-- ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ iThemba LABS Old Faure Road Faure P. O. Box 722 Somerset West, 7129 South Africa www.tlabs.ac.za<http://www.tlabs.ac.za> Dr Obed Shirinda Computational Physicist: Instrumentation and Information Technology Department Office no: J-bolck, J158 Tel:???? +27 (0) 21 843 1547 Fax:???? +27 (0) 21 843 3525 Cell:?? +27 (0) 72 056 4314/ +27 (0) 78 253 6798 email: obed_at_tlabs.ac.za<mailto:obed_at_tlabs.ac.za> Alternative email: obedshirinda_at_yahoo.co.uk<mailto:obedshirinda_at_yahoo.co.uk= > ???????????????????????????????????????? obedshirinda_at_gmail.com<mailto:obed= shirinda_at_gmail.com> ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ __________________________________________________________________________ You can manage unsubscription from this mailing list at https://www.fluka.org/fluka.php?id=3Dacc_info * ..+....1....+....2....+....3....+....4....+....5....+....6....+....7... * * Sirius: Roof TITLE Teste de Ativacao GLOBAL 2000. 1. 1. * DEFAULT PRECISIO: see page 101 from Tutorial DEFAULTS PRECI= SIO * * * * FLUKA input produced by ALIFE from: * /home/ott/flsir/sirius.alife * User: ott * Date: Di 9. Jun 19:48:11 CEST 2015 MATERIAL 2.66 26. AL508= 0 MATERIAL 2.51 27. B4C MATERIAL 3.637 28. BACON= C MATERIAL 56. 137.33 3.59 29. BARIU= M MATERIAL 5. 10.811 2.34 30. BORON MATERIAL 17. 35.4527 2.9947E-3 31. CHLOR= INE MATERIAL 24. 51.9961 7.19 32. CHROM= IUM MATERIAL 3.70 33. HAEMA= TIT MATERIAL 18.5 34. HPM18= 50 MATERIAL 1. 1.0079 8.988E-5 3. 1.HYDRO= GEN MATERIAL 25. 54.93805 7.44 35. MANGA= NES MATERIAL 42. 95.94 10.2 36. MOLYB= DEN MATERIAL 41. 93. 8.4 37. NIOBI= UM MATERIAL 15. 30.97376 2.2 38. PHOSP= HO MATERIAL 2.35 39. PITWA= LL MATERIAL 0.95 40. POLYE= THE MATERIAL 19. 39.10 0.862 41. POTAS= SIU MATERIAL 1.6 42. SAND MATERIAL 0.001205 43. STDAI= R MATERIAL 2.96E-4 44. STDAI= R1 MATERIAL 8.11 45. STEEL MATERIAL 8.11 46. STEEL= 2 MATERIAL 16. 32.066 2. 47. SULFU= R MATERIAL 1.01 48. TISSE= YE MATERIAL 1.05 49. TISSG= EN MATERIAL 1.05 50. TISST= UM MATERIAL 1. 51. WATER MATERIAL 1.8 52. WETSO= IL MATERIAL 2.2 53. DIOXS= I * Choosing Bisphenol A as glue. Check correct information!!! http://www.les= ker.com/msds/pdfs/b3feddd2e786b88ac6354dcf0bc56168edc047c6ad23a03ffe574c4de= .pdf * Density from STYCAST 2850 FT: http://lartpc-docdb.fnal.gov/0000/000059/00= 1/stycas2850.pdf MATERIAL 2.4 54. BPAde= nso MATERIAL 7.85 55. ACO * Stainless steel AISI316LN MATERIAL 7.8 SS316= LN COMPOUND 0.67145 IRON 0.185 CHROMIUM 0.1125 NICKELSS316= LN COMPOUND 0.02 MANGANES 0.01 SILICON 0.00045 PHOSPHOSS316= LN COMPOUND 0.0003 SULFUR 0.0003 CARBON SS316= LN * * Residual gas in the straight section (density corresponds to 1 atm) MATERIAL 2.96E-4 GAS COMPOUND -0.258427 HYDROGEN -0.337079 CARBON -0.404494 OXYGENGAS MAT-PROP 1. GAS COMPOUND 1. SILICON 2. OXYGENDIOXS= I COMPOUND 15. CARBON 16. HYDROGEN 2. OXYGENBPAde= nso COMPOUND -0.948 ALUMINUM -0.045 MAGNESIU -0.007 MANGANESAL508= 0 COMPOUND 4. BORON 1. CARBON B4C COMPOUND -0.004 HYDROGEN -0.312 OXYGEN -0.001 SODIUMBACON= C COMPOUND -0.004 MAGNESIU -0.006 ALUMINUM -0.018 SILICONBACON= C COMPOUND -0.1 SULFUR -0.046 CALCIUM -0.001 MANGANESBACON= C COMPOUND -0.088 IRON -0.421 BARIUM BACON= C COMPOUND -0.506 IRON -0.339 OXYGEN -0.005 BORONHAEMA= TIT COMPOUND -0.068 SILICON -0.048 CALCIUM -0.019 MAGNESIUHAEMA= TIT COMPOUND -0.01 ALUMINUM -0.004 HYDROGEN -0.001 MANGANESHAEMA= TIT COMPOUND -97.5 TUNGSTEN -1. IRON -1.5 NICKELHPM18= 50 COMPOUND -49.5 OXYGEN -0.5 BORON -20. SILICONPITWA= LL COMPOUND -19.5 CALCIUM -3. ALUMINUM -1. SODIUMPITWA= LL COMPOUND -1.4 IRON -0.6 HYDROGEN -3. CARBONPITWA= LL COMPOUND -0.5 MAGNESIU -1. POTASSIU PITWA= LL COMPOUND 2. HYDROGEN 1. CARBON POLYE= THE COMPOUND -0.03 HYDROGEN -0.63 OXYGEN -0.02 MAGNESIUSAND COMPOUND -0.04 ALUMINUM -0.23 SILICON -0.03 CALCIUMSAND COMPOUND -0.02 IRON SAND COMPOUND -0.000124 CARBON -0.755267 NITROGEN -0.231781 OXYGENSTDAI= R COMPOUND -0.012827 ARGON STDAI= R COMPOUND -0.25847 HYDROGEN -0.337079 CARBON -0.404494 OXYGENSTDAI= R1 COMPOUND STDAI= R1 MAT-PROP 1. STDAIR1 COMPOUND -0.6281 IRON -0.13 NICKEL -0.185 CHROMIUMSTEEL COMPOUND -0.025 MOLYBDEN -0.02 MANGANES -0.01 SILICONSTEEL COMPOUND -0.0003 CARBON -0.00045 PHOSPHO -0.00015 SULFURSTEEL COMPOUND -0.001 NITROGEN STEEL COMPOUND -0.6119 IRON -0.14 NICKEL -0.185 CHROMIUMSTEEL= 2 COMPOUND -0.03 MOLYBDEN -0.02 MANGANES -0.01 SILICONSTEEL= 2 COMPOUND -0.0003 CARBON -0.00045 PHOSPHO -0.00015 SULFURSTEEL= 2 COMPOUND -0.0022 NITROGEN STEEL= 2 COMPOUND -10.6 HYDROGEN -28.4 CARBON -2.6 NITROGENTISSE= YE COMPOUND -57.8 OXYGEN -0.2 SULFUR -0.2 CHLORINETISSE= YE COMPOUND -0.1 POTASSIU -0.1 PHOSPHO TISSE= YE COMPOUND -10.6 HYDROGEN -28.4 CARBON -2.6 NITROGENTISSG= EN COMPOUND -57.8 OXYGEN -0.2 SULFUR -0.2 CHLORINETISSG= EN COMPOUND -0.1 POTASSIU -0.1 PHOSPHO TISSG= EN COMPOUND -10.6 HYDROGEN -28.4 CARBON -2.6 NITROGENTISST= UM COMPOUND -57.8 OXYGEN -0.2 SULFUR -0.2 CHLORINETISST= UM COMPOUND -0.1 POTASSIU -0.1 PHOSPHO TISST= UM COMPOUND 2. HYDROGEN 1. OXYGEN WATER COMPOUND -3. HYDROGEN -62. OXYGEN -2. MAGNESIUWETSO= IL COMPOUND -4. ALUMINUM -2. IRON -4. CALCIUMWETSO= IL COMPOUND -23. MUSCLEST WETSO= IL COMPOUND -0.0029 CARBON -0.002 COPPER -0.98 IRONACO COMPOUND -0.0103 MANGANES -0.0004 PHOSPHO -0.0028 SILICONACO COMPOUND -0.0005 SULFUR ACO GEOBEGIN 0.0 COMBN= AME 3 0 LABORDE * * * BODY DEFINITIONS * ---------------- * * xyz origin is at the centre of the front of the standard target * x-axis up * y-axis points towards the right (in comparison to the flight direction of= e-) * z-axis coincides with the beam-axis * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * ----------------------------General Definitions--------------------------= ----------- * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * external void * RPP Blackhol -999999. 999999. -999999. 999999. -999999. 999999. * * boundaries of geometry * RPP Air -200. 1150. -350. 350. -517. 4620. * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * -----------BEAMLINES (z=3D0, y=3D0, x=3D0 center of straight)----------- * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * Storage ring ZCC ExtPipe 0.0 0.0 3.175 ZCC IntPipe 0.0 0.0 3.025 * Booster externo ZCC BoosterO 0.0 320. 1.25 * Booster interno ZCC BoosterI 0.0 320. 1.2 * Plano dipolo UP XYP Dip1U 517. * Plano dipolo down XYP Dip1D 518.2 * Camara do dipolo externa feita de steel RPP CamdipO -1.4 1.4 -10. 40. 517. 628.43 * Camara do dipolo interna feita de steel RPP CamdipI -1.3 1.3 -9.9 39.8 517. 628.43 * plano do dipolo inclinado interno PLA DipIn 0.0 .996195 -0.0871557 0.0 -53.25312345763 -203.7035708751 * Plano inclinado do dipolo externo PLA DipOut 0.0 .996195 -0.0871557 0.0 -53.05348942353 -203.7035388572 * Piso in (limite interno) SR/Booster Tunnel * * Beamheight 1.4 m YZP PisoIn -140. * piso out (limite externo) YZP PisoOut -200. YZP TetoIn 190. * Limite externo do teto do anel YZP TetoOut 290. * Limite externo do teto da cabana YZP RoofOut 240. * * Y Z R XCC TunelIn 8255.8 0.0 7886.8 XCC TunelOut 8255.8 0.0 7806.8 * Parte interna da parede externa do tunel XZP TunExIn -117.7 * Parte externa da parede externa do t??nel XZP TunExtO -222.9 * Hx Hy Hz x y z PLA LeftDI 0.0 .99254662698443 -.121869261095 0.0 119.5141628834 2376.8546849702 PLA LeftDO 0.0 .99254662698443 -.121869261095 0.0 124.65759594161 3233.1202168871 * XYP FrontI 2370. XYP FrontO 2520. RCC plugin 0.0 0.0 2215.78 0.0 0.0 254.21956911467237 5.5 RCC plugo 0.0 0.0 2470. 0.0 0.0 35. 15. RCC Plugo1 0.0 0.0 2520. 0.0 0.0 -15. 23.3 XYP GSDown 2295.8 TRC body3 0.0 0.0 1397.2 0.0 0.0 9.4000000000001 1.2 .4 XZP LeftDet -0.75 XZP RightDet 0.75 * * * New Detectors Upstream * * * XYP P1DtDown 2544.9 XYP P1DtUp 2544.9 XYP P2DtDown 2650.6 XYP P2DtUp 2650.5 ZCC PipeInBH 0.0 0.0 3.025 *$start_transform ROT_OPT *$end_transform * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * Second Crystal and Frame 2 need be also translated: * 0 mm for Bragg=3D60deg * 9.973 mm for Bragg =3D 3deg *$start_transform Trans2nd *$end_transform #if 0 YZP HO300 3.24 #endif #if 0 YZP HO400 4.9 #endif #if 0 XZP VOL100 -8.26 #endif #if 0 XZP VOL200 -6.99 #endif #if 0 XZP VOR100 1.99 #endif #if 0 XZP VOL200 3.26 #endif #if 0 XYP ZOB500 2798.15 #endif XYP Z2800 2800. XYP Det3 2935.0049666574 XYP Det4 2995. XYP EndHutch 3490.78 RPP opright -140. 560.3 -300. -299.4 4360.78 5910.78 RPP opleft -140. 560.3 199.4 200. 4360.78 5910.78 RPP opdown -140. 560. -300. 200. 5910.18 5910.78 RPP opup -140. 560. -300. 200. 4360.78 4361.38 RPP oproof 560. 560.3 -300. 200. 4360.78 5910.78 RPP G_stop1 -50. 95. -50. 50. 3609.7 3614.7 RPP BS3din 0.8000000000000002 2.8 -1. 1. 2856. 2888.4 RCC Beampip 1.8 0.0 3616.7 0.0 0.0 733.85 2.8 RPP gamash -22. -9.9 -3.75 3.75 2279. 2286.5 RPP polibre1 10. 30. -11.75 11.75 2870. 2902.4 RPP polibre2 -30. -10. -11.75 11.75 2870. 2902.4 RCC gamahol 11.8 9.6 2314.1 0.0 0.0 -10.2 0.805 RPP GamaSec -10. 10. -10. 10. 3550. 3591.1 RPP PE5 -140. 262.86 -197.27 -195.27 2515.78 3616.7 RPP PE6 -140. 262.86 122.76 124.76 3005. 3616.7 RPP PE7 -140. 259.86 -195.27 122.76 3614.7 3616.7 RPP PE8 259.86 261.86 -195.27 122.76 2515.78 3617.7 RCC plugin1 122. 0.0 2370. 0.0 0.0 150. 8. RCC plugo1 122. 0.0 2470. 0.0 0.0 35. 15. RCC Plugo2 122. 0.0 2520. 0.0 0.0 -15. 23.3 RPP plugin2 178. 190. -112.7 -47.7 2370. 2520. RPP plugin3 -140. -134. -112.7 -92.7 2370. 2520. RPP hole1 -0.65 0.65 -0.9 0.9 1568.4 1571.6 RPP hole2 -0.825 0.825 -1.125 1.125 1953.5 1956.5 TRC hole3 0.0 0.0 2055.4 0.0 0.0 25.4 1.75 0.0 TRC hole4 0.0 0.0 2080. 0.0 0.0 -10.4 0.8 0.0 PLA hole6 -.997676180109 0.0 0.068133983032 -146.8470725472 0.0 10.028580564196 YZP hole5 0.6 XYP hole8 2145.65 XYP hole9 2158.9 XZP hole10 0.6 PLA hole11 0.0 -.997676180109 0.068133983032 0.0 -146.8417413139 10.028216479979 RPP hole12 -0.3 0.6 -.3 .6 2155.8 2158.9 PLA hole13 0.997676180109 0.0 0.068133983032 148.94688898925 0.0 10.171982662679 RPP hole14 -0.6 .3 -0.6 0.3 2186.7 2189.8034860134 YZP hole15 -0.6 XZP hole16 -0.6 PLA hole17 0.0 0.997676180109 0.068133983032 0.0 148.94416996318 10.171796973095 PLA hole18 .9945218953682 0.0 .10452846326765 -.5381554320514 -2.181944= 40448 2216.5202069136 XZP hole19 1.1 XZP hole20 -1.1 YZP hole21 -1.4 YZP hole22 -.6 #if 0 RPP G_stop2 -126.75 -21.25 -50. 42.5 2323. 2333. #endif RPP parede1 -140. 200. -205. -200. 2510. 3340. RPP parede3 -140. 200. 100. 110. 2828.5 3355. RPP parede4 -140. 200. -205. 101. 3340. 3355. RPP parede6 200. 208. -205. -12. 2515. 3355. RPP parede7 200. 208. -12. 110. 2515. 3355. RPP chicaca1 130. 189.8 -117.4 -40. 2349.22 2354.22 RPP chicaca2 130. 189.6 -45. -40. 2354.22 2369.42 RCC esp1 0.0 0.0 3000. 0.0 0.0 20. 4. RCC killel 0.0 0.0 517. 0.0 0.0 1.2 5. RPP Shield1 -140. -135. -105. -95. 2366. 2386. RCC RefLim -76.75 0.0 2323. 0.0 0.0 10. 2.405 RCC plugo2 0.0 0.0 2470.72 0.0 0.0 23.5 14. RCC plugo3 0.0 0.0 2494.22 0.0 0.0 10.6 14. RCC Plugo3 0.0 0.0 2520. 0.0 0.0 -14.58 22.3 * Backwall inside the hutch XYP BackIn 3302. * Backwall outside the hutch XYP BackOut 3310. * Sidewall inside the hutch XZP SideIn -218.9 * Limite interno do teto da cabana YZP RoofIn 236. XYP hole27 2950. XYP hole28 2953.175 XYP hole29 2951.755 * Camara de v??cuo ap??s Out Shielding Wall RCC Cilin1 0.0 0.0 2520. 0.0 0.0 433.025 3.025 RPP Cilin2 -0.2 1.95 -1.7 1.7 2948.245 2951.755 RPP ExtP2 0.0 1.8 -1.85 1.86 2948.1 2951.905 RCC Cilin3 1.8 0.0 2946.975 0.0 0.0 153.175 3.175 RCC ExtP3 1.8 0.0 2946.825 0.0 0.0 153.275 3.175 RCC Cilin4 1.8 0.0 3100. 0.0 -6.960090164005 1160.0000174592 3.025 RCC ExtP4 1.8 0.0 3100. 0.0 -6.96099017925 1160.1500180592 3.175 * Delimita????es ap??s Out Shielding Wall YZP hole30 11.743 YZP hole31 3.743 YZP hole32 -0.143 YZP hole33 -8.143 XYP hole34 4000. XYP hole35 3260. XYP hole36 3260. XYP hole37 4620. XYP EndPlug 3320.3 PLA hole391 5.789631486E-15 94.551857559932 -32.55681544572 -3.67956188E= -18 -218.8616214092 2957.2900834755 PLA hole392 5.789631486E-15 94.551857559932 -32.55681544572 -8.25977189E= -18 -218.5848923117 2957.2464471477 PLA hole393 5.789631485710341E-15 94.55185755993169 -32.556815445715664 = 0.0 -218. 2957.2 PLA hole401 1.737290959E-14 283.72114484672 -97.69302464488 4.712299095E= -18 -222.5805179143 2958.5899934959 PLA hole402 1.737290959E-14 283.72114484672 -97.69302464488 8.072563061E= -18 -222.9181650405 2958.654605583 PLA hole403 1.7372909594347953E-14 283.7211448467207 -97.69302464488273 = 0.0 -223.5 2958.7 PLA plano1m5 2.094269369E-14 342.02014332567 939.69262078591 -1.42895086E= -17 167.76176777107 3048.8000558806 PLA plano2m 2.094269369E-14 342.02014332567 939.69262078591 -1.90892316E= -15 115.17595761571 2904.321729895 * Tungsten Stop1 RPP Stop1Out -3.9 7.5 -5.65 5.65 3050. 3060. ZCC Stop1In 1.8 0.0 0.3175 * Tungsten Stop2 RPP Stop2Out -3.15 11.25 -5.05 5.05 3250. 3260. RCC Stop2In 1.8 0.0 3100. 0.0 -1.2000084233532913 199.99881599809487 0.3= 175 * Fe Gamma Shutter RPP FeGSOut 140. 152.1 -3.75 3.75 2285. 2310. ZCC FeGSIn 0.0 0.0 0.375 #if 0 RPP FMaskOu -21.55 21.55 -21.55 21.55 2075. 2095. #endif * Fe Mask RCC FMaskOut 50. 0.0 2047.6049877819 0.0 0.0 24.6 3.81 TRC FMaskIn1 50. 0.0 2047.6049877819 0.0 0.0 0.93941 1.54 1.14 TRC FMaskIn2 50. 0.0 2048.5449877819 0.0 0.0 18.7949 1.14 0.155 TRC FMaskIn3 50. 0.0 2067.3389877819 0.0 0.0 4.86569 0.155 0.41 PLA FMaskIn4 .99452189536828 0.0 .10452846326765 50. 0.0 2057. TRC FSlitIn 0.0 30. 2127. 0.0 0.0 10.5 0.78 0.072 RCC TubeInt 1.8 0.0 3270. 0.0 0.0 730. 3.0066592756746 RCC TubeExt1 1.8 0.0 3100. 2.6819629175467453E-16 -4.3799778342850075 729.9868600147345 10. RCC TubeExt2 1.8 0.0 3100. 2.6819629175467453E-16 -4.3799778342850075 729.9868600147345 3.425 * XBPM-1 RCC XBPM1Out 183.3588540639 0.0 1578.1598856204 0.0 0.0 6.7 5.65 RPP XBPM1In1 182.6338540639 184.0838540639 -1.04 1.04 1578.1598856204 1580.6598856204 RPP XBPM1In2 182.8838540639 183.8338540639 -0.79 0.79 1580.6598856204 1581.1598856204 RPP XBPM1In3 177.7088540639 189.0088540639 -5.65 5.65 1581.1598856204 1581.6598856204 RPP XBPM1In4 182.7838540639 183.9338540639 -0.94 0.94 1581.6598856204 1584.8598856204 PLA XBPM1In5 0.0 -.9950555699611 .09931974974363 183.3588540639 -.9090958024725 1579.4715765496 PLA XBPM1In6 0.0 .9950555699611 .09931974974363 183.3588540639 .890378941= 79985 1579.6589253111 PLA XBPM1In7 -.9950555699612 0.0 .09931974974363 182.7012788679 0.0 1578.8355950428 PLA XBPM1In8 .99505556996123 0.0 .09931974974364 184. 0.0 1579. * XBPM-2 RCC XBPM2Out 184.12954977239 0.0 1954.7029494594 0.0 0.0 6.7 5.65 RPP XBPM2In1 183.22954977239 185.02954977239 -1.275 1.275 1954.7029494594 1957.2029494594 RPP XBPM2In2 183.47954977239 184.77954977239 -1.026 1.024 1957.2029494594 1957.7029494594 RPP XBPM2In3 178.47954977239 189.77954977239 -5.65 5.65 1957.7029494594 1958.2029494594 RPP XBPM2In4 183.47954977239 184.97954977239 -1.125 1.125 1958.2029494594 1961.4029494594 PLA XBPM2In5 0.0 -.9950555699612 .09931974974364 184.12954977239 -1.275 1954.7029494594 PLA XBPM2In6 0.0 .99505556996123 .09931974974364 184.12954977239 1.2159420092094 1955.2545406835 PLA XBPM2In7 -.9950555699612 0.0 .09931974974364 183.33924379772 0.0 1955.8019818671 PLA XBPM2In8 .99505556996123 0.0 .09931974974364 185. 0.0 1955. * Photon Shutter RCC PSOut 56. 0.0 2197.5 0.0 0.0 16. 3.81 RCC PSIn1 56. 0.0 2197.5 0.0 0.0 1.5 1.925 RPP PSIn2a 54.8 57.2 -0.6 0.6 2199. 2210.4 PLA PSIn2b .99452189536824 0.0 .10452846326765 55.974168960295 0.0 2210.6972850483 RPP PSIn3 54.8 56. -0.6 0.6 2210.4 2212. RCC PSIn4 56. 0.0 2212. 0.0 0.0 1.5 1.925 * HPS-1 RPP HPS1Out 144.351 185.791 -20.72 20.72 2155. 2165.5 RPP HPS1In 165. 165.142 -.071 .071 2155. 2165.5 * HPS-2 RPP HPS2Out 144.352 185.792 -20.72 20.72 2180. 2190.5 RPP HPS2In 165. 165.144 -.072 .072 2180. 2190.5 * Slits 1 RCC SlitsOut 61.450934381378 0.345 2121.5 0.0 0.0 16. 3.81 RCC SlitsIn3 61.450934381378 0.35 2135.3 0.0 0.0 2.2 1.945 RPP SlitsIn2 60.655934381378 61.555934381378 -0.45 0.45 2132.1 2135.3 RPP SlitsIn1 60.655934381378 62.245934381378 -0.45 1.14 2121.5 2132.1 PLA SlitsIn4 0.0 .99780146829221 .06627390040001 61.105855739833 1.1044855544075 2122.1069399228 PLA SlitsIn5 .997801468292 0.0 .0662739004 62.16820738105 0.0 2122.757272= 1094 * Slits 2 RCC SlitsOu1 60.760934381378 -0.345 2157.5 0.0 0.0 16. 3.81 RCC SlitsIn6 60.760934381378 -0.35 2171.3 0.0 0.0 2.2 1.945 RPP SlitsIn7 60.655934381378 61.555934381378 -0.45 0.45 2168.1 2171.3 RPP SlitsIn8 59.965934381378 61.555934381378 -1.14 .45 2157.5 2168.1 PLA SlitsIn9 0.0 -.9978014682922 .06627390040001 61.105855739833 -1.114525195483 2157.8705706014 PLA SlitsI10 -.997801468292 0.0 .0662739004 60. 0.0 2158. * Plug RCC PlugPb1 1.8 0.0 3100. 4.2617492936359216E-16 -6.959964777767953 1159.9791200234133 5.075 RCC Plughole 0.0 0.0 3100. 4.2617492936359216E-16 -6.959964777767953 1159.9791200234133 3. RPP PlugPb2 -8.75 12.35 -11.850000000000001 9.25 3310.3 3311.3 RPP PlugPb3 -8.75 12.35 -11.850000000000001 9.25 3311.3 3313.84 RPP PlugPb4 -6.21 9.81 -9.31 6.71 3311.3 3313.84 #if 0 RCC PlugPb2 1.8 -1.4 3310. 0.0 0.0 1.500000000000 15. #endif #if 0 RCC PlugPb3 1.8 -1.4 3311.5 0.0 0.0 1.3000000000002 15. #endif #if 0 RCC PlugPb4 1.8 -1.4 3311.5 0.0 0.0 1.2999999999999 13. #endif RCC PlugPb5 1.8 0.0 3100. 2.6819629175467453E-16 -4.3799778342850075 729.9868600147345 3.825 * Guilhotina RPP Guilh -48.2 51.8 -50. 50. 3297. 3302. * Guilhotina RPP Guilh2 -8.75 12.35 -11.85 9.2 3310.3 3320.6 RCC Cilin5 1.8 0.0 3100. 0.0 -6.960090164005 1160.0000174592 1.755 * Tungsten Stop1 RPP Stop1Ou1 -3.9 7.5 -5.65 5.65 3060. 3070. * Tungsten Stop2 RPP Stop2Ou1 -3.15 11.25 -5.05 5.05 3260. 3270. XYP hole41 3318. * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * -----------BEAMLINES (z=3D0, y=3D0, x=3D0 center of straight)----------- * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * Storage ring ZCC ExtPipe1 0.0 0.0 3.175 ZCC IntPipe1 0.0 0.0 3.025 * Plano dipolo down XYP Dip1D1 518.2 * * boundaries of geometry * RPP Air1 -200. 1150. -350. 350. -517. 4620. RPP gamash1 -22. -9.9 -3.75 3.75 2279. 2286.5 XYP FrontO1 2520. * Fe Mask RCC FMaskOu1 0.0 0.0 2075. 0.0 0.0 24.6 3.81 * Fe Gamma Shutter RPP FeGSOut1 -3.75 8.35 -3.75 3.75 2321. 2346. * XBPM-1 RCC XBPM1Ou1 183.3588540639 0.0 1578.1598856204 0.0 0.0 6.7 5.65 * XBPM-2 RCC XBPM2Ou1 184.12954977239 0.0 1954.7029494594 0.0 0.0 6.7 5.65 * HPS-1 RPP HPS1Out1 144.351 185.791 -20.72 20.72 2155. 2165.5 * HPS-2 RPP HPS2Out1 144.352 185.792 -20.72 20.72 2180. 2190.5 * Photon Shutter RCC PSOut1 0.6 0.0 2219. 0.0 0.0 16. 3.81 * Slits RCC SlitsOu2 0.345 0.345 2134. 0.0 0.0 16. 3.81 * Slits RCC SlitsOu3 -0.345 -.345 2170. 0.0 0.0 16. 3.81 * Plano dipolo UP XYP Dip1U1 517. XYP hole42 2953.175 RPP Cilin6 -0.2 1.95 -1.7 1.7 2948.245 2951.755 XYP hole43 2953.025 RCC ExtP5 1.8 0.0 2946.825 0.0 0.0 153.325 3.175 RCC Cilin7 1.8 0.0 2946.975 0.0 0.0 153.125 3.025 RCC Cilin8 1.8 0.0 3100. 0.0 -6.960090164005 1160.0000174592 3.025 * Camara de v??cuo ap??s Out Shielding Wall RCC Cilin9 0.0 0.0 2520. 0.0 0.0 433.025 3.025 * Tungsten Stop1 RPP Stop1Ou2 -3.9 7.5 -5.65 5.65 3050. 3060. * Tungsten Stop2 RPP Stop2Ou2 -3.15 11.25 -5.05 5.05 3250. 3260. RPP ExtP6 0.0 1.8 -1.85 1.86 2948.1 2951.905 RCC ExtP7 1.8 0.0 3100. 0.0 -6.96099017925 1160.1500180592 3.175 XYP hole44 3318. RPP Targ1 -10. 10. -10. 10. 1870. 1890. RPP Targ2 -10. 10. -10. 10. 1890. 1900. * * ------------------------------------------------------------------------ END * include region data from:l * /home/ott/flsir/sirius.alife * * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3DREGION DEFINITIONS=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * * * * * * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * ---------------------- BLACK HOLE AROUND GEOMETRY -----------------------= - * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * BLACKHOL 5 +Blackhol -Air KILLELE 5 +killel * V??cuo da parte interna da camara de v??cuo da linha de luz ?? direita InsideSR 5 +IntPipe +Dip1U+Air * Iron vaccum pipe InoxUpG1 5 +ExtPipe -IntPipe -Dip1D +Air -gamash +FrontO +FrontO -FMask= Out -FeGSOut -XBPM1Out -XBPM2Out -HPS1Out -HPS2Out -PSOut -SlitsOut -SlitsOu1 -plugo -Plugo= 1 | +ExtPipe -IntPipe +Dip1U +Air * Parte interna da camara de vacuo da linha de luz ?? esquerda at?? se????o= de corte InsideF1 5 +IntPipe -Dip1D +Air -gamash +FrontO +FrontO -FMaskOut -FeGS= Out -XBPM1Out -XBPM2Out -HPS1Out -HPS2Out -PSOut -SlitsOut -SlitsOu1 -plugo -Plugo1 * Parte interna da camara de vacuo da linha de luz ?? esquerda at?? se????o= de corte InsideF2 5 +Cilin1 | +Cilin2 | +Cilin7 -Stop1Out | +Cilin4 -Stop1Out -Stop2Out -Guilh +BackIn | +Stop2Out +Stop2In | +Stop1Out +Stop1In * BlackHole colimando para 1.5mm - Peda??o 3 BH3 5 +IntPipe -PipeInBH -Dip1D+Air-P1DtUp * * * * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * --------------------------------------- TUNNEL -------------------------= ---------------- * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * * * Floor GROUNDFL 5 +Air -PisoOut +PisoIn * * Beneath Floor SobrePis 5 +Air +PisoOut * Ceiling ROOF 5 +Air -TetoIn +TetoOut -TunExtO -TunelOut +FrontO R13 5 +Air -TetoIn +TetoOut -LeftDO -TunelOut -FrontO -TetoIn * * left wall upstream TUNELEXT 5 +Air -PisoIn +TetoIn -TunExtO +TunExIn +FrontO * * front wall FRONTWAL 5 +Air -PisoIn +TetoIn -TunExIn +LeftDI +FrontO -FrontI -ExtPi= pe -plugin -plugo -Plugo1 -plugo1 -Plugo2 -plugin1-plugin2 -plugin3 | +plugin1 -Plugo2 |+plugin1 -plugo1 * * left wall downstream LEFTWALL 5 +Air -PisoIn +TetoIn -LeftDO +LeftDI -FrontO -FrontO * * right wall (circular) TUNELIN 5 +Air -PisoIn +TetoIn -TunelOut +TunelIn * * ---------------------- TUNNEL AIR --------------------------------- * * upstream TUNELAIR 5 +Air -PisoIn +TetoIn -TunExIn -TunelIn +Dip1U -ExtPipe * * around dipole chamber AIRDIPD 5 +Air -PisoIn +TetoIn -TunExIn -Dip1U +Dip1D -killel * downstream 1 AIRDOWNS 5 +Air -PisoIn +TetoIn -TunExIn -TunelIn -Dip1D +FrontI -ExtPi= pe -chicaca1 -chicaca2 -XBPM1Out -XBPM2Out -HPS2Out -HPS1Out -Targ1 -Targ2 | +RefLim -ExtPipe * * downstream 2 AIRLEFT 5 +Air -PisoIn +TetoIn -LeftDI -TunelIn -FrontI -hole32 +hole3= 1 -TubeExt1 * * ---------------------- AIR OUTSIDE TUNNEL ------------------------------- * * upstream left side AIRTUNO 5 +Air -PisoOut +TunExtO +FrontO -PisoIn | +Air -FrontO +TunExtO +BackOut +hole30 -hole31 | +Air -FrontO +TunExtO +BackOut +hole32 -hole33 * right side, AIR IN CENTER OF THE MACHINE AIRCENTE 5 +Air -PisoOut +TunelOut -PisoIn * * above Tunnel upstream AIRROOFO 5 +Air -TetoOut -TunExtO -TunelOut +FrontO * above Tunnel downstream R27 5 +Air -TetoOut -LeftDO -TunelOut -FrontO PLUG 5 +plugo2 -plugin | +plugo1 -plugin1 PLUGI 5 +plugin +plugo -ExtPipe | +plugin -ExtPipe -FrontI -plugo | +plugin2 | +plugin3 PLUGO1 5 +Plugo3 -plugin | +Plugo2 -plugin1 | +plugo3 #if 0 STOP 5 +G_stop2 -RefLim #endif #if 0 GAMASH 5 +gamash -gamahol | +ExtPipe +gamash -IntPipe #endif #if 0 MASC 5 +masc3 -hole3 -hole4 | +masc4 -hole10 | +masc4 +hole10 +hole11 -hole6 -hole12 | +masc4 +hole10 +hole11 -hole5 | +masc4 -hole11 -hole12 | +masc5 -hole14 -hole17 | +masc5 +hole16 -hole13 -hole14 -hole15 | +masc5 +hole13 +hole16 +hole17 -hole14 -hole15 | +masc5 +hole15 +hole17 | +masc5 +hole17 -hole13 -hole14 -hole16 | +masc6 +hole18 +hole19 +hole21 -hole20 | +masc6 +hole19 -hole18 -hole22 | +masc6 -hole19 | +masc6 +hole18 +hole20 | +masc6 -hole18 +hole20 #endif * chicane CHICAFER 5 +chicaca1 | +chicaca2 * air inside the hutch AIRCAB 5 +Air +LeftDO -FrontO -PisoIn -SideIn -SideIn +BackIn +RoofIn= -Cilin1 -ExtPipe -ExtP2 -ExtP3 +hole35 -ExtP4 -Cilin2 -Cilin3 -Cilin4 -Stop1Out -Stop2Out= -hole393 | +Plugo1 -Plugo3 | +plugo -plugo3 -plugo2 | +Air +ExtPipe +hole35 -hole28 -Stop1Out -Stop2Out -ExtP3= -ExtP4 -ExtP5 | +Air -ExtP4 +BackIn +RoofIn -hole35 -SideIn -PisoIn +Lef= tDO -PlugPb2 -Guilh -hole393 | +Air -hole35 +hole31 -hole32 -ExtP3 +LeftDO -SideIn -Ext= P4 -TubeExt1 +BackIn -BackOut | +Air -LeftDI -FrontO -PisoIn +hole32 | +Air -FrontI +FrontO -PisoIn +BackIn +hole33 -LeftDI | +Air -FrontI +FrontO -PisoIn +BackIn -hole33 +hole32 -Le= ftDI | +Stop1In +Stop1Out -ExtP3 | +Stop2In +Stop2Out -ExtP4 | +Air -hole34 +TubeExt1 | +Air -FrontI +FrontO +TetoIn +BackIn -hole31 -LeftDI | +Air -BackIn +TubeExt1 -ExtP4 +BackOut -PlugPb1 | +Air -LeftDI -FrontO +hole35 -hole31 +TetoIn | +Air -LeftDI -FrontO -hole31 +TetoIn | +Air -SideIn +plano2m -hole391 +hole393 -PisoIn +RoofIn | +Air -plano2m +plano1m5 -hole392 +hole393 -PisoIn +RoofI= n * air outside the tunnel AIROUT 5 +Air +BackOut +TunExtO -FrontO +TunExIn -PisoIn -hole30 | +Air -RoofOut -FrontO +hole37 +LeftDO | +Air +BackOut +TunExtO -FrontO +TunExIn -PisoIn +hole31 = -hole32 | +Air +BackOut +TunExtO -FrontO +TunExIn -PisoIn +hole33 | +Air -BackOut +TunExtO -hole30 -RoofIn +TetoOut | +Air +TetoIn -hole32 +hole33 +TunExtO -hole35 | +Air -BackOut +TetoOut -PisoIn +LeftDO -ExtP4 -Guilh -Pl= ugPb2 -PlugPb3 -PlugPb1 +EndPlug -Guilh2 | +Air +SideIn +hole31 -hole32 -BackOut | +Air -hole34 +hole32 -hole33 +LeftDO -ExtP4 | +Air -BackOut +TetoOut -PisoIn +LeftDO -ExtP4 -Guilh -En= dPlug -Guilh2 | +Air +hole403 -TunExtO +BackOut -PisoIn +TetoOut | +Air -TunExtO +plano2m +hole401 -hole403 -PisoIn +RoofIn | +Air -TunExtO -plano2m +plano1m5 +hole402 -hole403 -Piso= In +RoofIn | +Air +PlugPb5 -ExtP4 +EndPlug -BackIn | -ExtP4 +PlugPb1 -EndPlug +Guilh2 | +Air +Guilh -ExtP4 +TubeExt2 FOEWALL 5 +Air -BackIn +BackOut +RoofIn -SideIn -TubeExt1 +TetoOut -Pi= soIn +LeftDO -hole391 | +Air +SideIn -TunExtO -FrontO +BackOut -PisoIn +RoofOut = -hole391 | +Air -RoofIn +RoofOut +hole37 -FrontO +LeftDO -TunExtO += BackOut -hole403 | +hole391 -hole401 -TunExtO +BackOut +RoofIn -PisoIn +pla= no2m | +hole392 -hole402 -TunExtO +BackOut +RoofIn -PisoIn -pla= no2m +plano1m5 | +hole393 -hole403 -TunExtO +BackOut +RoofIn -PisoIn -pla= no1m5 XBPM1 5 +XBPM1Out -XBPM1In1 -XBPM1In2 -XBPM1In3 -XBPM1In4 | +XBPM1In1 -XBPM1In5 +XBPM1In6 | +XBPM1In1 -XBPM1In6 | +XBPM1In1 -XBPM1In7 +XBPM1In8 | +XBPM1In1 -XBPM1In8 | +XBPM1Out XBPM2 5 +XBPM2Out -XBPM2In1 -XBPM2In2 -XBPM2In3 -XBPM2In4 | +XBPM2In1 -XBPM2In5 +XBPM2In6 | +XBPM2In1 -XBPM2In6 | +XBPM2In1 -XBPM2In7 +XBPM2In8 | +XBPM2In1 -XBPM2In8 | +XBPM2Out * Tungsten Stop 1 WSTOP1 5 +Stop1Out -Stop1In * Tungsten Stop 2 WSTOP2 5 +Stop2Out -Stop2In #if 0 * Fe Gamma Shutter GAMASHUT 5 +FeGSOut -FeGSIn #endif #if 0 * Fe Mask FEMASK 5 +FMaskOut -FMaskIn2 -FMaskIn1 -FMaskIn3 #endif #if 0 * Fe Slits (pdf manaca) - conflito com HPS-1 FESLITS 5 +FSlitOut -FSlitIn #endif #if 0 * Photon Shutter PHOSHUT 5 #endif HPS1 5 +HPS1Out -HPS1In | +HPS1In HPS2 5 +HPS2Out -HPS2In | +HPS2In +HPS2Out #if 0 * first Slits SLITS1 5 +SlitsOut -SlitsIn1 -SlitsIn2 -SlitsIn3 | +SlitsIn1 +SlitsIn4 -SlitsIn5 | +SlitsIn1 +SlitsIn5 -SlitsIn4 | +SlitsIn1 -SlitsIn4 -SlitsIn5 #endif #if 0 * second Slits SLITS2 5 +SlitsOu1 -SlitsIn6 -SlitsIn7 -SlitsIn8 | +SlitsIn8 +SlitsIn9 -SlitsI10 | +SlitsIn8 +SlitsI10 -SlitsIn9 | +SlitsIn8 -SlitsIn9 -SlitsI10 #endif * Lead Plug after hutch PLUGPB 5 +PlugPb1 -PlugPb5 +EndPlug -BackIn -ExtP4 | +PlugPb2 -ExtP4 -PlugPb5 | +PlugPb3 -PlugPb4 * Guillotine GUILHOT 5 +Guilh -TubeExt2 * Guillotine GUILHOT1 5 +Guilh2 -ExtP4 -PlugPb2 -PlugPb3 -PlugPb1 | +PlugPb4 -PlugPb1 * Vaccum pipe InoxUpG2 5 +ExtPipe1 -IntPipe1 -FrontO1 +hole42 +Air1 -Cilin6 +hole43 -= Cilin3 | +ExtP5 -Cilin7 +Air1 -Cilin6 -Cilin8 -Cilin9 -Stop1Ou2 -= Stop2Ou2 | +ExtP6 -Cilin6 +Air1 -Cilin7 -Cilin9 | -hole43 +hole42 +IntPipe1 -Cilin7 -Cilin8 | +ExtP7 -Cilin8 +Air1 -Cilin7 -Stop1Ou2 -Stop2Ou2 -Guilh = +BackIn | +ExtPipe1 -Cilin9 -hole43 +hole42 -Cilin7 * Inside pipe (optional) InsideF3 5 +Cilin4 -Stop1Out -Stop2Out -BackIn | +Guilh +Cilin4 * Vaccum pipe (optional) InoxUpG3 5 +ExtP4 -Cilin4 +Air -Cilin3 -Stop1Out -Stop2Out -BackIn | +Guilh +ExtP4 -Cilin4 TARG1 5 +Targ1 -ExtPipe TARG2 5 +Targ2 -ExtPipe END 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. GEOEND ASSIGNMA BLCKHOLE BLACKHOL 0.0 ASSIGNMA STEEL InoxUpG1 0.0 ASSIGNMA GAS InsideSR 0.0 ASSIGNMA VACUUM InsideF1 0.0 ASSIGNMA PITWALL GROUNDFL 0.0 ASSIGNMA BLCKHOLE SobrePis 0.0 ASSIGNMA PITWALL ROOF 0.0 ASSIGNMA PITWALL R13 0.0 ASSIGNMA PITWALL TUNELEXT 0.0 ASSIGNMA PITWALL FRONTWAL 0.0 ASSIGNMA PITWALL LEFTWALL 0.0 ASSIGNMA BLCKHOLE TUNELIN 0.0 ASSIGNMA AIR TUNELAIR 0.0 ASSIGNMA AIR AIRDIPD 0.0 ASSIGNMA AIR AIRDOWNS 0.0 ASSIGNMA AIR AIRLEFT 0.0 ASSIGNMA AIR AIRTUNO 0.0 ASSIGNMA BLCKHOLE AIRCENTE 0.0 ASSIGNMA AIR AIRROOFO 0.0 ASSIGNMA AIR R27 0.0 ASSIGNMA VACUUM BH3 0.0 * Electron Beam (for Bremsstrahlung Simulation) BEAM -3. 0.0 -1E-06 -1E-05 -1E-05 1.ELECT= RON * Electron Beam (for Bremsstrahlung Simulation) BEAMPOS 0.0 0.0 -517. 0.0 0.0 0.0 LAM-BIAS 0.0 0.01 BLCKHOLE PHOTON * activates heavy fragment evaporation (up to A=3D24), essential for activa= tion * calculations PHYSICS 3. EVAPO= RAT *PHYSICS 1000. 1000. 1000. 1000. 1000. 1000.PEAT= HRES * coalescence, better to activate if light fragments are of interest (e.g. * tritium) PHYSICS 1. COALE= SCE ASSIGNMA AIR InoxUpG2 ASSIGNMA POLYETHE PLUG 0.0 ASSIGNMA AIR PLUGI 0.0 ASSIGNMA ACO PLUGO1 0.0 *ASSIGNMA AIR STOP 0.0 *ASSIGNMA AIR GAMASH 0.0 *ASSIGNMA COPPER MASC ASSIGNMA AIR AIRCAB ASSIGNMA STEEL CHICAFER ASSIGNMA AIR KILLELE ASSIGNMA AIR AIROUT ASSIGNMA AIR FOEWALL ASSIGNMA AIR WSTOP1 ASSIGNMA AIR WSTOP2 *ASSIGNMA AIR GAMASHUT *ASSIGNMA AIR FEMASK *ASSIGNMA AIR FESLITS ASSIGNMA AIR XBPM1 ASSIGNMA AIR XBPM2 *ASSIGNMA AIR PHOSHUT ASSIGNMA AIR HPS1 ASSIGNMA AIR HPS2 *ASSIGNMA AIR SLITS1 ASSIGNMA AIR InoxUpG3 *ASSIGNMA AIR SLITS2 ASSIGNMA AIR PLUGPB ASSIGNMA AIR GUILHOT ASSIGNMA AIR InsideF3 ASSIGNMA AIR InsideF2 ASSIGNMA AIR GUILHOT1 ASSIGNMA COPPER TARG1 ASSIGNMA SS316LN TARG2 * ..+....1....+....2....+....3....+....4....+....5....+....6....+....7....+= ....8 * Suppress multiple scattering in the air target MULSOPT 0.0 0.0 3. GAS 0.0 * Suppress Moller scattering in the air target *EMFCUT 0.0 3.5 0.0 GAS 0.0ELPO= -THR * Kill beam electrons by a high energy transport cutoff at the end * of the straight section EMFCUT 3.5 0.000001 0.0 KILLELE * Activates Gamma Interactions with Nuclei *PHOTONUC 1. HYDROGEN _at_LASTMAT * Activate muon pair coherent production * *PHOTONUC 1. 1.E-4 0.0 HYDROGEN _at_LASTMAT MUMU= PAIR PHOTONUC 1. 0.0 0.0 HYDROGEN _at_LASTMAT * The hadronic inelastic interaction length of the particle is reduced by a= multiplying factor 0.02. *LAM-BIAS 0.0 0.02 PHOTON * Desactivate bremsstrahlung and pair production in black hole region *EMF-BIAS 1021. 0.0 6. BLACKHOL _at_LASTREG * Defines the particle types to be discarded. * In this case, neutrinos and antineutrinos. DISCARD NEUTRIE ANEUTRIE * Sets energy transport cutoffs for photons PART-THR -1E-05 PROTON APROTON * Sets energy transport cutoffs for antineutrons PART-THR -1E-05 ANEUTRON _at_LASTPAR * Energy threshold for electron and positron production in GeV *EMFCUT -0.0001 1.0E-5 1. HYDROGEN _at_LASTMAT PROD= -CUT * Energy transport threshold for electrons/positrons/gammas in GeV *EMFCUT -1E-05 1.0E-5 0.0 InsideSR _at_LASTREG * ---------------------------- RUN -------------------------------------= ---------- RANDOMIZ 1. START 1000. STOP * Irradiation profile * ------------------- RADDECAY 1. 3.0 99999 * 7days intensity 4days intensity 7days intensity IRRPROFI 604800. 100000. 345600. 0.0 604800. 100000. * 4days intensity 7days intensit IRRPROFI 345600. 0.0 604800. 100000. * Specific activity DCYSCORE 1. Copper-1h Inox-1h RESNU= CLE RESNUCLE 3. -61. TARG1 7425.05Coppe= r-1h RESNUCLE 3. -61. TARG2 3425.05Inox-= 1h DCYSCORE 2. Copper-1m Inox-1m RESNU= CLE RESNUCLE 3. -62. TARG1 7425.05Coppe= r-1m RESNUCLE 3. -62. TARG2 3425.05Inox-= 1m DCYSCORE 1. Copbin-1hInoxbin-1h USRBI= N USRBIN 11. ACTIVITY -63. 10. 0.0 1890.Copbi= n-1h USRBIN 0.0 0.0 1870. 1. 1. 1. & USRBIN 11. ACTIVITY -63. 10. 0.0 1900.Inoxb= in-1h USRBIN 0.0 0.0 1890. 1. 1. 1. & DCYSCORE 2. Copbin-1mInoxbin-1m USRBI= N USRBIN 11. ACTIVITY -63. 10. 0.0 1890.Copbi= n-1m USRBIN 0.0 0.0 1870. 1. 1. 1. & * Cooling: 1hour 1month DCYTIMES 3600. 2592000. USRBIN 11. ACTIVITY -63. 10. 0.0 1900.Inoxb= in-1m USRBIN 0.0 0.0 1890. 1. 1. 1. & * Dose equivalent DCYSCORE 1. DoseEq1h DoseEq1h USRBI= N AUXSCORE USRBIN DoseEq1h EWT74 USRBIN 11. DOSE-EQ -64. 50. 0.0 2000.DoseE= q1h USRBIN 0.0 0.0 1800. 500. 1. 2000. & DCYSCORE 2. DoseEq1m DoseEq1m USRBI= N AUXSCORE USRBIN DoseEq1m EWT74 USRBIN 11. DOSE-EQ -64. 50. 0.0 2000.DoseE= q1m USRBIN 0.0 0.0 1800. 500. 1. 2000. & STOP ActivationSync.flair #!/usr/local/flair/flair # FLUKA Project file Version: 2 Title: Teste de Ativacao Input: ActivationSync.inp Submit: *Default Tabs: 0.1 0.32 0.56 0.81 1.0 Page: Input DefMain: True LinkPrg: lfluka F77bound: True F77dline: False # Run information Run: <default> Prev: 0 Last: 5 Status: 3 Pid: 0 StartRun: 0 Family: ActivationSync_aa ActivationSync_ab # USRxxx data file: ActivationSync_61.rnc Data: \I_\U.\e Unit: 61 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_62.rnc Data: \I_\U.\e Unit: 62 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_63.bnn Data: \I_\U.\e Unit: 63 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_64.bnn Data: \I_\U.\e Unit: 64 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End End # Run information Run: ActivationSync_aa Rnd: 1 Prev: 0 Last: 5 Status: 3 Pid: 0 StartRun: 1579007098 Parent: <default> # USRxxx data file: ActivationSync_aa_61.rnc Data: \I_\U.\e Unit: 61 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_aa_62.rnc Data: \I_\U.\e Unit: 62 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_aa_63.bnn Data: \I_\U.\e Unit: 63 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_aa_64.bnn Data: \I_\U.\e Unit: 64 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End End # Run information Run: ActivationSync_ab Rnd: 2 Prev: 0 Last: 5 Status: 3 Pid: 0 StartRun: 1579007098 Parent: <default> # USRxxx data file: ActivationSync_ab_61.rnc Data: \I_\U.\e Unit: 61 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_ab_62.rnc Data: \I_\U.\e Unit: 62 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_ab_63.bnn Data: \I_\U.\e Unit: 63 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_ab_64.bnn Data: \I_\U.\e Unit: 64 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End End # Material Material: MOLYBDEN alpha: 0 color: #70B090 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: BARIUM alpha: 0 color: #907010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: ACO alpha: 0 color: #B05070 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: PITWALL alpha: 0 color: #50B010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: STDAIR1 alpha: 0 color: #20B010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: B4C alpha: 0 color: #90D010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: POLYETHE alpha: 0 color: #30D0B0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: TISSTUM alpha: 0 color: #7010B0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: DIOXSI alpha: 0 color: #301070 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: TISSGEN alpha: 0 color: #B010B0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: STDAIR alpha: 0 color: #C0B0D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: GAS alpha: 0 color: #301030 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: SAND alpha: 0 color: #D0B0D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: CHLORINE alpha: 0 color: #503010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: SS316LN alpha: 0 color: #401010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: AL5080 alpha: 0 color: #D0D0D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: NIOBIUM alpha: 0 color: #7030D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: WETSOIL alpha: 0 color: #709030 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: BPAdenso alpha: 0 color: #30D030 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: TISSEYE alpha: 0 color: #E010D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: MANGANES alpha: 0 color: #B050D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: HAEMATIT alpha: 0 color: #803010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: POTASSIU alpha: 0 color: #70B0B0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: HPM1850 alpha: 0 color: #901090 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: STEEL2 alpha: 0 color: #401090 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: BACONC alpha: 0 color: #50D090 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Geometry Information Geometry: Frame.bsplit: 0.5 Frame.tsplit: 0.5 Frame.vsplit: 0.5 End # Geometry plot "GeoViewer Red plot" Plot: Red Format: .eps Type: Geometry basisu: 1 0 0 basisv: 0 1 0 boundaries: 1 coord: X-Y extends: 100 75 labels: 1 layer: Media origin: 0 0 0 subtype: Material title: GeoViewer Red plot End # Geometry plot "GeoViewer Green plot" Plot: Green Format: .eps Type: Geometry basisu: 0 0 1 basisv: 1 0 0 boundaries: 1 coord: Z-X extends: 100 75 labels: 1 layer: Media origin: 0 0 0 subtype: Material title: GeoViewer Green plot End # Geometry plot "GeoViewer Blue plot" Plot: Blue Format: .eps Type: Geometry basisu: 0 0 1 basisv: 0 1 0 boundaries: 1 coord: Z-Y extends: 619.174 290.541 labels: 1 layer: Media origin: 0 -60.9333 2903.19 subtype: Material title: GeoViewer Blue plot End # Geometry plot "GeoViewer Magenta plot" Plot: Magenta Format: .eps Type: Geometry basisu: -1 0 0 basisv: 0 1 0 boundaries: 1 coord: X-Y extends: 100 75 labels: 1 layer: Media origin: 0 0 0 subtype: Material title: GeoViewer Magenta plot End __________________________________________________________________________ You can manage unsubscription from this mailing list at https://www.fluka.org/fluka.php?id=3Dacc_info --_005_RO1P15201MB2156C0619B2F292ACA4D738F870C0RO1P15201MB2156_-- __________________________________________________________________________ You can manage unsubscription from this mailing list at https://www.fluka.o= rg/fluka.php?id=3Dacc_info -- Dr. Tamer Tolba Forschungszentrum J=C3=BClich Institut f=C3=BCr Kernphysik (IKP) 52425 J=C3=BClich, Germany Tel.: +49 2461 61 6860 Fax.: +49 2461 61 96415 ---------------------------------------------------------------------------= --------------------- ---------------------------------------------------------------------------= --------------------- Forschungszentrum Juelich GmbH 52425 Juelich Sitz der Gesellschaft: Juelich Eingetragen im Handelsregister des Amtsgerichts Dueren Nr. HR B 3498 Vorsitzender des Aufsichtsrats: MinDir Volker Rieke Geschaeftsfuehrung: Prof. Dr.-Ing. Wolfgang Marquardt (Vorsitzender), Karsten Beneke (stellv. Vorsitzender), Prof. Dr.-Ing. Harald Bolt, Prof. Dr. Sebastian M. Schmidt ---------------------------------------------------------------------------= --------------------- ---------------------------------------------------------------------------= --------------------- --------------DA108F1BCA53672CC496F18B Content-Type: text/html; charset="utf-8" Content-Transfer-Encoding: quoted-printable <html> <head> <meta http-equiv=3D"Content-Type" content=3D"text/html; charset=3Dutf-8"> </head> <body> <p>Dear Paola,</p> <p>Actually, I am facing the same problem as Letcia! I am simply running th= e code in the example and I am also getting an empty data file. When I chec= ked the *.err file I found:</p> <p><font size=3D"2"><span style=3D"font-size:10pt;">Abort called from FLRM6= 4 reason NO RANDOM FILE Run stopped!<br> STOP NO RANDOM FILE</span></font></p> Do you have any advice? <div class=3D"moz-cite-prefix"><br> </div> <div class=3D"moz-cite-prefix">Regards,</div> <div class=3D"moz-cite-prefix">Tamer<br> </div> <div class=3D"moz-cite-prefix"><br> </div> <div class=3D"moz-cite-prefix">On 22.01.2020 12:42, Let??cia Braga da Rosa = wrote:<br> </div> <blockquote type=3D"cite" cite=3D"mid:202001221240.00MCeHxd157306_at_smtp3.mi.= infn.it"> <pre class=3D"moz-quote-pre" wrap=3D"">Dear Paola, I am currently trying to simulate the irradiation of a material and the dos= e from the activation. I am using??RADDECAY, IRRPROFI, DCYTIMES and DCYSCORE cards, and I already have gone??through the lectures from past courses. I believe that I am missing something important because I am getting an empty data set every time, I get no files to proces= s at all.?? I am attaching here my input file. Could you or anybody else try to help me please? Thank you in advance. Best regards, Let??cia Braga da Rosa Estagi??ria - Prote????o Radiol??gica - RADS Centro Nacional de Pesquisa em Energia e Materiais (CNPEM) Laborat??rio Nacional de Luz S??ncrotron (LNLS) <a class=3D"moz-txt-link-abbreviated" href=3D"mailto:leticia.rosa_at_lnls.br">= leticia.rosa_at_lnls.br</a> <a class=3D"moz-txt-link-abbreviated" href=3D"http://www.cnpem.br">www.cnpe= m.br</a> ?? <a class=3D"moz-txt-link-freetext" href=3D"cid:image001.png_at_01D4C444.68E957= 90">cid:image001.png_at_01D4C444.68E95790</a> ?? Aviso Legal: Esta mensagem e seus anexos podem conter informa????es confidenciais e/ou de uso restrito. Observe atentamente seu conte??do e considere eventual consulta ao remetente antes de copi??-la, divulg??-la ou distribu??-la. Se voc?? recebeu esta mensagem por engano, por favor avise o remetente e apague-a imediatamente. Disclaimer: This email and its attachments may contain confidential and/or privileged information. Observe its content carefully and consider possible querying to the sender before copying, disclosing or distributing it. If yo= u have received this email by mistake, please notify the sender and delete it immediately. ?? ___________________________________________________________________________= _ De: <a class=3D"moz-txt-link-abbreviated" href=3D"mailto:owner-fluka-discus= s_at_mi.infn.it">owner-fluka-discuss_at_mi.infn.it</a> <a class=3D"moz-txt-link-r= fc2396E" href=3D"mailto:owner-fluka-discuss_at_mi.infn.it"><owner-fluka-dis= cuss_at_mi.infn.it></a> em nome de Paola Sala <a class=3D"moz-txt-link-rfc2396E" href=3D"mailto:paola.sala_at_= mi.infn.it"><paola.sala_at_mi.infn.it></a> Enviado: domingo, 19 de janeiro de 2020 11:13 Para: <a class=3D"moz-txt-link-abbreviated" href=3D"mailto:fluka-discuss_at_fl= uka.org">fluka-discuss_at_fluka.org</a> <a class=3D"moz-txt-link-rfc2396E" hre= f=3D"mailto:fluka-discuss_at_fluka.org"><fluka-discuss_at_fluka.org></a> Assunto: Re: [fluka-discuss]: how to use FLUKA to score dose equivalent ?? Dear Obed, It is difficult to help without knowing exactly what you wish to do. If you wish to simulate both the irradiation of your material and the dose from the activation, you can do it in a single run by using the RADDECAY, IRRPROFI, DCYTIMES and DCYSCORE cards If you already have a distribution of radioactive nuclei, you can input them (one isotope at a time) through the BEAM card with sdum ISOTOPE. The source can be distributed within a given volume, see options CYLY-VOL etc. Dose equivalent ca be scored directly by asking DOSE-EQ as quantity. It is computed from particle fluences convoluted with conversion factors. I strongly suggest you to go through lectures from past courses, for instance <a class=3D"moz-txt-link-freetext" href=3D"https://indico.cern.ch/event/694= 979/contributions/2927152/attachments/16576">https://indico.cern.ch/event/6= 94979/contributions/2927152/attachments/16576</a> 58/2654336/Activation_2018.pdf Hope this helps Paola </pre> <blockquote type=3D"cite"> <pre class=3D"moz-quote-pre" wrap=3D"">Dear FLUKA experts I want to use FLUKA to score dose equivalent from an activated material. How should I do that? Thanks in advance. Obed -- +++++++++++++++= +++++++++++++++= +++++++++++++++= +++++++++++++++= ++++ iThemba LABS Old Faure Road Faure P. O. Box 722 Somerset West, 7129 South Africa <a class=3D"moz-txt-link-abbreviated" href=3D"http://www.tlabs.ac.za">www.t= labs.ac.za</a> Dr Obed Shirinda Computational Physicist: Instrumentation and Information Technology Department Office no: J-bolck, J158 Tel:???? +27 (0) 21 843 1547 Fax:???? +27 (0) 21 843 3525 Cell:?? +27 (0) 72 056 4314/ +27 (0) 78 253 6798 email: <a class=3D"moz-txt-link-abbreviated" href=3D"mailto:obed_at_tlabs.ac.z= a">obed_at_tlabs.ac.za</a> Alternative email: <a class=3D"moz-txt-link-abbreviated" href=3D"mailto:obe= dshirinda_at_yahoo.co.uk">obedshirinda_at_yahoo.co.uk</a> ???????????????????????????????????????? <a class=3D"moz-txt-link-abbreviat= ed" href=3D"mailto:obedshirinda_at_gmail.com">obedshirinda_at_gmail.com</a> +++++++++++++++= +++++++++++++++= +++++++++++++++= +++++++++++++++= ++++ __________________________________________________________________________ You can manage unsubscription from this mailing list at <a class=3D"moz-txt-link-freetext" href=3D"https://www.fluka.org/fluka.php?= id=3Dacc_info">https://www.fluka.org/fluka.php?id=3Dacc_info</a> </pre> </blockquote> <pre class=3D"moz-quote-pre" wrap=3D"">* ..+....1....+....2....+= ;....3....+....4....+....5....+....6....+....7... * * Sirius: Roof TITLE Teste de Ativacao GLOBAL 2000. 1. 1. * DEFAULT PRECISIO: see page 101 from Tutorial DEFAULTS PRECI= SIO * * * * FLUKA input produced by ALIFE from: * /home/ott/flsir/sirius.alife * User: ott * Date: Di 9. Jun 19:48:11 CEST 2015 MATERIAL 2.66 26. AL508= 0 MATERIAL 2.51 27. B4C MATERIAL 3.637 28. BACON= C MATERIAL 56. 137.33 3.59 29. BARIU= M MATERIAL 5. 10.811 2.34 30. BORON MATERIAL 17. 35.4527 2.9947E-3 31. CHLOR= INE MATERIAL 24. 51.9961 7.19 32. CHROM= IUM MATERIAL 3.70 33. HAEMA= TIT MATERIAL 18.5 34. HPM18= 50 MATERIAL 1. 1.0079 8.988E-5 3. 1.HYDRO= GEN MATERIAL 25. 54.93805 7.44 35. MANGA= NES MATERIAL 42. 95.94 10.2 36. MOLYB= DEN MATERIAL 41. 93. 8.4 37. NIOBI= UM MATERIAL 15. 30.97376 2.2 38. PHOSP= HO MATERIAL 2.35 39. PITWA= LL MATERIAL 0.95 40. POLYE= THE MATERIAL 19. 39.10 0.862 41. POTAS= SIU MATERIAL 1.6 42. SAND MATERIAL 0.001205 43. STDAI= R MATERIAL 2.96E-4 44. STDAI= R1 MATERIAL 8.11 45. STEEL MATERIAL 8.11 46. STEEL= 2 MATERIAL 16. 32.066 2. 47. SULFU= R MATERIAL 1.01 48. TISSE= YE MATERIAL 1.05 49. TISSG= EN MATERIAL 1.05 50. TISST= UM MATERIAL 1. 51. WATER MATERIAL 1.8 52. WETSO= IL MATERIAL 2.2 53. DIOXS= I * Choosing Bisphenol A as glue. Check correct information!!! <a class=3D"mo= z-txt-link-freetext" href=3D"http://www.lesker.com/msds/pdfs/b3feddd2e786b8= 8ac6354dcf0bc56168edc047c6ad23a03ffe574c4de.pdf">http://www.lesker.com/msds= /pdfs/b3feddd2e786b88ac6354dcf0bc56168edc047c6ad23a03ffe574c4de.pdf</a> * Density from STYCAST 2850 FT: <a class=3D"moz-txt-link-freetext" href=3D"= http://lartpc-docdb.fnal.gov/0000/000059/001/stycas2850.pdf">http://lartpc-= docdb.fnal.gov/0000/000059/001/stycas2850.pdf</a> MATERIAL 2.4 54. BPAde= nso MATERIAL 7.85 55. ACO * Stainless steel AISI316LN MATERIAL 7.8 SS316= LN COMPOUND 0.67145 IRON 0.185 CHROMIUM 0.1125 NICKELSS316= LN COMPOUND 0.02 MANGANES 0.01 SILICON 0.00045 PHOSPHOSS316= LN COMPOUND 0.0003 SULFUR 0.0003 CARBON SS316= LN * * Residual gas in the straight section (density corresponds to 1 atm) MATERIAL 2.96E-4 GAS COMPOUND -0.258427 HYDROGEN -0.337079 CARBON -0.404494 OXYGENGAS MAT-PROP 1. GAS COMPOUND 1. SILICON 2. OXYGENDIOXS= I COMPOUND 15. CARBON 16. HYDROGEN 2. OXYGENBPAde= nso COMPOUND -0.948 ALUMINUM -0.045 MAGNESIU -0.007 MANGANESAL508= 0 COMPOUND 4. BORON 1. CARBON B4C COMPOUND -0.004 HYDROGEN -0.312 OXYGEN -0.001 SODIUMBACON= C COMPOUND -0.004 MAGNESIU -0.006 ALUMINUM -0.018 SILICONBACON= C COMPOUND -0.1 SULFUR -0.046 CALCIUM -0.001 MANGANESBACON= C COMPOUND -0.088 IRON -0.421 BARIUM BACON= C COMPOUND -0.506 IRON -0.339 OXYGEN -0.005 BORONHAEMA= TIT COMPOUND -0.068 SILICON -0.048 CALCIUM -0.019 MAGNESIUHAEMA= TIT COMPOUND -0.01 ALUMINUM -0.004 HYDROGEN -0.001 MANGANESHAEMA= TIT COMPOUND -97.5 TUNGSTEN -1. IRON -1.5 NICKELHPM18= 50 COMPOUND -49.5 OXYGEN -0.5 BORON -20. SILICONPITWA= LL COMPOUND -19.5 CALCIUM -3. ALUMINUM -1. SODIUMPITWA= LL COMPOUND -1.4 IRON -0.6 HYDROGEN -3. CARBONPITWA= LL COMPOUND -0.5 MAGNESIU -1. POTASSIU PITWA= LL COMPOUND 2. HYDROGEN 1. CARBON POLYE= THE COMPOUND -0.03 HYDROGEN -0.63 OXYGEN -0.02 MAGNESIUSAND COMPOUND -0.04 ALUMINUM -0.23 SILICON -0.03 CALCIUMSAND COMPOUND -0.02 IRON SAND COMPOUND -0.000124 CARBON -0.755267 NITROGEN -0.231781 OXYGENSTDAI= R COMPOUND -0.012827 ARGON STDAI= R COMPOUND -0.25847 HYDROGEN -0.337079 CARBON -0.404494 OXYGENSTDAI= R1 COMPOUND STDAI= R1 MAT-PROP 1. STDAIR1 COMPOUND -0.6281 IRON -0.13 NICKEL -0.185 CHROMIUMSTEEL COMPOUND -0.025 MOLYBDEN -0.02 MANGANES -0.01 SILICONSTEEL COMPOUND -0.0003 CARBON -0.00045 PHOSPHO -0.00015 SULFURSTEEL COMPOUND -0.001 NITROGEN STEEL COMPOUND -0.6119 IRON -0.14 NICKEL -0.185 CHROMIUMSTEEL= 2 COMPOUND -0.03 MOLYBDEN -0.02 MANGANES -0.01 SILICONSTEEL= 2 COMPOUND -0.0003 CARBON -0.00045 PHOSPHO -0.00015 SULFURSTEEL= 2 COMPOUND -0.0022 NITROGEN STEEL= 2 COMPOUND -10.6 HYDROGEN -28.4 CARBON -2.6 NITROGENTISSE= YE COMPOUND -57.8 OXYGEN -0.2 SULFUR -0.2 CHLORINETISSE= YE COMPOUND -0.1 POTASSIU -0.1 PHOSPHO TISSE= YE COMPOUND -10.6 HYDROGEN -28.4 CARBON -2.6 NITROGENTISSG= EN COMPOUND -57.8 OXYGEN -0.2 SULFUR -0.2 CHLORINETISSG= EN COMPOUND -0.1 POTASSIU -0.1 PHOSPHO TISSG= EN COMPOUND -10.6 HYDROGEN -28.4 CARBON -2.6 NITROGENTISST= UM COMPOUND -57.8 OXYGEN -0.2 SULFUR -0.2 CHLORINETISST= UM COMPOUND -0.1 POTASSIU -0.1 PHOSPHO TISST= UM COMPOUND 2. HYDROGEN 1. OXYGEN WATER COMPOUND -3. HYDROGEN -62. OXYGEN -2. MAGNESIUWETSO= IL COMPOUND -4. ALUMINUM -2. IRON -4. CALCIUMWETSO= IL COMPOUND -23. MUSCLEST WETSO= IL COMPOUND -0.0029 CARBON -0.002 COPPER -0.98 IRONACO COMPOUND -0.0103 MANGANES -0.0004 PHOSPHO -0.0028 SILICONACO COMPOUND -0.0005 SULFUR ACO GEOBEGIN 0.0 COMBN= AME 3 0 LABORDE * * * BODY DEFINITIONS * ---------------- * * xyz origin is at the centre of the front of the standard target * x-axis up * y-axis points towards the right (in comparison to the flight direction of= e-) * z-axis coincides with the beam-axis * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * ----------------------------General Definitions--------------------------= ----------- * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * external void * RPP Blackhol -999999. 999999. -999999. 999999. -999999. 999999. * * boundaries of geometry * RPP Air -200. 1150. -350. 350. -517. 4620. * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * -----------BEAMLINES (z=3D0, y=3D0, x=3D0 center of straight)----------- * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * Storage ring ZCC ExtPipe 0.0 0.0 3.175 ZCC IntPipe 0.0 0.0 3.025 * Booster externo ZCC BoosterO 0.0 320. 1.25 * Booster interno ZCC BoosterI 0.0 320. 1.2 * Plano dipolo UP XYP Dip1U 517. * Plano dipolo down XYP Dip1D 518.2 * Camara do dipolo externa feita de steel RPP CamdipO -1.4 1.4 -10. 40. 517. 628.43 * Camara do dipolo interna feita de steel RPP CamdipI -1.3 1.3 -9.9 39.8 517. 628.43 * plano do dipolo inclinado interno PLA DipIn 0.0 .996195 -0.0871557 0.0 -53.25312345763 -203.7035708751 * Plano inclinado do dipolo externo PLA DipOut 0.0 .996195 -0.0871557 0.0 -53.05348942353 -203.7035388572 * Piso in (limite interno) SR/Booster Tunnel * * Beamheight 1.4 m YZP PisoIn -140. * piso out (limite externo) YZP PisoOut -200. YZP TetoIn 190. * Limite externo do teto do anel YZP TetoOut 290. * Limite externo do teto da cabana YZP RoofOut 240. * * Y Z R XCC TunelIn 8255.8 0.0 7886.8 XCC TunelOut 8255.8 0.0 7806.8 * Parte interna da parede externa do tunel XZP TunExIn -117.7 * Parte externa da parede externa do t??nel XZP TunExtO -222.9 * Hx Hy Hz x y z PLA LeftDI 0.0 .99254662698443 -.121869261095 0.0 119.5141628834 2376.8546849702 PLA LeftDO 0.0 .99254662698443 -.121869261095 0.0 124.65759594161 3233.1202168871 * XYP FrontI 2370. XYP FrontO 2520. RCC plugin 0.0 0.0 2215.78 0.0 0.0 254.21956911467237 5.5 RCC plugo 0.0 0.0 2470. 0.0 0.0 35. 15. RCC Plugo1 0.0 0.0 2520. 0.0 0.0 -15. 23.3 XYP GSDown 2295.8 TRC body3 0.0 0.0 1397.2 0.0 0.0 9.4000000000001 1.2 .4 XZP LeftDet -0.75 XZP RightDet 0.75 * * * New Detectors Upstream * * * XYP P1DtDown 2544.9 XYP P1DtUp 2544.9 XYP P2DtDown 2650.6 XYP P2DtUp 2650.5 ZCC PipeInBH 0.0 0.0 3.025 *$start_transform ROT_OPT *$end_transform * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * Second Crystal and Frame 2 need be also translated: * 0 mm for Bragg=3D60deg * 9.973 mm for Bragg =3D 3deg *$start_transform Trans2nd *$end_transform #if 0 YZP HO300 3.24 #endif #if 0 YZP HO400 4.9 #endif #if 0 XZP VOL100 -8.26 #endif #if 0 XZP VOL200 -6.99 #endif #if 0 XZP VOR100 1.99 #endif #if 0 XZP VOL200 3.26 #endif #if 0 XYP ZOB500 2798.15 #endif XYP Z2800 2800. XYP Det3 2935.0049666574 XYP Det4 2995. XYP EndHutch 3490.78 RPP opright -140. 560.3 -300. -299.4 4360.78 5910.78 RPP opleft -140. 560.3 199.4 200. 4360.78 5910.78 RPP opdown -140. 560. -300. 200. 5910.18 5910.78 RPP opup -140. 560. -300. 200. 4360.78 4361.38 RPP oproof 560. 560.3 -300. 200. 4360.78 5910.78 RPP G_stop1 -50. 95. -50. 50. 3609.7 3614.7 RPP BS3din 0.8000000000000002 2.8 -1. 1. 2856. 2888.4 RCC Beampip 1.8 0.0 3616.7 0.0 0.0 733.85 2.8 RPP gamash -22. -9.9 -3.75 3.75 2279. 2286.5 RPP polibre1 10. 30. -11.75 11.75 2870. 2902.4 RPP polibre2 -30. -10. -11.75 11.75 2870. 2902.4 RCC gamahol 11.8 9.6 2314.1 0.0 0.0 -10.2 0.805 RPP GamaSec -10. 10. -10. 10. 3550. 3591.1 RPP PE5 -140. 262.86 -197.27 -195.27 2515.78 3616.7 RPP PE6 -140. 262.86 122.76 124.76 3005. 3616.7 RPP PE7 -140. 259.86 -195.27 122.76 3614.7 3616.7 RPP PE8 259.86 261.86 -195.27 122.76 2515.78 3617.7 RCC plugin1 122. 0.0 2370. 0.0 0.0 150. 8. RCC plugo1 122. 0.0 2470. 0.0 0.0 35. 15. RCC Plugo2 122. 0.0 2520. 0.0 0.0 -15. 23.3 RPP plugin2 178. 190. -112.7 -47.7 2370. 2520. RPP plugin3 -140. -134. -112.7 -92.7 2370. 2520. RPP hole1 -0.65 0.65 -0.9 0.9 1568.4 1571.6 RPP hole2 -0.825 0.825 -1.125 1.125 1953.5 1956.5 TRC hole3 0.0 0.0 2055.4 0.0 0.0 25.4 1.75 0.0 TRC hole4 0.0 0.0 2080. 0.0 0.0 -10.4 0.8 0.0 PLA hole6 -.997676180109 0.0 0.068133983032 -146.8470725472 0.0 10.028580564196 YZP hole5 0.6 XYP hole8 2145.65 XYP hole9 2158.9 XZP hole10 0.6 PLA hole11 0.0 -.997676180109 0.068133983032 0.0 -146.8417413139 10.028216479979 RPP hole12 -0.3 0.6 -.3 .6 2155.8 2158.9 PLA hole13 0.997676180109 0.0 0.068133983032 148.94688898925 0.0 10.171982662679 RPP hole14 -0.6 .3 -0.6 0.3 2186.7 2189.8034860134 YZP hole15 -0.6 XZP hole16 -0.6 PLA hole17 0.0 0.997676180109 0.068133983032 0.0 148.94416996318 10.171796973095 PLA hole18 .9945218953682 0.0 .10452846326765 -.5381554320514 -2.181944= 40448 2216.5202069136 XZP hole19 1.1 XZP hole20 -1.1 YZP hole21 -1.4 YZP hole22 -.6 #if 0 RPP G_stop2 -126.75 -21.25 -50. 42.5 2323. 2333. #endif RPP parede1 -140. 200. -205. -200. 2510. 3340. RPP parede3 -140. 200. 100. 110. 2828.5 3355. RPP parede4 -140. 200. -205. 101. 3340. 3355. RPP parede6 200. 208. -205. -12. 2515. 3355. RPP parede7 200. 208. -12. 110. 2515. 3355. RPP chicaca1 130. 189.8 -117.4 -40. 2349.22 2354.22 RPP chicaca2 130. 189.6 -45. -40. 2354.22 2369.42 RCC esp1 0.0 0.0 3000. 0.0 0.0 20. 4. RCC killel 0.0 0.0 517. 0.0 0.0 1.2 5. RPP Shield1 -140. -135. -105. -95. 2366. 2386. RCC RefLim -76.75 0.0 2323. 0.0 0.0 10. 2.405 RCC plugo2 0.0 0.0 2470.72 0.0 0.0 23.5 14. RCC plugo3 0.0 0.0 2494.22 0.0 0.0 10.6 14. RCC Plugo3 0.0 0.0 2520. 0.0 0.0 -14.58 22.3 * Backwall inside the hutch XYP BackIn 3302. * Backwall outside the hutch XYP BackOut 3310. * Sidewall inside the hutch XZP SideIn -218.9 * Limite interno do teto da cabana YZP RoofIn 236. XYP hole27 2950. XYP hole28 2953.175 XYP hole29 2951.755 * Camara de v??cuo ap??s Out Shielding Wall RCC Cilin1 0.0 0.0 2520. 0.0 0.0 433.025 3.025 RPP Cilin2 -0.2 1.95 -1.7 1.7 2948.245 2951.755 RPP ExtP2 0.0 1.8 -1.85 1.86 2948.1 2951.905 RCC Cilin3 1.8 0.0 2946.975 0.0 0.0 153.175 3.175 RCC ExtP3 1.8 0.0 2946.825 0.0 0.0 153.275 3.175 RCC Cilin4 1.8 0.0 3100. 0.0 -6.960090164005 1160.0000174592 3.025 RCC ExtP4 1.8 0.0 3100. 0.0 -6.96099017925 1160.1500180592 3.175 * Delimita????es ap??s Out Shielding Wall YZP hole30 11.743 YZP hole31 3.743 YZP hole32 -0.143 YZP hole33 -8.143 XYP hole34 4000. XYP hole35 3260. XYP hole36 3260. XYP hole37 4620. XYP EndPlug 3320.3 PLA hole391 5.789631486E-15 94.551857559932 -32.55681544572 -3.67956188E= -18 -218.8616214092 2957.2900834755 PLA hole392 5.789631486E-15 94.551857559932 -32.55681544572 -8.25977189E= -18 -218.5848923117 2957.2464471477 PLA hole393 5.789631485710341E-15 94.55185755993169 -32.556815445715664 = 0.0 -218. 2957.2 PLA hole401 1.737290959E-14 283.72114484672 -97.69302464488 4.712299095E= -18 -222.5805179143 2958.5899934959 PLA hole402 1.737290959E-14 283.72114484672 -97.69302464488 8.072563061E= -18 -222.9181650405 2958.654605583 PLA hole403 1.7372909594347953E-14 283.7211448467207 -97.69302464488273 = 0.0 -223.5 2958.7 PLA plano1m5 2.094269369E-14 342.02014332567 939.69262078591 -1.42895086E= -17 167.76176777107 3048.8000558806 PLA plano2m 2.094269369E-14 342.02014332567 939.69262078591 -1.90892316E= -15 115.17595761571 2904.321729895 * Tungsten Stop1 RPP Stop1Out -3.9 7.5 -5.65 5.65 3050. 3060. ZCC Stop1In 1.8 0.0 0.3175 * Tungsten Stop2 RPP Stop2Out -3.15 11.25 -5.05 5.05 3250. 3260. RCC Stop2In 1.8 0.0 3100. 0.0 -1.2000084233532913 199.99881599809487 0.3= 175 * Fe Gamma Shutter RPP FeGSOut 140. 152.1 -3.75 3.75 2285. 2310. ZCC FeGSIn 0.0 0.0 0.375 #if 0 RPP FMaskOu -21.55 21.55 -21.55 21.55 2075. 2095. #endif * Fe Mask RCC FMaskOut 50. 0.0 2047.6049877819 0.0 0.0 24.6 3.81 TRC FMaskIn1 50. 0.0 2047.6049877819 0.0 0.0 0.93941 1.54 1.14 TRC FMaskIn2 50. 0.0 2048.5449877819 0.0 0.0 18.7949 1.14 0.155 TRC FMaskIn3 50. 0.0 2067.3389877819 0.0 0.0 4.86569 0.155 0.41 PLA FMaskIn4 .99452189536828 0.0 .10452846326765 50. 0.0 2057. TRC FSlitIn 0.0 30. 2127. 0.0 0.0 10.5 0.78 0.072 RCC TubeInt 1.8 0.0 3270. 0.0 0.0 730. 3.0066592756746 RCC TubeExt1 1.8 0.0 3100. 2.6819629175467453E-16 -4.3799778342850075 729.9868600147345 10. RCC TubeExt2 1.8 0.0 3100. 2.6819629175467453E-16 -4.3799778342850075 729.9868600147345 3.425 * XBPM-1 RCC XBPM1Out 183.3588540639 0.0 1578.1598856204 0.0 0.0 6.7 5.65 RPP XBPM1In1 182.6338540639 184.0838540639 -1.04 1.04 1578.1598856204 1580.6598856204 RPP XBPM1In2 182.8838540639 183.8338540639 -0.79 0.79 1580.6598856204 1581.1598856204 RPP XBPM1In3 177.7088540639 189.0088540639 -5.65 5.65 1581.1598856204 1581.6598856204 RPP XBPM1In4 182.7838540639 183.9338540639 -0.94 0.94 1581.6598856204 1584.8598856204 PLA XBPM1In5 0.0 -.9950555699611 .09931974974363 183.3588540639 -.9090958024725 1579.4715765496 PLA XBPM1In6 0.0 .9950555699611 .09931974974363 183.3588540639 .890378941= 79985 1579.6589253111 PLA XBPM1In7 -.9950555699612 0.0 .09931974974363 182.7012788679 0.0 1578.8355950428 PLA XBPM1In8 .99505556996123 0.0 .09931974974364 184. 0.0 1579. * XBPM-2 RCC XBPM2Out 184.12954977239 0.0 1954.7029494594 0.0 0.0 6.7 5.65 RPP XBPM2In1 183.22954977239 185.02954977239 -1.275 1.275 1954.7029494594 1957.2029494594 RPP XBPM2In2 183.47954977239 184.77954977239 -1.026 1.024 1957.2029494594 1957.7029494594 RPP XBPM2In3 178.47954977239 189.77954977239 -5.65 5.65 1957.7029494594 1958.2029494594 RPP XBPM2In4 183.47954977239 184.97954977239 -1.125 1.125 1958.2029494594 1961.4029494594 PLA XBPM2In5 0.0 -.9950555699612 .09931974974364 184.12954977239 -1.275 1954.7029494594 PLA XBPM2In6 0.0 .99505556996123 .09931974974364 184.12954977239 1.2159420092094 1955.2545406835 PLA XBPM2In7 -.9950555699612 0.0 .09931974974364 183.33924379772 0.0 1955.8019818671 PLA XBPM2In8 .99505556996123 0.0 .09931974974364 185. 0.0 1955. * Photon Shutter RCC PSOut 56. 0.0 2197.5 0.0 0.0 16. 3.81 RCC PSIn1 56. 0.0 2197.5 0.0 0.0 1.5 1.925 RPP PSIn2a 54.8 57.2 -0.6 0.6 2199. 2210.4 PLA PSIn2b .99452189536824 0.0 .10452846326765 55.974168960295 0.0 2210.6972850483 RPP PSIn3 54.8 56. -0.6 0.6 2210.4 2212. RCC PSIn4 56. 0.0 2212. 0.0 0.0 1.5 1.925 * HPS-1 RPP HPS1Out 144.351 185.791 -20.72 20.72 2155. 2165.5 RPP HPS1In 165. 165.142 -.071 .071 2155. 2165.5 * HPS-2 RPP HPS2Out 144.352 185.792 -20.72 20.72 2180. 2190.5 RPP HPS2In 165. 165.144 -.072 .072 2180. 2190.5 * Slits 1 RCC SlitsOut 61.450934381378 0.345 2121.5 0.0 0.0 16. 3.81 RCC SlitsIn3 61.450934381378 0.35 2135.3 0.0 0.0 2.2 1.945 RPP SlitsIn2 60.655934381378 61.555934381378 -0.45 0.45 2132.1 2135.3 RPP SlitsIn1 60.655934381378 62.245934381378 -0.45 1.14 2121.5 2132.1 PLA SlitsIn4 0.0 .99780146829221 .06627390040001 61.105855739833 1.1044855544075 2122.1069399228 PLA SlitsIn5 .997801468292 0.0 .0662739004 62.16820738105 0.0 2122.757272= 1094 * Slits 2 RCC SlitsOu1 60.760934381378 -0.345 2157.5 0.0 0.0 16. 3.81 RCC SlitsIn6 60.760934381378 -0.35 2171.3 0.0 0.0 2.2 1.945 RPP SlitsIn7 60.655934381378 61.555934381378 -0.45 0.45 2168.1 2171.3 RPP SlitsIn8 59.965934381378 61.555934381378 -1.14 .45 2157.5 2168.1 PLA SlitsIn9 0.0 -.9978014682922 .06627390040001 61.105855739833 -1.114525195483 2157.8705706014 PLA SlitsI10 -.997801468292 0.0 .0662739004 60. 0.0 2158. * Plug RCC PlugPb1 1.8 0.0 3100. 4.2617492936359216E-16 -6.959964777767953 1159.9791200234133 5.075 RCC Plughole 0.0 0.0 3100. 4.2617492936359216E-16 -6.959964777767953 1159.9791200234133 3. RPP PlugPb2 -8.75 12.35 -11.850000000000001 9.25 3310.3 3311.3 RPP PlugPb3 -8.75 12.35 -11.850000000000001 9.25 3311.3 3313.84 RPP PlugPb4 -6.21 9.81 -9.31 6.71 3311.3 3313.84 #if 0 RCC PlugPb2 1.8 -1.4 3310. 0.0 0.0 1.500000000000 15. #endif #if 0 RCC PlugPb3 1.8 -1.4 3311.5 0.0 0.0 1.3000000000002 15. #endif #if 0 RCC PlugPb4 1.8 -1.4 3311.5 0.0 0.0 1.2999999999999 13. #endif RCC PlugPb5 1.8 0.0 3100. 2.6819629175467453E-16 -4.3799778342850075 729.9868600147345 3.825 * Guilhotina RPP Guilh -48.2 51.8 -50. 50. 3297. 3302. * Guilhotina RPP Guilh2 -8.75 12.35 -11.85 9.2 3310.3 3320.6 RCC Cilin5 1.8 0.0 3100. 0.0 -6.960090164005 1160.0000174592 1.755 * Tungsten Stop1 RPP Stop1Ou1 -3.9 7.5 -5.65 5.65 3060. 3070. * Tungsten Stop2 RPP Stop2Ou1 -3.15 11.25 -5.05 5.05 3260. 3270. XYP hole41 3318. * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * -----------BEAMLINES (z=3D0, y=3D0, x=3D0 center of straight)----------- * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * Storage ring ZCC ExtPipe1 0.0 0.0 3.175 ZCC IntPipe1 0.0 0.0 3.025 * Plano dipolo down XYP Dip1D1 518.2 * * boundaries of geometry * RPP Air1 -200. 1150. -350. 350. -517. 4620. RPP gamash1 -22. -9.9 -3.75 3.75 2279. 2286.5 XYP FrontO1 2520. * Fe Mask RCC FMaskOu1 0.0 0.0 2075. 0.0 0.0 24.6 3.81 * Fe Gamma Shutter RPP FeGSOut1 -3.75 8.35 -3.75 3.75 2321. 2346. * XBPM-1 RCC XBPM1Ou1 183.3588540639 0.0 1578.1598856204 0.0 0.0 6.7 5.65 * XBPM-2 RCC XBPM2Ou1 184.12954977239 0.0 1954.7029494594 0.0 0.0 6.7 5.65 * HPS-1 RPP HPS1Out1 144.351 185.791 -20.72 20.72 2155. 2165.5 * HPS-2 RPP HPS2Out1 144.352 185.792 -20.72 20.72 2180. 2190.5 * Photon Shutter RCC PSOut1 0.6 0.0 2219. 0.0 0.0 16. 3.81 * Slits RCC SlitsOu2 0.345 0.345 2134. 0.0 0.0 16. 3.81 * Slits RCC SlitsOu3 -0.345 -.345 2170. 0.0 0.0 16. 3.81 * Plano dipolo UP XYP Dip1U1 517. XYP hole42 2953.175 RPP Cilin6 -0.2 1.95 -1.7 1.7 2948.245 2951.755 XYP hole43 2953.025 RCC ExtP5 1.8 0.0 2946.825 0.0 0.0 153.325 3.175 RCC Cilin7 1.8 0.0 2946.975 0.0 0.0 153.125 3.025 RCC Cilin8 1.8 0.0 3100. 0.0 -6.960090164005 1160.0000174592 3.025 * Camara de v??cuo ap??s Out Shielding Wall RCC Cilin9 0.0 0.0 2520. 0.0 0.0 433.025 3.025 * Tungsten Stop1 RPP Stop1Ou2 -3.9 7.5 -5.65 5.65 3050. 3060. * Tungsten Stop2 RPP Stop2Ou2 -3.15 11.25 -5.05 5.05 3250. 3260. RPP ExtP6 0.0 1.8 -1.85 1.86 2948.1 2951.905 RCC ExtP7 1.8 0.0 3100. 0.0 -6.96099017925 1160.1500180592 3.175 XYP hole44 3318. RPP Targ1 -10. 10. -10. 10. 1870. 1890. RPP Targ2 -10. 10. -10. 10. 1890. 1900. * * ------------------------------------------------------------------------ END * include region data from:l * /home/ott/flsir/sirius.alife * * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3DREGION DEFINITIONS=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * * * * * * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * ---------------------- BLACK HOLE AROUND GEOMETRY -----------------------= - * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * BLACKHOL 5 +Blackhol -Air KILLELE 5 +killel * V??cuo da parte interna da camara de v??cuo da linha de luz ?? direita InsideSR 5 +IntPipe +Dip1U+Air * Iron vaccum pipe InoxUpG1 5 +ExtPipe -IntPipe -Dip1D +Air -gamash +FrontO &#= 43;FrontO -FMaskOut -FeGSOut -XBPM1Out -XBPM2Out -HPS1Out -HPS2Out -PSOut -SlitsOut -SlitsOu1 -plugo -Plugo= 1 | +ExtPipe -IntPipe +Dip1U +Air * Parte interna da camara de vacuo da linha de luz ?? esquerda at?? se????o= de corte InsideF1 5 +IntPipe -Dip1D +Air -gamash +FrontO +FrontO= -FMaskOut -FeGSOut -XBPM1Out -XBPM2Out -HPS1Out -HPS2Out -PSOut -SlitsOut -SlitsOu1 -plugo -Plugo1 * Parte interna da camara de vacuo da linha de luz ?? esquerda at?? se????o= de corte InsideF2 5 +Cilin1 | +Cilin2 | +Cilin7 -Stop1Out | +Cilin4 -Stop1Out -Stop2Out -Guilh +BackIn | +Stop2Out +Stop2In | +Stop1Out +Stop1In * BlackHole colimando para 1.5mm - Peda??o 3 BH3 5 +IntPipe -PipeInBH -Dip1D+Air-P1DtUp * * * * * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * --------------------------------------- TUNNEL -------------------------= ---------------- * =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D= =3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D=3D * * * * * Floor GROUNDFL 5 +Air -PisoOut +PisoIn * * Beneath Floor SobrePis 5 +Air +PisoOut * Ceiling ROOF 5 +Air -TetoIn +TetoOut -TunExtO -TunelOut +FrontO R13 5 +Air -TetoIn +TetoOut -LeftDO -TunelOut -FrontO -Tet= oIn * * left wall upstream TUNELEXT 5 +Air -PisoIn +TetoIn -TunExtO +TunExIn +Fron= tO * * front wall FRONTWAL 5 +Air -PisoIn +TetoIn -TunExIn +LeftDI +Front= O -FrontI -ExtPipe -plugin -plugo -Plugo1 -plugo1 -Plugo2 -plugin1-plugin2 -plugin3 | +plugin1 -Plugo2 |+plugin1 -plugo1 * * left wall downstream LEFTWALL 5 +Air -PisoIn +TetoIn -LeftDO +LeftDI -FrontO -F= rontO * * right wall (circular) TUNELIN 5 +Air -PisoIn +TetoIn -TunelOut +TunelIn * * ---------------------- TUNNEL AIR --------------------------------- * * upstream TUNELAIR 5 +Air -PisoIn +TetoIn -TunExIn -TunelIn +Dip1U -E= xtPipe * * around dipole chamber AIRDIPD 5 +Air -PisoIn +TetoIn -TunExIn -Dip1U +Dip1D -kil= lel * downstream 1 AIRDOWNS 5 +Air -PisoIn +TetoIn -TunExIn -TunelIn -Dip1D +F= rontI -ExtPipe -chicaca1 -chicaca2 -XBPM1Out -XBPM2Out -HPS2Out -HPS1Out -Targ1 -Targ2 | +RefLim -ExtPipe * * downstream 2 AIRLEFT 5 +Air -PisoIn +TetoIn -LeftDI -TunelIn -FrontI -hole3= 2 +hole31 -TubeExt1 * * ---------------------- AIR OUTSIDE TUNNEL ------------------------------- * * upstream left side AIRTUNO 5 +Air -PisoOut +TunExtO +FrontO -PisoIn | +Air -FrontO +TunExtO +BackOut +hole30 -= hole31 | +Air -FrontO +TunExtO +BackOut +hole32 -= hole33 * right side, AIR IN CENTER OF THE MACHINE AIRCENTE 5 +Air -PisoOut +TunelOut -PisoIn * * above Tunnel upstream AIRROOFO 5 +Air -TetoOut -TunExtO -TunelOut +FrontO * above Tunnel downstream R27 5 +Air -TetoOut -LeftDO -TunelOut -FrontO PLUG 5 +plugo2 -plugin | +plugo1 -plugin1 PLUGI 5 +plugin +plugo -ExtPipe | +plugin -ExtPipe -FrontI -plugo | +plugin2 | +plugin3 PLUGO1 5 +Plugo3 -plugin | +Plugo2 -plugin1 | +plugo3 #if 0 STOP 5 +G_stop2 -RefLim #endif #if 0 GAMASH 5 +gamash -gamahol | +ExtPipe +gamash -IntPipe #endif #if 0 MASC 5 +masc3 -hole3 -hole4 | +masc4 -hole10 | +masc4 +hole10 +hole11 -hole6 -hole12 | +masc4 +hole10 +hole11 -hole5 | +masc4 -hole11 -hole12 | +masc5 -hole14 -hole17 | +masc5 +hole16 -hole13 -hole14 -hole15 | +masc5 +hole13 +hole16 +hole17 -hole14 -= hole15 | +masc5 +hole15 +hole17 | +masc5 +hole17 -hole13 -hole14 -hole16 | +masc6 +hole18 +hole19 +hole21 -hole20 | +masc6 +hole19 -hole18 -hole22 | +masc6 -hole19 | +masc6 +hole18 +hole20 | +masc6 -hole18 +hole20 #endif * chicane CHICAFER 5 +chicaca1 | +chicaca2 * air inside the hutch AIRCAB 5 +Air +LeftDO -FrontO -PisoIn -SideIn -SideIn +Ba= ckIn +RoofIn -Cilin1 -ExtPipe -ExtP2 -ExtP3 +hole35 -ExtP4 -Cilin2 -Cilin3 -Cilin4 -Stop1Out -Stop= 2Out -hole393 | +Plugo1 -Plugo3 | +plugo -plugo3 -plugo2 | +Air +ExtPipe +hole35 -hole28 -Stop1Out -Sto= p2Out -ExtP3 -ExtP4 -ExtP5 | +Air -ExtP4 +BackIn +RoofIn -hole35 -SideIn = -PisoIn +LeftDO -PlugPb2 -Guilh -hole393 | +Air -hole35 +hole31 -hole32 -ExtP3 +LeftDO = -SideIn -ExtP4 -TubeExt1 +BackIn -BackOut | +Air -LeftDI -FrontO -PisoIn +hole32 | +Air -FrontI +FrontO -PisoIn +BackIn +ho= le33 -LeftDI | +Air -FrontI +FrontO -PisoIn +BackIn -hole33= +hole32 -LeftDI | +Stop1In +Stop1Out -ExtP3 | +Stop2In +Stop2Out -ExtP4 | +Air -hole34 +TubeExt1 | +Air -FrontI +FrontO +TetoIn +BackIn -ho= le31 -LeftDI | +Air -BackIn +TubeExt1 -ExtP4 +BackOut -Plug= Pb1 | +Air -LeftDI -FrontO +hole35 -hole31 +TetoIn | +Air -LeftDI -FrontO -hole31 +TetoIn | +Air -SideIn +plano2m -hole391 +hole393 -Pis= oIn +RoofIn | +Air -plano2m +plano1m5 -hole392 +hole393 -P= isoIn +RoofIn * air outside the tunnel AIROUT 5 +Air +BackOut +TunExtO -FrontO +TunExIn -Pis= oIn -hole30 | +Air -RoofOut -FrontO +hole37 +LeftDO | +Air +BackOut +TunExtO -FrontO +TunExIn = -PisoIn +hole31 -hole32 | +Air +BackOut +TunExtO -FrontO +TunExIn = -PisoIn +hole33 | +Air -BackOut +TunExtO -hole30 -RoofIn +Teto= Out | +Air +TetoIn -hole32 +hole33 +TunExtO -h= ole35 | +Air -BackOut +TetoOut -PisoIn +LeftDO -ExtP= 4 -Guilh -PlugPb2 -PlugPb3 -PlugPb1 +EndPlug -Guilh2 | +Air +SideIn +hole31 -hole32 -BackOut | +Air -hole34 +hole32 -hole33 +LeftDO -ExtP4 | +Air -BackOut +TetoOut -PisoIn +LeftDO -ExtP= 4 -Guilh -EndPlug -Guilh2 | +Air +hole403 -TunExtO +BackOut -PisoIn += ;TetoOut | +Air -TunExtO +plano2m +hole401 -hole403 -Pi= soIn +RoofIn | +Air -TunExtO -plano2m +plano1m5 +hole402 -h= ole403 -PisoIn +RoofIn | +Air +PlugPb5 -ExtP4 +EndPlug -BackIn | -ExtP4 +PlugPb1 -EndPlug +Guilh2 | +Air +Guilh -ExtP4 +TubeExt2 FOEWALL 5 +Air -BackIn +BackOut +RoofIn -SideIn -TubeExt1 = +TetoOut -PisoIn +LeftDO -hole391 | +Air +SideIn -TunExtO -FrontO +BackOut -Piso= In +RoofOut -hole391 | +Air -RoofIn +RoofOut +hole37 -FrontO +L= eftDO -TunExtO +BackOut -hole403 | +hole391 -hole401 -TunExtO +BackOut +RoofIn = -PisoIn +plano2m | +hole392 -hole402 -TunExtO +BackOut +RoofIn = -PisoIn -plano2m +plano1m5 | +hole393 -hole403 -TunExtO +BackOut +RoofIn = -PisoIn -plano1m5 XBPM1 5 +XBPM1Out -XBPM1In1 -XBPM1In2 -XBPM1In3 -XBPM1In4 | +XBPM1In1 -XBPM1In5 +XBPM1In6 | +XBPM1In1 -XBPM1In6 | +XBPM1In1 -XBPM1In7 +XBPM1In8 | +XBPM1In1 -XBPM1In8 | +XBPM1Out XBPM2 5 +XBPM2Out -XBPM2In1 -XBPM2In2 -XBPM2In3 -XBPM2In4 | +XBPM2In1 -XBPM2In5 +XBPM2In6 | +XBPM2In1 -XBPM2In6 | +XBPM2In1 -XBPM2In7 +XBPM2In8 | +XBPM2In1 -XBPM2In8 | +XBPM2Out * Tungsten Stop 1 WSTOP1 5 +Stop1Out -Stop1In * Tungsten Stop 2 WSTOP2 5 +Stop2Out -Stop2In #if 0 * Fe Gamma Shutter GAMASHUT 5 +FeGSOut -FeGSIn #endif #if 0 * Fe Mask FEMASK 5 +FMaskOut -FMaskIn2 -FMaskIn1 -FMaskIn3 #endif #if 0 * Fe Slits (pdf manaca) - conflito com HPS-1 FESLITS 5 +FSlitOut -FSlitIn #endif #if 0 * Photon Shutter PHOSHUT 5 #endif HPS1 5 +HPS1Out -HPS1In | +HPS1In HPS2 5 +HPS2Out -HPS2In | +HPS2In +HPS2Out #if 0 * first Slits SLITS1 5 +SlitsOut -SlitsIn1 -SlitsIn2 -SlitsIn3 | +SlitsIn1 +SlitsIn4 -SlitsIn5 | +SlitsIn1 +SlitsIn5 -SlitsIn4 | +SlitsIn1 -SlitsIn4 -SlitsIn5 #endif #if 0 * second Slits SLITS2 5 +SlitsOu1 -SlitsIn6 -SlitsIn7 -SlitsIn8 | +SlitsIn8 +SlitsIn9 -SlitsI10 | +SlitsIn8 +SlitsI10 -SlitsIn9 | +SlitsIn8 -SlitsIn9 -SlitsI10 #endif * Lead Plug after hutch PLUGPB 5 +PlugPb1 -PlugPb5 +EndPlug -BackIn -ExtP4 | +PlugPb2 -ExtP4 -PlugPb5 | +PlugPb3 -PlugPb4 * Guillotine GUILHOT 5 +Guilh -TubeExt2 * Guillotine GUILHOT1 5 +Guilh2 -ExtP4 -PlugPb2 -PlugPb3 -PlugPb1 | +PlugPb4 -PlugPb1 * Vaccum pipe InoxUpG2 5 +ExtPipe1 -IntPipe1 -FrontO1 +hole42 +Air1 -Cili= n6 +hole43 -Cilin3 | +ExtP5 -Cilin7 +Air1 -Cilin6 -Cilin8 -Cilin9 -St= op1Ou2 -Stop2Ou2 | +ExtP6 -Cilin6 +Air1 -Cilin7 -Cilin9 | -hole43 +hole42 +IntPipe1 -Cilin7 -Cilin8 | +ExtP7 -Cilin8 +Air1 -Cilin7 -Stop1Ou2 -Stop2Ou2= -Guilh +BackIn | +ExtPipe1 -Cilin9 -hole43 +hole42 -Cilin7 * Inside pipe (optional) InsideF3 5 +Cilin4 -Stop1Out -Stop2Out -BackIn | +Guilh +Cilin4 * Vaccum pipe (optional) InoxUpG3 5 +ExtP4 -Cilin4 +Air -Cilin3 -Stop1Out -Stop2Out -Bac= kIn | +Guilh +ExtP4 -Cilin4 TARG1 5 +Targ1 -ExtPipe TARG2 5 +Targ2 -ExtPipe END 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. 1. GEOEND ASSIGNMA BLCKHOLE BLACKHOL 0.0 ASSIGNMA STEEL InoxUpG1 0.0 ASSIGNMA GAS InsideSR 0.0 ASSIGNMA VACUUM InsideF1 0.0 ASSIGNMA PITWALL GROUNDFL 0.0 ASSIGNMA BLCKHOLE SobrePis 0.0 ASSIGNMA PITWALL ROOF 0.0 ASSIGNMA PITWALL R13 0.0 ASSIGNMA PITWALL TUNELEXT 0.0 ASSIGNMA PITWALL FRONTWAL 0.0 ASSIGNMA PITWALL LEFTWALL 0.0 ASSIGNMA BLCKHOLE TUNELIN 0.0 ASSIGNMA AIR TUNELAIR 0.0 ASSIGNMA AIR AIRDIPD 0.0 ASSIGNMA AIR AIRDOWNS 0.0 ASSIGNMA AIR AIRLEFT 0.0 ASSIGNMA AIR AIRTUNO 0.0 ASSIGNMA BLCKHOLE AIRCENTE 0.0 ASSIGNMA AIR AIRROOFO 0.0 ASSIGNMA AIR R27 0.0 ASSIGNMA VACUUM BH3 0.0 * Electron Beam (for Bremsstrahlung Simulation) BEAM -3. 0.0 -1E-06 -1E-05 -1E-05 1.ELECT= RON * Electron Beam (for Bremsstrahlung Simulation) BEAMPOS 0.0 0.0 -517. 0.0 0.0 0.0 LAM-BIAS 0.0 0.01 BLCKHOLE PHOTON * activates heavy fragment evaporation (up to A=3D24), essential for activa= tion * calculations PHYSICS 3. EVAPO= RAT *PHYSICS 1000. 1000. 1000. 1000. 1000. 1000.PEAT= HRES * coalescence, better to activate if light fragments are of interest (e.g. * tritium) PHYSICS 1. COALE= SCE ASSIGNMA AIR InoxUpG2 ASSIGNMA POLYETHE PLUG 0.0 ASSIGNMA AIR PLUGI 0.0 ASSIGNMA ACO PLUGO1 0.0 *ASSIGNMA AIR STOP 0.0 *ASSIGNMA AIR GAMASH 0.0 *ASSIGNMA COPPER MASC ASSIGNMA AIR AIRCAB ASSIGNMA STEEL CHICAFER ASSIGNMA AIR KILLELE ASSIGNMA AIR AIROUT ASSIGNMA AIR FOEWALL ASSIGNMA AIR WSTOP1 ASSIGNMA AIR WSTOP2 *ASSIGNMA AIR GAMASHUT *ASSIGNMA AIR FEMASK *ASSIGNMA AIR FESLITS ASSIGNMA AIR XBPM1 ASSIGNMA AIR XBPM2 *ASSIGNMA AIR PHOSHUT ASSIGNMA AIR HPS1 ASSIGNMA AIR HPS2 *ASSIGNMA AIR SLITS1 ASSIGNMA AIR InoxUpG3 *ASSIGNMA AIR SLITS2 ASSIGNMA AIR PLUGPB ASSIGNMA AIR GUILHOT ASSIGNMA AIR InsideF3 ASSIGNMA AIR InsideF2 ASSIGNMA AIR GUILHOT1 ASSIGNMA COPPER TARG1 ASSIGNMA SS316LN TARG2 * ..+....1....+....2....+....3....+....4....+....5....&= #43;....6....+....7....+....8 * Suppress multiple scattering in the air target MULSOPT 0.0 0.0 3. GAS 0.0 * Suppress Moller scattering in the air target *EMFCUT 0.0 3.5 0.0 GAS 0.0ELPO= -THR * Kill beam electrons by a high energy transport cutoff at the end * of the straight section EMFCUT 3.5 0.000001 0.0 KILLELE * Activates Gamma Interactions with Nuclei *PHOTONUC 1. HYDROGEN _at_LASTMAT * Activate muon pair coherent production * *PHOTONUC 1. 1.E-4 0.0 HYDROGEN _at_LASTMAT MUMU= PAIR PHOTONUC 1. 0.0 0.0 HYDROGEN _at_LASTMAT * The hadronic inelastic interaction length of the particle is reduced by a= multiplying factor 0.02. *LAM-BIAS 0.0 0.02 PHOTON * Desactivate bremsstrahlung and pair production in black hole region *EMF-BIAS 1021. 0.0 6. BLACKHOL _at_LASTREG * Defines the particle types to be discarded. * In this case, neutrinos and antineutrinos. DISCARD NEUTRIE ANEUTRIE * Sets energy transport cutoffs for photons PART-THR -1E-05 PROTON APROTON * Sets energy transport cutoffs for antineutrons PART-THR -1E-05 ANEUTRON _at_LASTPAR * Energy threshold for electron and positron production in GeV *EMFCUT -0.0001 1.0E-5 1. HYDROGEN _at_LASTMAT PROD= -CUT * Energy transport threshold for electrons/positrons/gammas in GeV *EMFCUT -1E-05 1.0E-5 0.0 InsideSR _at_LASTREG * ---------------------------- RUN -------------------------------------= ---------- RANDOMIZ 1. START 1000. STOP * Irradiation profile * ------------------- RADDECAY 1. 3.0 99999 * 7days intensity 4days intensity 7days intensity IRRPROFI 604800. 100000. 345600. 0.0 604800. 100000. * 4days intensity 7days intensit IRRPROFI 345600. 0.0 604800. 100000. * Specific activity DCYSCORE 1. Copper-1h Inox-1h RESNU= CLE RESNUCLE 3. -61. TARG1 7425.05Coppe= r-1h RESNUCLE 3. -61. TARG2 3425.05Inox-= 1h DCYSCORE 2. Copper-1m Inox-1m RESNU= CLE RESNUCLE 3. -62. TARG1 7425.05Coppe= r-1m RESNUCLE 3. -62. TARG2 3425.05Inox-= 1m DCYSCORE 1. Copbin-1hInoxbin-1h USRBI= N USRBIN 11. ACTIVITY -63. 10. 0.0 1890.Copbi= n-1h USRBIN 0.0 0.0 1870. 1. 1. 1. &= ; USRBIN 11. ACTIVITY -63. 10. 0.0 1900.Inoxb= in-1h USRBIN 0.0 0.0 1890. 1. 1. 1. &= ; DCYSCORE 2. Copbin-1mInoxbin-1m USRBI= N USRBIN 11. ACTIVITY -63. 10. 0.0 1890.Copbi= n-1m USRBIN 0.0 0.0 1870. 1. 1. 1. &= ; * Cooling: 1hour 1month DCYTIMES 3600. 2592000. USRBIN 11. ACTIVITY -63. 10. 0.0 1900.Inoxb= in-1m USRBIN 0.0 0.0 1890. 1. 1. 1. &= ; * Dose equivalent DCYSCORE 1. DoseEq1h DoseEq1h USRBI= N AUXSCORE USRBIN DoseEq1h EWT74 USRBIN 11. DOSE-EQ -64. 50. 0.0 2000.DoseE= q1h USRBIN 0.0 0.0 1800. 500. 1. 2000. &= ; DCYSCORE 2. DoseEq1m DoseEq1m USRBI= N AUXSCORE USRBIN DoseEq1m EWT74 USRBIN 11. DOSE-EQ -64. 50. 0.0 2000.DoseE= q1m USRBIN 0.0 0.0 1800. 500. 1. 2000. &= ; STOP ActivationSync.flair #!/usr/local/flair/flair # FLUKA Project file Version: 2 Title: Teste de Ativacao Input: ActivationSync.inp Submit: *Default Tabs: 0.1 0.32 0.56 0.81 1.0 Page: Input DefMain: True LinkPrg: lfluka F77bound: True F77dline: False # Run information Run: <default> Prev: 0 Last: 5 Status: 3 Pid: 0 StartRun: 0 Family: ActivationSync_aa ActivationSync_ab # USRxxx data file: ActivationSync_61.rnc Data: \I_\U.\e Unit: 61 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_62.rnc Data: \I_\U.\e Unit: 62 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_63.bnn Data: \I_\U.\e Unit: 63 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_64.bnn Data: \I_\U.\e Unit: 64 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End End # Run information Run: ActivationSync_aa Rnd: 1 Prev: 0 Last: 5 Status: 3 Pid: 0 StartRun: 1579007098 Parent: <default> # USRxxx data file: ActivationSync_aa_61.rnc Data: \I_\U.\e Unit: 61 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_aa_62.rnc Data: \I_\U.\e Unit: 62 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_aa_63.bnn Data: \I_\U.\e Unit: 63 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_aa_64.bnn Data: \I_\U.\e Unit: 64 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End End # Run information Run: ActivationSync_ab Rnd: 2 Prev: 0 Last: 5 Status: 3 Pid: 0 StartRun: 1579007098 Parent: <default> # USRxxx data file: ActivationSync_ab_61.rnc Data: \I_\U.\e Unit: 61 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_ab_62.rnc Data: \I_\U.\e Unit: 62 Type: r Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_ab_63.bnn Data: \I_\U.\e Unit: 63 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End # USRxxx data file: ActivationSync_ab_64.bnn Data: \I_\U.\e Unit: 64 Type: b Rule: +,\I\d\d\d_fort\.\U Rule: +,\I\d\d\d_ftn\.\U End End # Material Material: MOLYBDEN alpha: 0 color: #70B090 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: BARIUM alpha: 0 color: #907010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: ACO alpha: 0 color: #B05070 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: PITWALL alpha: 0 color: #50B010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: STDAIR1 alpha: 0 color: #20B010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: B4C alpha: 0 color: #90D010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: POLYETHE alpha: 0 color: #30D0B0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: TISSTUM alpha: 0 color: #7010B0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: DIOXSI alpha: 0 color: #301070 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: TISSGEN alpha: 0 color: #B010B0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: STDAIR alpha: 0 color: #C0B0D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: GAS alpha: 0 color: #301030 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: SAND alpha: 0 color: #D0B0D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: CHLORINE alpha: 0 color: #503010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: SS316LN alpha: 0 color: #401010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: AL5080 alpha: 0 color: #D0D0D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: NIOBIUM alpha: 0 color: #7030D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: WETSOIL alpha: 0 color: #709030 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: BPAdenso alpha: 0 color: #30D030 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: TISSEYE alpha: 0 color: #E010D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: MANGANES alpha: 0 color: #B050D0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: HAEMATIT alpha: 0 color: #803010 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: POTASSIU alpha: 0 color: #70B0B0 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: HPM1850 alpha: 0 color: #901090 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: STEEL2 alpha: 0 color: #401090 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Material Material: BACONC alpha: 0 color: #50D090 fuzz: 0.0 ior: 1.0 shine: 10.0 specular: 0.0 End # Geometry Information Geometry: Frame.bsplit: 0.5 Frame.tsplit: 0.5 Frame.vsplit: 0.5 End # Geometry plot "GeoViewer Red plot" Plot: Red Format: .eps Type: Geometry basisu: 1 0 0 basisv: 0 1 0 boundaries: 1 coord: X-Y extends: 100 75 labels: 1 layer: Media origin: 0 0 0 subtype: Material title: GeoViewer Red plot End # Geometry plot "GeoViewer Green plot" Plot: Green Format: .eps Type: Geometry basisu: 0 0 1 basisv: 1 0 0 boundaries: 1 coord: Z-X extends: 100 75 labels: 1 layer: Media origin: 0 0 0 subtype: Material title: GeoViewer Green plot End # Geometry plot "GeoViewer Blue plot" Plot: Blue Format: .eps Type: Geometry basisu: 0 0 1 basisv: 0 1 0 boundaries: 1 coord: Z-Y extends: 619.174 290.541 labels: 1 layer: Media origin: 0 -60.9333 2903.19 subtype: Material title: GeoViewer Blue plot End # Geometry plot "GeoViewer Magenta plot" Plot: Magenta Format: .eps Type: Geometry basisu: -1 0 0 basisv: 0 1 0 boundaries: 1 coord: X-Y extends: 100 75 labels: 1 layer: Media origin: 0 0 0 subtype: Material title: GeoViewer Magenta plot End __________________________________________________________________________ You can manage unsubscription from this mailing list at <a class=3D"moz-txt-link-freetext" href=3D"https://www.fluka.org/fluka.php?= id=3Dacc_info">https://www.fluka.org/fluka.php?id=3Dacc_info</a> --_005_RO1P15201MB2156C0619B2F292ACA4D738F870C0RO1P15201MB2156_-- __________________________________________________________________________ You can manage unsubscription from this mailing list at <a class=3D"moz-txt= -link-freetext" href=3D"https://www.fluka.org/fluka.php?id=3Dacc_info">http= s://www.fluka.org/fluka.php?id=3Dacc_info</a> </pre> </blockquote> <pre class=3D"moz-signature" cols=3D"72">--=20 Dr. Tamer Tolba Forschungszentrum J=C3=BClich Institut f=C3=BCr Kernphysik (IKP) 52425 J=C3=BClich, Germany Tel.: +49 2461 61 6860 Fax.: +49 2461 61 96415</pre> <br> <font face=3D"Arial" color=3D"Black" size=3D"1"><br> ---------------------------------------------------------------------------= ---------------------<br> ---------------------------------------------------------------------------= ---------------------<br> Forschungszentrum Juelich GmbH<br> 52425 Juelich<br> Sitz der Gesellschaft: Juelich<br> Eingetragen im Handelsregister des Amtsgerichts Dueren Nr. HR B 3498<br> Vorsitzender des Aufsichtsrats: MinDir Volker Rieke<br> Geschaeftsfuehrung: Prof. Dr.-Ing. Wolfgang Marquardt (Vorsitzender),<br> Karsten Beneke (stellv. Vorsitzender), Prof. Dr.-Ing. Harald Bolt,<br> Prof. Dr. Sebastian M. Schmidt<br> ---------------------------------------------------------------------------= ---------------------<br> ---------------------------------------------------------------------------= ---------------------<br> <br> </font> </body> </html> --------------DA108F1BCA53672CC496F18B-- __________________________________________________________________________ You can manage unsubscription from this mailing list at https://www.fluka.org/fluka.php?id=acc_infoReceived on Thu Jan 23 2020 - 09:50:20 CET
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