DCYTIMES
Date: Thu, 28 Jul 2011 13:39:04 +0200
To: fluka-discuss <fluka-discuss_at_fluka.org>
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Dear FLUKA experts,
I am trying to use an irradiation profile with two irradiations and a
cooling time in between, but I do not get the expected results. To learn
about it, I have now set up two input files which in my understanding
should give the same result:
- One has an irradiation followed by a 100 days long "0 particles in beam
irradiation" in the IRRPROFI card. I then score at time 0 after the end of
the second irradiation
- The other one has just an irradiation defined in the IRRPROFI card, and
I score 100 days after its end.
I expect the two to give me the same results, but they don't. Am I
misunderstanding something in the way I should use the irradiation
profiles and decay times fro scoring in FLUKA?
Cards attached
Best regards, and many thanks for any help
Francesca
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Content-Disposition: attachment; filename="110727_LYSO_RA.inp"
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* simple test for FLUKA speed and installation
BEAM 24.0 5.0 5.0 1.0PROTON
BEAMPOS -5.0
GEOBEGIN
COMBNAME
0 0 FLUKA LYSO
*
* ****** BEGIN VOLUME DEFINITIONS ******************************************
* External black hole
RPP B1 -999999. 999999. -999999. 999999. -999999. 999999.
* enclosing volume
ZCC B2 0.0 0.0 100.0
XYP B3 -10.1
XYP B4 100.1
* 1st Xtal
RPP B5 -1.2 1.2 -1.2 1.2 -2.000 24.0
RPP B6 -1.2 1.2 21.4 23.8 0.0001 23.0
RPP B7 -1.2 1.2 -23.8 -21.4 0.0001 23.0
* cuts in te first Xtal (to get spectra)
XYP B8 0.1
XYP B9 10.
XYP B10 15.3
XYP B11 22.9
* walls of the irradiation zone
* back wall
XYP B12 32.0
* side walls
YZP B13 30.0
YZP B14 -30.0
* layers for biasing
* top-down layers to bias towards 'side' Xtals
XZP B15 15.0
XZP B16 -15.0
* back layer
XYP B17 52.0
* front Al
XYP B18 -1.243
XYP B19 -1.2
* back Al
XYP B20 23.10
XYP B21 23.143
* xtal limits
XYP B22 0.0
XYP B23 23.0
* box to contain the whole Xtal
RPP B24 -1.6 1.6 -1.6 1.6 -3.0 25.0
* planes to define the xtal surfaces
PLA B25 0.0 23. 0.0 0.0 1.25 0.0
PLA B26 0.0 -23. 0.0 0.0 -1.25 0.0
PLA B27 23.0 0.0 0.0 1.25 0.0 0.0
PLA B28 -23.0 0.0 0.0 -1.25 0.0 0.0
* Styropor box
RPP B29 -2.6 2.6 -2.6 2.6 -4.0 26.0
END
* EXTERNAL BLACK HOLE
* REG 1 **
BHO 5 | +B1 -B2 | +B1 -B4 | +B1 +B3
* air in the geometry around center xtal
* REG 2 **
A01 5 +B2 +B12 -B3 +B15 -B16 -B29
* REG 3-4 (bias 2)
A02 5 +B2 +B12 -B3 -B15
A03 5 +B2 +B12 -B3 +B16
* 1st Xtal (0.1-10cm)
* REG 5 ** (bias 1)
XT1 5 +B9 -B8 +B25 +B26 +B27 +B28
* 1st Xtal 0-0.1,10-10.1, 10.1-22.9 and 22.9-23cm
* REG 8-11 (bias 1)
XTA 5 +B8 -B22 +B25 +B26 +B27 +B28
XTB 5 +B10 -B9 +B25 +B26 +B27 +B28
XTC 5 +B11 -B10 +B25 +B26 +B27 +B28
XTD 5 +B23 -B11 +B25 +B26 +B27 +B28
* steel dump
* center front
* REG 12 (bias 1)
SD1 5 +B13 -B14 +B15 -B16 +B17 -B12
* center back
* REG 13 (bias 0.5)
SD2 5 +B13 -B14 +B15 -B16 +B4 -B17
* upper/lower front
* REG 14 (bias 2)
SD3 5 | +B13 -B14 +B2 -B15 +B17 -B12 | +B13 -B14 +B2
+B16 +B17 -B12
* upper/lower back
* REG 15 (bias 1)
SD4 5 | +B13 -B14 +B2 -B15 +B4 -B17 | +B13 -B14 +B2
+B16 +B4 -B17
* side walls
* REG 16 (bias 0.5)
SD5 5 | +B2 -B13 +B4 -B12 | +B2 +B14 +B4 -B12
* Air in front and around of front alu
* reg 17
AI1 5 | +B24 +B18 | +B24 +B19 -B18 -B5
* Air between front and xtal
* reg 18
AI2 5 +B24 +B22 -B19
* Air between xtal and around back alu
* reg 19
AI3 5 | +B24 +B20 -B23 | +B24 +B21 -B20 -B5
* Air behind back alu
* reg 20
AI4 5 +B24 -B21
* front alu
* reg 21
ALF 5 +B5 +B19 -B18
* back alu
* reg 22
ALB 5 +B5 +B21 -B20
* air around the center xtal inside 'box'
* reg 23
ACX 5 | +B24 -B25 +B23 -B22 | +B24 -B26 +B23 -B22 | +B24
+B25 +B26 -B27 +B23 -B22 | +B24 +B25 +B26 -B28
+B23 -B22
* styropor box
* reg 24
STY 5 +B29 -B24
END
GEOEND
* ** MATERIAL DEFINITIONS
* elements
MATERIAL 1. 1.0079 0.0000899 3.
1.HYDROG-1
MATERIAL 2. 4.0026 0.0001785 4. 4.HELIUM
MATERIAL 4. 9.0122 1.848 5.
BERYLLIU
MATERIAL 6. 12.011 2.0 6. CARBON
MATERIAL 7. 14.0067 0.0012506 7.
NITROGEN
MATERIAL 8. 15.9994 0.001429 8. OXYGEN
MATERIAL 3. 6.941 0.534 9. LITHIUM
MATERIAL 13. 26.9815 2.6989 10.
ALUMINUM
MATERIAL 26. 55.847 7.874 11. IRON
MATERIAL 29. 63.546 8.96 12. COPPER
MATERIAL 5. 10.81 2.37 13. BORON
MATERIAL 9. 18.9984 0.001696 14.
FLUORINE
MATERIAL 79. 196.9665 19.32 15. GOLD
MATERIAL 11. 22.99 0.971 16. SODIUM
MATERIAL 82. 207.2 11.35 17. LEAD
MATERIAL 14. 28.086 2.33 18. SILICON
MATERIAL 18. 39.948 0.0017837 19. ARGON
MATERIAL 20. 40.08 1.55 20. CALCIUM
MATERIAL 24. 51.996 7.18 21.
CHROMIUM
MATERIAL 28. 58.71 8.902 22. NICKEL
MATERIAL 74. 183.85 19.3 23.
TUNGSTEN
* true compounds
MATERIAL 0.001205 24. AIR
MATERIAL 2.35 25.
CONCRETE
MATERIAL 7.87 26. YOKE-FE
MATERIAL 8.0 27.
ST.STEEL
MATERIAL 0.95 28.
POLYETHE
MATERIAL 1.0 29.
B-POLYET
MATERIAL 1.032 30.
POLYSTYR
MATERIAL 1.0 31. WATER
MATERIAL 8.28 32. PBWO4
MATERIAL 3.673 33.
MGN-CONC
MATERIAL 1.5 34.
BAKELITE
MATERIAL 0.0021 35. CSC-GAS
MATERIAL 0.0043 36. RPC-GBA
MATERIAL 0.0018 37.
DTBX-GAS
MATERIAL 0.00192 38. AR-DME
*MATERIAL 2.3 39. GLASS
MATERIAL 2.3 39. D263
MATERIAL 2.5 40. BORAL
MATERIAL 1.7 41.
G10-PLAT
* averaged materials
* average HV has 1.5% SiO2, 3.5% air and 95% Yoke iron.
MATERIAL 7.51 42. HV-AVE
* this is in fact pure Al-honeycomb (density fitted to give for full
* chamber a mass of 120kg.m**2
MATERIAL 13. 26.9815 0.4 43.
MB-HCOMB
MATERIAL 0.273 44.
MSGC-AVE
* assume a mass of 1500kg (+ 200 for detectors)
MATERIAL 0.047 45.
TRAIR-AV
MATERIAL 0.8 46.
CABLE-AV
MATERIAL 0.02 47.
INSU-FOA
MATERIAL 1.7 48.
CARBON-F
* new additions and other stuff
MATERIAL 26. 55.847 7.874 49.
ACCUR-FE
MATERIAL 0.007 50.
MF-HCOMB
MATERIAL 19. 39.098 0.862 51.
POTASSIU
MATERIAL 0.00188 52. RPC-GFW
MATERIAL 3. 6.0 0.534 53.
6.0LITHIU-6
MATERIAL 3. 7.0 0.534 54.
7.0LITHIU-7
MATERIAL 10. 20.18 0.001206 55. NEON
MATERIAL 0.0019 56. NE-DME
MATERIAL 30. 65.39 8.0 57. ZINC
MATERIAL 2.7 58. MARBLE
MATERIAL 0.04 59.
STYROPOR
MATERIAL 71. 174.967 9.841 60.
LUTETIUM
MATERIAL 39. 88.90585 4.472 61. YTTRIUM
MATERIAL 58. 140.116 6.689 62. CERIUM
MATERIAL 7.3 63. LYSOCE
* definitions of compounds
* lithium, these are indeed atom percentages !
COMPOUND 0.075 LITHIU-6 0.925 LITHIU-7 LITHIUM
* for air, assume 9g/m**3 of water. Density of dry air is 1205g/m**3, so
* water is 0.74 % by weight.
COMPOUND -0.7494 NITROGEN -0.2369 OXYGEN -0.0129 ARGONAIR
COMPOUND -0.0008 HYDROG-1 AIR
COMPOUND -0.006 HYDROG-1 -0.03 CARBON -0.5
OXYGENCONCRETE
COMPOUND -0.01 SODIUM -0.03 ALUMINUM -0.2
SILICONCONCRETE
COMPOUND -0.01 POTASSIU -0.2 CALCIUM -0.014
IRONCONCRETE
COMPOUND -0.001 CARBON -0.001 SILICON -0.01 NICKELYOKE-FE
COMPOUND -0.986 IRON -0.002 COPPER YOKE-FE
COMPOUND -0.7 IRON -0.2 CHROMIUM -0.1
NICKELST.STEEL
COMPOUND 2. HYDROG-1 1. CARBON
POLYETHE
COMPOUND -0.116 HYDROG-1 -0.612 CARBON -0.05
BORONB-POLYET
COMPOUND -0.222 OXYGEN
B-POLYET
COMPOUND 1. HYDROG-1 1. CARBON
POLYSTYR
COMPOUND 2. HYDROG-1 1. OXYGEN WATER
COMPOUND 1.0 LEAD 1.0 TUNGSTEN 4.0 OXYGENPBWO4
COMPOUND 1.896 LUTETIUM .1 YTTRIUM 1.0 SILICONLYSOCE
COMPOUND 5.0 OXYGEN .004 CERIUM LYSOCE
COMPOUND -0.007 HYDROG-1 -0.013 BORON -0.35
OXYGENMGN-CONC
COMPOUND -0.013 SODIUM -0.02 ALUMINUM -0.02
SILICONMGN-CONC
COMPOUND -0.027 CALCIUM -0.55 IRON
MGN-CONC
COMPOUND 38. HYDROG-1 45. CARBON 7.
OXYGENBAKELITE
COMPOUND -0.176 ARGON -0.529 OXYGEN -0.084 FLUORINECSC-GAS
COMPOUND -0.211 CARBON CSC-GAS
* Forward RPC gas: 86.5-9-0.5-4 Ar-CO2-C4F10-C4H10
COMPOUND -0.8224 ARGON -0.0771 CARBON -0.0685 OXYGENRPC-GFW
COMPOUND -0.0225 FLUORINE -0.0095 HYDROG-1 RPC-GFW
* Barrel RPC gas: 90-10 C2H2F4-Ar
COMPOUND -0.0187 HYDROG-1 -0.2255 CARBON -0.7140 FLUORINERPC-GBA
COMPOUND -0.0418 ARGON RPC-GBA
* 80-20 Ar-CO2
COMPOUND -0.05 CARBON -0.15 OXYGEN -0.80
ARGONDTBX-GAS
* 50-50 Ar-DME
COMPOUND -0.5 ARGON -0.261 CARBON -0.065 HYDROG-1AR-DME
COMPOUND -0.174 OXYGEN AR-DME
COMPOUND -0.46 OXYGEN -0.45 SILICON -0.04 ZINCD263
COMPOUND -0.05 CALCIUM D263
* this is boral from Nuclear Experiments Inc.
COMPOUND -0.004 CARBON -0.171 BORON -0.825 ALUMINUMBORAL
COMPOUND -0.001 CARBON -0.008 SILICON -0.01 NICKELHV-AVE
COMPOUND -0.971 IRON -0.002 COPPER -0.008 OXYGENHV-AVE
* assume that this is lucite (C5H8O2)
COMPOUND 8. HYDROG-1 5. CARBON 2.
OXYGENMF-HCOMB
* 40% epcoxy, 60% glass (by weight)
COMPOUND -0.3170 CARBON -0.3804 OXYGEN -0.0226
HYDROG-1G10-PLAT
COMPOUND -0.2800 SILICON
G10-PLAT
COMPOUND -0.0016 GOLD -0.4630 SILICON -0.5304
OXYGENMSGC-AVE
COMPOUND -0.0029 ARGON -0.0017 CARBON -0.0004
HYDROG-1MSGC-AVE
* these have been obtained from the tentative values of Horst, assuming
* average service length of 2m in tracker volume (which gives the 1500 kg).
COMPOUND -0.310 CARBON -0.080 OXYGEN -0.020
NITROGENTRAIR-AV
COMPOUND -0.055 HYDROG-1 -0.300 IRON -0.235
ALUMINUMTRAIR-AV
COMPOUND -0.586 COPPER -0.259 CARBON -0.138
OXYGENCABLE-AV
COMPOUND -0.017 HYDROG-1
CABLE-AV
COMPOUND 1.0 HYDROG-1 1.0 CARBON
INSU-FOA
COMPOUND -0.9 CARBON -0.03 HYDROG-1 -0.07
OXYGENCARBON-F
COMPOUND 1. NEON 12. HYDROG-1 4. CARBONNE-DME
COMPOUND 2. OXYGEN NE-DME
COMPOUND 1. CALCIUM 1. CARBON 3. OXYGENMARBLE
COMPOUND 1. HYDROG-1 1. CARBON
STYROPOR
* *** ASSIGN MATERIALS TO REGIONS ******
* black hole
ASSIGNMA BLCKHOLE BHO
ASSIGNMA AIR A01 A03 VACUUM
ASSIGNMA LYSOCE XT1 XT1
ASSIGNMA AIR XTA XTD VACUUM
ASSIGNMA MARBLE SD1 VACUUM
ASSIGNMA YOKE-FE SD2 SD5 VACUUM
ASSIGNMA MARBLE SD3 VACUUM
ASSIGNMA YOKE-FE SD4 SD5 VACUUM
ASSIGNMA AIR AI1 AI4 VACUUM
ASSIGNMA ALUMINUM ALF ALB VACUUM
ASSIGNMA VACUUM ACX
ASSIGNMA AIR STY VACUUM
BIASING 0.0 1.0 1.0 A01
BIASING 0.0 1.0 2.0 A02 A03
BIASING 0.0 1.0 1.0 XT1
*BIASING 0.0 1.0 4.0 XT2 XT3
BIASING 0.0 1.0 1.0 XTA SD1
BIASING 0.0 1.0 0.5 SD2
BIASING 0.0 1.0 2.0 SD3
BIASING 0.0 1.0 1.0 SD4
BIASING 0.0 1.0 0.5 SD5
BIASING 0.0 1.0 1.0 AI1 ALB
BIASING 0.0 1.0 1.0 ACX STY
* Fn as ex 11
EMFCUT -0.1E-3 0.1E-3 VACUUM @LASTMAT
PROD-CUT
* Fn as ex 11
EMFCUT -0.1E-3 0.1E-3 BHO @LASTREG
RADDECAY 1. 3. 99999
* 1E13p/cm2/h in 5x5 cm2 beam contains 6.944p/s
IRRPROFI 5328. 4.14E10 8640000. 0.0
* Cooling: 100d after 1st irradiation
DCYTIMES 0.
* Cooling 100d after 1st irr
USRBIN 10. DOSE-EQ 81. 1.9 7.65
5.71rdos100d
USRBIN -1.9 6.25 4.3 1. 1. 1.&
AUXSCORE USRBIN 1rdos100d 1rdos100d AMB74
DCYSCORE 1. 1rdos100d 1rdos100d USRBIN
PHYSICS 1.
COALESCE
PHYSICS 3.
EVAPORAT
START 10000. 9999999. 60.0 0.0
USROCALL
STOP
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* simple test for FLUKA speed and installation
BEAM 24.0 5.0 5.0 1.0PROTON
BEAMPOS -5.0
GEOBEGIN
COMBNAME
0 0 FLUKA LYSO
*
* ****** BEGIN VOLUME DEFINITIONS ******************************************
* External black hole
RPP B1 -999999. 999999. -999999. 999999. -999999. 999999.
* enclosing volume
ZCC B2 0.0 0.0 100.0
XYP B3 -10.1
XYP B4 100.1
* 1st Xtal
RPP B5 -1.2 1.2 -1.2 1.2 -2.000 24.0
RPP B6 -1.2 1.2 21.4 23.8 0.0001 23.0
RPP B7 -1.2 1.2 -23.8 -21.4 0.0001 23.0
* cuts in te first Xtal (to get spectra)
XYP B8 0.1
XYP B9 10.
XYP B10 15.3
XYP B11 22.9
* walls of the irradiation zone
* back wall
XYP B12 32.0
* side walls
YZP B13 30.0
YZP B14 -30.0
* layers for biasing
* top-down layers to bias towards 'side' Xtals
XZP B15 15.0
XZP B16 -15.0
* back layer
XYP B17 52.0
* front Al
XYP B18 -1.243
XYP B19 -1.2
* back Al
XYP B20 23.10
XYP B21 23.143
* xtal limits
XYP B22 0.0
XYP B23 23.0
* box to contain the whole Xtal
RPP B24 -1.6 1.6 -1.6 1.6 -3.0 25.0
* planes to define the xtal surfaces
PLA B25 0.0 23. 0.0 0.0 1.25 0.0
PLA B26 0.0 -23. 0.0 0.0 -1.25 0.0
PLA B27 23.0 0.0 0.0 1.25 0.0 0.0
PLA B28 -23.0 0.0 0.0 -1.25 0.0 0.0
* Styropor box
RPP B29 -2.6 2.6 -2.6 2.6 -4.0 26.0
END
* EXTERNAL BLACK HOLE
* REG 1 **
BHO 5 | +B1 -B2 | +B1 -B4 | +B1 +B3
* air in the geometry around center xtal
* REG 2 **
A01 5 +B2 +B12 -B3 +B15 -B16 -B29
* REG 3-4 (bias 2)
A02 5 +B2 +B12 -B3 -B15
A03 5 +B2 +B12 -B3 +B16
* 1st Xtal (0.1-10cm)
* REG 5 ** (bias 1)
XT1 5 +B9 -B8 +B25 +B26 +B27 +B28
* 1st Xtal 0-0.1,10-10.1, 10.1-22.9 and 22.9-23cm
* REG 8-11 (bias 1)
XTA 5 +B8 -B22 +B25 +B26 +B27 +B28
XTB 5 +B10 -B9 +B25 +B26 +B27 +B28
XTC 5 +B11 -B10 +B25 +B26 +B27 +B28
XTD 5 +B23 -B11 +B25 +B26 +B27 +B28
* steel dump
* center front
* REG 12 (bias 1)
SD1 5 +B13 -B14 +B15 -B16 +B17 -B12
* center back
* REG 13 (bias 0.5)
SD2 5 +B13 -B14 +B15 -B16 +B4 -B17
* upper/lower front
* REG 14 (bias 2)
SD3 5 | +B13 -B14 +B2 -B15 +B17 -B12 | +B13 -B14 +B2
+B16 +B17 -B12
* upper/lower back
* REG 15 (bias 1)
SD4 5 | +B13 -B14 +B2 -B15 +B4 -B17 | +B13 -B14 +B2
+B16 +B4 -B17
* side walls
* REG 16 (bias 0.5)
SD5 5 | +B2 -B13 +B4 -B12 | +B2 +B14 +B4 -B12
* Air in front and around of front alu
* reg 17
AI1 5 | +B24 +B18 | +B24 +B19 -B18 -B5
* Air between front and xtal
* reg 18
AI2 5 +B24 +B22 -B19
* Air between xtal and around back alu
* reg 19
AI3 5 | +B24 +B20 -B23 | +B24 +B21 -B20 -B5
* Air behind back alu
* reg 20
AI4 5 +B24 -B21
* front alu
* reg 21
ALF 5 +B5 +B19 -B18
* back alu
* reg 22
ALB 5 +B5 +B21 -B20
* air around the center xtal inside 'box'
* reg 23
ACX 5 | +B24 -B25 +B23 -B22 | +B24 -B26 +B23 -B22 | +B24
+B25 +B26 -B27 +B23 -B22 | +B24 +B25 +B26 -B28
+B23 -B22
* styropor box
* reg 24
STY 5 +B29 -B24
END
GEOEND
* ** MATERIAL DEFINITIONS
* elements
MATERIAL 1. 1.0079 0.0000899 3.
1.HYDROG-1
MATERIAL 2. 4.0026 0.0001785 4. 4.HELIUM
MATERIAL 4. 9.0122 1.848 5.
BERYLLIU
MATERIAL 6. 12.011 2.0 6. CARBON
MATERIAL 7. 14.0067 0.0012506 7.
NITROGEN
MATERIAL 8. 15.9994 0.001429 8. OXYGEN
MATERIAL 3. 6.941 0.534 9. LITHIUM
MATERIAL 13. 26.9815 2.6989 10.
ALUMINUM
MATERIAL 26. 55.847 7.874 11. IRON
MATERIAL 29. 63.546 8.96 12. COPPER
MATERIAL 5. 10.81 2.37 13. BORON
MATERIAL 9. 18.9984 0.001696 14.
FLUORINE
MATERIAL 79. 196.9665 19.32 15. GOLD
MATERIAL 11. 22.99 0.971 16. SODIUM
MATERIAL 82. 207.2 11.35 17. LEAD
MATERIAL 14. 28.086 2.33 18. SILICON
MATERIAL 18. 39.948 0.0017837 19. ARGON
MATERIAL 20. 40.08 1.55 20. CALCIUM
MATERIAL 24. 51.996 7.18 21.
CHROMIUM
MATERIAL 28. 58.71 8.902 22. NICKEL
MATERIAL 74. 183.85 19.3 23.
TUNGSTEN
* true compounds
MATERIAL 0.001205 24. AIR
MATERIAL 2.35 25.
CONCRETE
MATERIAL 7.87 26. YOKE-FE
MATERIAL 8.0 27.
ST.STEEL
MATERIAL 0.95 28.
POLYETHE
MATERIAL 1.0 29.
B-POLYET
MATERIAL 1.032 30.
POLYSTYR
MATERIAL 1.0 31. WATER
MATERIAL 8.28 32. PBWO4
MATERIAL 3.673 33.
MGN-CONC
MATERIAL 1.5 34.
BAKELITE
MATERIAL 0.0021 35. CSC-GAS
MATERIAL 0.0043 36. RPC-GBA
MATERIAL 0.0018 37.
DTBX-GAS
MATERIAL 0.00192 38. AR-DME
*MATERIAL 2.3 39. GLASS
MATERIAL 2.3 39. D263
MATERIAL 2.5 40. BORAL
MATERIAL 1.7 41.
G10-PLAT
* averaged materials
* average HV has 1.5% SiO2, 3.5% air and 95% Yoke iron.
MATERIAL 7.51 42. HV-AVE
* this is in fact pure Al-honeycomb (density fitted to give for full
* chamber a mass of 120kg.m**2
MATERIAL 13. 26.9815 0.4 43.
MB-HCOMB
MATERIAL 0.273 44.
MSGC-AVE
* assume a mass of 1500kg (+ 200 for detectors)
MATERIAL 0.047 45.
TRAIR-AV
MATERIAL 0.8 46.
CABLE-AV
MATERIAL 0.02 47.
INSU-FOA
MATERIAL 1.7 48.
CARBON-F
* new additions and other stuff
MATERIAL 26. 55.847 7.874 49.
ACCUR-FE
MATERIAL 0.007 50.
MF-HCOMB
MATERIAL 19. 39.098 0.862 51.
POTASSIU
MATERIAL 0.00188 52. RPC-GFW
MATERIAL 3. 6.0 0.534 53.
6.0LITHIU-6
MATERIAL 3. 7.0 0.534 54.
7.0LITHIU-7
MATERIAL 10. 20.18 0.001206 55. NEON
MATERIAL 0.0019 56. NE-DME
MATERIAL 30. 65.39 8.0 57. ZINC
MATERIAL 2.7 58. MARBLE
MATERIAL 0.04 59.
STYROPOR
MATERIAL 71. 174.967 9.841 60.
LUTETIUM
MATERIAL 39. 88.90585 4.472 61. YTTRIUM
MATERIAL 58. 140.116 6.689 62. CERIUM
MATERIAL 7.3 63. LYSOCE
* definitions of compounds
* lithium, these are indeed atom percentages !
COMPOUND 0.075 LITHIU-6 0.925 LITHIU-7 LITHIUM
* for air, assume 9g/m**3 of water. Density of dry air is 1205g/m**3, so
* water is 0.74 % by weight.
COMPOUND -0.7494 NITROGEN -0.2369 OXYGEN -0.0129 ARGONAIR
COMPOUND -0.0008 HYDROG-1 AIR
COMPOUND -0.006 HYDROG-1 -0.03 CARBON -0.5
OXYGENCONCRETE
COMPOUND -0.01 SODIUM -0.03 ALUMINUM -0.2
SILICONCONCRETE
COMPOUND -0.01 POTASSIU -0.2 CALCIUM -0.014
IRONCONCRETE
COMPOUND -0.001 CARBON -0.001 SILICON -0.01 NICKELYOKE-FE
COMPOUND -0.986 IRON -0.002 COPPER YOKE-FE
COMPOUND -0.7 IRON -0.2 CHROMIUM -0.1
NICKELST.STEEL
COMPOUND 2. HYDROG-1 1. CARBON
POLYETHE
COMPOUND -0.116 HYDROG-1 -0.612 CARBON -0.05
BORONB-POLYET
COMPOUND -0.222 OXYGEN
B-POLYET
COMPOUND 1. HYDROG-1 1. CARBON
POLYSTYR
COMPOUND 2. HYDROG-1 1. OXYGEN WATER
COMPOUND 1.0 LEAD 1.0 TUNGSTEN 4.0 OXYGENPBWO4
COMPOUND 1.896 LUTETIUM .1 YTTRIUM 1.0 SILICONLYSOCE
COMPOUND 5.0 OXYGEN .004 CERIUM LYSOCE
COMPOUND -0.007 HYDROG-1 -0.013 BORON -0.35
OXYGENMGN-CONC
COMPOUND -0.013 SODIUM -0.02 ALUMINUM -0.02
SILICONMGN-CONC
COMPOUND -0.027 CALCIUM -0.55 IRON
MGN-CONC
COMPOUND 38. HYDROG-1 45. CARBON 7.
OXYGENBAKELITE
COMPOUND -0.176 ARGON -0.529 OXYGEN -0.084 FLUORINECSC-GAS
COMPOUND -0.211 CARBON CSC-GAS
* Forward RPC gas: 86.5-9-0.5-4 Ar-CO2-C4F10-C4H10
COMPOUND -0.8224 ARGON -0.0771 CARBON -0.0685 OXYGENRPC-GFW
COMPOUND -0.0225 FLUORINE -0.0095 HYDROG-1 RPC-GFW
* Barrel RPC gas: 90-10 C2H2F4-Ar
COMPOUND -0.0187 HYDROG-1 -0.2255 CARBON -0.7140 FLUORINERPC-GBA
COMPOUND -0.0418 ARGON RPC-GBA
* 80-20 Ar-CO2
COMPOUND -0.05 CARBON -0.15 OXYGEN -0.80
ARGONDTBX-GAS
* 50-50 Ar-DME
COMPOUND -0.5 ARGON -0.261 CARBON -0.065 HYDROG-1AR-DME
COMPOUND -0.174 OXYGEN AR-DME
COMPOUND -0.46 OXYGEN -0.45 SILICON -0.04 ZINCD263
COMPOUND -0.05 CALCIUM D263
* this is boral from Nuclear Experiments Inc.
COMPOUND -0.004 CARBON -0.171 BORON -0.825 ALUMINUMBORAL
COMPOUND -0.001 CARBON -0.008 SILICON -0.01 NICKELHV-AVE
COMPOUND -0.971 IRON -0.002 COPPER -0.008 OXYGENHV-AVE
* assume that this is lucite (C5H8O2)
COMPOUND 8. HYDROG-1 5. CARBON 2.
OXYGENMF-HCOMB
* 40% epcoxy, 60% glass (by weight)
COMPOUND -0.3170 CARBON -0.3804 OXYGEN -0.0226
HYDROG-1G10-PLAT
COMPOUND -0.2800 SILICON
G10-PLAT
COMPOUND -0.0016 GOLD -0.4630 SILICON -0.5304
OXYGENMSGC-AVE
COMPOUND -0.0029 ARGON -0.0017 CARBON -0.0004
HYDROG-1MSGC-AVE
* these have been obtained from the tentative values of Horst, assuming
* average service length of 2m in tracker volume (which gives the 1500 kg).
COMPOUND -0.310 CARBON -0.080 OXYGEN -0.020
NITROGENTRAIR-AV
COMPOUND -0.055 HYDROG-1 -0.300 IRON -0.235
ALUMINUMTRAIR-AV
COMPOUND -0.586 COPPER -0.259 CARBON -0.138
OXYGENCABLE-AV
COMPOUND -0.017 HYDROG-1
CABLE-AV
COMPOUND 1.0 HYDROG-1 1.0 CARBON
INSU-FOA
COMPOUND -0.9 CARBON -0.03 HYDROG-1 -0.07
OXYGENCARBON-F
COMPOUND 1. NEON 12. HYDROG-1 4. CARBONNE-DME
COMPOUND 2. OXYGEN NE-DME
COMPOUND 1. CALCIUM 1. CARBON 3. OXYGENMARBLE
COMPOUND 1. HYDROG-1 1. CARBON
STYROPOR
* *** ASSIGN MATERIALS TO REGIONS ******
* black hole
ASSIGNMA BLCKHOLE BHO
ASSIGNMA AIR A01 A03 VACUUM
ASSIGNMA LYSOCE XT1 XT1
ASSIGNMA AIR XTA XTD VACUUM
ASSIGNMA MARBLE SD1 VACUUM
ASSIGNMA YOKE-FE SD2 SD5 VACUUM
ASSIGNMA MARBLE SD3 VACUUM
ASSIGNMA YOKE-FE SD4 SD5 VACUUM
ASSIGNMA AIR AI1 AI4 VACUUM
ASSIGNMA ALUMINUM ALF ALB VACUUM
ASSIGNMA VACUUM ACX
ASSIGNMA AIR STY VACUUM
BIASING 0.0 1.0 1.0 A01
BIASING 0.0 1.0 2.0 A02 A03
BIASING 0.0 1.0 1.0 XT1
*BIASING 0.0 1.0 4.0 XT2 XT3
BIASING 0.0 1.0 1.0 XTA SD1
BIASING 0.0 1.0 0.5 SD2
BIASING 0.0 1.0 2.0 SD3
BIASING 0.0 1.0 1.0 SD4
BIASING 0.0 1.0 0.5 SD5
BIASING 0.0 1.0 1.0 AI1 ALB
BIASING 0.0 1.0 1.0 ACX STY
* Fn as ex 11
EMFCUT -0.1E-3 0.1E-3 VACUUM @LASTMAT
PROD-CUT
* Fn as ex 11
EMFCUT -0.1E-3 0.1E-3 BHO @LASTREG
RADDECAY 1. 3. 99999
* 1E13p/cm2/h in 5x5 cm2 beam contains 6.944p/s
IRRPROFI 5328. 4.14E10
* Cooling: 100d after 1st irradiation
DCYTIMES 8640000.
* Cooling 100d after 1st irr
USRBIN 10. DOSE-EQ 81. 1.9 7.65
5.71rdos100d
USRBIN -1.9 6.25 4.3 1. 1. 1.&
AUXSCORE USRBIN 1rdos100d 1rdos100d AMB74
DCYSCORE 1. 1rdos100d 1rdos100d USRBIN
PHYSICS 1.
COALESCE
PHYSICS 3.
EVAPORAT
START 10000. 9999999. 60.0 0.0
USROCALL
STOP
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Received on Fri Jul 29 2011 - 15:42:54 CEST
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