1.322 GeV, Hthnsz = 1.322 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.673 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.673 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 **** **** Nuclear finite size effects requested and implemented **** **** Subroutine Mulmix: medium n. 27 **** Number of elements = 2, Density= 1.11000 (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 0.111797 2 8.00000 17.9992 0.333333 0.998203 ZTILDE,AE1O3,BLCCRA= 7.78788E+00 2.62070E+00 1.08102E-02 **** 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= 6.63158E+00 2.62070E+00 1.07635E-02 BLCC,XCC,TFFLU0,XR0FLU= 6.32640E+03 7.57857E-04 1.05829E-03 4.27023E-05 BLCCE,XCCE,TFEMF0,XR0EMF= 7.51584E+03 8.13247E-01 2.66155E-03 8.90013E-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 = 0.9386 GeV Particle n.: 2 Ecutm (prim. & sec.) = 0.9383 GeV 0.9383 GeV, Hthnsz = 0.9386 GeV Particle n.: 3 Ecutm (prim. & sec.) = 5.1426E-04 GeV 5.1426E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 4 Ecutm (prim. & sec.) = 5.1426E-04 GeV 5.1426E-04 GeV, Hthnsz = 1.0000E+30 GeV Particle n.: 10 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 0.1088 GeV Particle n.: 11 Ecutm (prim. & sec.) = 0.1057 GeV 0.1057 GeV, Hthnsz = 0.1088 GeV Particle n.: 13 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 0.1420 GeV Particle n.: 14 Ecutm (prim. & sec.) = 0.1396 GeV 0.1396 GeV, Hthnsz = 0.1420 GeV Particle n.: 15 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 0.4944 GeV Particle n.: 16 Ecutm (prim. & sec.) = 0.4937 GeV 0.4937 GeV, Hthnsz = 0.4944 GeV Particle n.: 20 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.198 GeV Particle n.: 21 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.190 GeV Particle n.: 31 Ecutm (prim. & sec.) = 1.189 GeV 1.189 GeV, Hthnsz = 1.190 GeV Particle n.: 33 Ecutm (prim. & sec.) = 1.197 GeV 1.197 GeV, Hthnsz = 1.198 GeV Particle n.: 36 Ecutm (prim. & sec.) = 1.322 GeV 1.322 GeV, Hthnsz = 1.322 GeV Particle n.: 37 Ecutm (prim. & sec.) = 1.322 GeV 1.322 GeV, Hthnsz = 1.322 GeV Particle n.: 38 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.673 GeV Particle n.: 39 Ecutm (prim. & sec.) = 1.672 GeV 1.672 GeV, Hthnsz = 1.673 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 = 9.609E+00, Z_Fano = 6.600E+00 **** **** Nuclear finite size effects requested and implemented **** **** Isotope tabulation data start at location 12092581 and end at 12106902 (I*4 addr.) **** **** Non analog absorption factors start at location 12106905 and end at 12106912 (I*4 addr.) **** **** Non analog absorption group limits start at location 12106913 and end at 12106916 (I*4 addr.) **** **** Cut-off group limits start at location 12106917 and end at 12106920 (I*4 addr.) **** Neutron cross section file version: 2020.1 by A.Fasso`, A.Ferrari & G.C.Panini With important contribution by M.Magistris & T.Frosio 1 ***** Neutron Xsec: group limits, average energies, velocities and momenta ***** ***** start at location 12106921, end at location 12109088 (I*4 addr.) ***** ***** Neutron Xsec: **** **** Group limits, average energies, velocities and momenta start at location 12106921, end at location 12109088 (I*4 addr.) ***** *** Recoil proton production activated for Xsec mat. # 1 *** *** (n,p) proton production activated for Xsec mat. # 3 *** **** Low energy neutron xsec not found for some media 5 6 **** OXYGEN