* Title card TITLE Esperimento raggi gamma DEFAULTS NEW-DEFA * Electromagnetic cutoff EMFCUT -0.0001 0.0001 BLCKHOLE @LASTMAT PROD-CUT BEAM -0.0012 10000. 1.PHOTON BEAMPOS 0.0 130.45 0.0 0.0 0.0 NEGATIVE HI-PROPE 27. 60. * Begin of the Geometry part * Nota Bene: dimension are in [cm]8 GEOBEGIN COMBNAME 0 0 Esperimento LNL * BODIES * * - Sphere - Void SPH bVoid 0.0 0.0 0.0 999999. * - Known world SPH bWorld 0.0 0.0 0.0 2500. * - Source SPH bSource 0.0 130.45 0.0 0.03 * - Earth Surface XZP bSurface 0.0 * - Table Surface XZP bSurftab 123. XZP bSurfTAB 118. XZP bSurf1 128. XZP bSurf2 132.9 #if 0 XZP bSurfQu 180. #endif PLA bPLAa 0.98 1. 0.0 0.0 128. 0.0 PLA bPLAb -0.98 1. 0.0 0.0 132.9 0.0 PLA bPLAc -0.98 1. 0.0 0.0 128. 0.0 PLA bPLAd 0.98 1. 0.0 0.0 132.9 0.0 XYP bSurf3 10. XYP bSurf4 20. XYP bSurf5 30. #if 0 XZP bSurfQd 176. #endif #if 0 XYP bSurfQl -26. #endif #if 0 XYP bSurfQr 26. #endif #if 0 YZP bSurfQL -40. #endif #if 0 YZP bSurfQR 40. #endif #if 0 * - Source surface XZP bSurfSou 107.85 #endif #if 0 * - Source core XZP bSurSouu 135.15 #endif #if 0 * - Source core XZP bSurSou2 138.15 #endif #if 0 * - Source core XZP bSurSoud 130.07 #endif #if 0 * - Source core XZP bSurSou3 127.07 #endif * Target and Shielding: * * - Shielding internal RPP bShield1 -350. 100. -10. 275. -40. 260. * * RPP bShield2 -200. -110. -10. 285. -50. 150. * * RPP bShield3 -120. -100. -10. 285. -50. 100. * - Shielding external RPP bShieldE -450. 200. -15. 375. -140. 360. * - Tavolo RPP bTable -40. 40. 122. 123. -30. 143. #if 0 YCC bTable1 11. 0.0 4. #endif #if 0 RPP bTable2 -4. 4. 120. 125. -40. 11. #endif #if 0 RPP bTablea -40. -36. -10. 120. 139. 143. #endif #if 0 RPP bTableai -39. -37. -10. 125. 140. 142. #endif #if 0 RPP bTableb 36. 40. -10. 120. 139. 143. #endif #if 0 RPP bTablebi 37. 39. -10. 125. 140. 142. #endif #if 0 RPP bTablec -40. -36. -10. 120. 26. 30. #endif #if 0 RPP bTableci -39. -37. -10. 125. 27. 29. #endif #if 0 RPP bTabled 36. 40. -10. 120. 26. 30. #endif #if 0 RPP bTabledi 37. 39. -10. 125. 27. 29. #endif #if 0 RPP bTableA -40. -36. 120. 180. -30. -26. #endif #if 0 RPP bTableAi -39. -37. 120. 185. -29. -27. #endif #if 0 RPP bTableB 36. 40. 120. 180. -30. -26. #endif #if 0 RPP bTableBi 37. 39. 120. 185. -29. -27. #endif #if 0 RPP bTableC -40. -36. 176. 180. -30. 30. #endif #if 0 RPP bTableCi -39. -37. 177. 179. -35. 35. #endif #if 0 RPP bTableD 36. 40. 176. 180. -30. 30. #endif #if 0 RPP bTableDi 37. 39. 177. 179. -35. 35. #endif #if 0 RPP bTableQ1 -41. -35. 175. 181. -31. -25. #endif #if 0 RPP bTableQ2 35. 41. 175. 181. -31. -25. #endif #if 0 RPP bTableQ3 -41. -35. 175. 181. 25. 31. #endif #if 0 RPP bTableQ4 35. 41. 175. 181. 25. 31. #endif #if 0 RPP bTableE -40. -10. 176. 180. -30. -26. #endif #if 0 RPP bTableEi -45. -10. 177. 179. -29. -27. #endif #if 0 RPP bTableF 10. 40. 176. 180. -30. -26. #endif #if 0 RPP bTableFi 10. 45. 177. 179. -29. -27. #endif #if 0 RPP bTableG -40. -10. 176. 180. 26. 30. #endif #if 0 RPP bTableGi -45. -10. 177. 179. 27. 29. #endif #if 0 RPP bTableH 10. 40. 176. 180. 26. 30. #endif #if 0 RPP bTableHi 10. 45. 177. 179. 27. 29. #endif #if 0 RPP bTableI -40. -36. 118. 122. -30. 143. #endif #if 0 RPP bTableIi -39. -37. 119. 121. -30. 143. #endif #if 0 RPP bTableK 36. 40. 118. 122. -30. 143. #endif #if 0 RPP bTableKi 37. 39. 119. 121. -30. 143. #endif #if 0 RPP bTableL -36. 36. 118. 122. 139. 143. #endif #if 0 RPP bTableLi -36. 36. 119. 121. 140. 142. #endif #if 0 * Safety cylinder RCC bSafe 0.0 185. 0.0 0.0 40. 0.0 35. #endif #if 0 RCC bSafei 0.0 186. 0.0 0.0 38. 0.0 34. #endif #if 0 RCC bSafeii 0.0 150. 0.0 0.0 50. 0.0 4. #endif * - Provino 1 RPP bSample1 -5. 5. 125.45 135.45 19.5 30.5 * - Provino 1-2-3-4 RPP bMat1 -10. 10. 122.5 137.9 0.0 10.5 * - Provino 5 RPP bMat5 1. 6. 122.5 143. 9.5 20.5 * - Provino 6 RPP bMat6 -6. -1. 122.5 143. 9.5 20.5 * - Provino 7 RPP bMat7 1. 6. 122.5 143. 29.5 40. * - Provino 8 RPP bMat8 -6. -1. 122.5 143. 29.5 40. *$start_transform RotDefi1 #if 0 * - Provino 2 RPP bSample2 20. 30. 122.5 133. -5. 5. #endif *$end_transform *$start_transform RotDefia #if 0 * - Provino 3 RPP bSample3 20. 30. 122.5 133. -5. 5. #endif *$end_transform *$start_transform RotDefi2 #if 0 * - Provino 4 RPP bSample4 20. 30. 122.5 133. -5. 5. #endif *$end_transform *$start_transform RotDefib #if 0 * - Provino 5 RPP bSample5 20. 30. 122.5 133. -5. 5. #endif *$end_transform *$start_transform RotDefi3 #if 0 * - Provino 6 RPP bSample6 20. 30. 122.5 133. -5. 5. #endif *$end_transform *$start_transform RotDefic #if 0 * - Provino 7 RPP bSample7 20. 30. 122.5 133. -5. 5. #endif *$end_transform *$start_transform RotDefi4 #if 0 * - Provino 8 RPP bSample8 20. 30. 122.5 133. -5. 5. #endif *$end_transform *$start_transform RotDefid #if 0 * - Provino 9 RPP bSample9 20. 30. 122.5 133. -5. 5. #endif *$end_transform #if 0 * -Sorgente: case esterno, involucro esterno (source head) RCC bSource 0.0 -5. 0.0 0.0 126.5 0.0 32.07 #endif #if 0 * -Sorgente: case esterno, involucro interno (source head) RCC bSourcei 0.0 -5. 0.0 0.0 126.5 0.0 29.365 #endif #if 0 * -Sorgente: case interno, involucro esterno (source drawer) RCC bCase 0.0 102.13 0.0 0.0 60.96 0.0 3.175 #endif #if 0 * -Sorgente: case interno, involucro interno (source drawer) RCC bCasei 0.0 102.13 0.0 0.0 60.66 0.0 2.875 #endif #if 0 * -Sorgente: red indicator rod RCC bCase1 0.0 158.09 0.0 0.0 7. 0.0 0.6 #endif #if 0 * Sorgente: source YCC bSorg 0.0 0.0 1.004 #endif #if 0 * Sorgente: source casing YCC bSorg1 0.0 0.0 1.304 #endif END * - Region: BlackHole rBlkHole 5 +bVoid-bWorld * - Region: Ground rEarth 5 +bWorld+bSurface * - Shelding: Outer shielding rShield 5 +bShieldE-(+bShield1-bShield2-bShield3)-bSurface * - Table rTable 5 +bTable * - Mat1 rMat1 5 +bMat1+bSurf3-bTable+bSurf1 rMat2 5 +bMat1+bSurf3-bSurf1+bSurf2-bPLAa-bPLAb |+bMat1+bSurf3-bSurf1+bSurf2+bPLAa-bPLAb |+bMat1+bSurf3-bSurf1+bSurf2+bPLAa+bPLAb rMat3 5 +bMat1+bSurf3-bSurf1+bSurf2-bPLAc-bPLAd |+bMat1+bSurf3-bSurf1+bSurf2+bPLAc-bPLAd |+bMat1+bSurf3-bSurf1+bSurf2+bPLAc+bPLAd rMat4 5 +bMat1+bSurf3-bTable-bSurf2 rMat5 5 +bMat5+bSurf4-bSurf3-bTable rMat6 5 +bMat6+bSurf4-bSurf3-bTable rMat7 5 +bMat7-bSurf5-bTable rMat8 5 +bMat8-bSurf5-bTable rSorg 5 +bSource #if 0 * Table rTable1 5 +bTablea-bSurface |+bTableb-bSurface |+bTablec-bSurface |+bTabled-bSurface |+bTableA-bSurftab-bTable |+bTableB-bSurftab-bTable |+bTableC |+bTableC |+bTableD |+bTableD |+bTableE |+bTableF |+bTableG |+bTableH |+bTableI |+bTableK |+bTableL #endif #if 0 * Table rTable2 5 +bTablea-bSurface+bSurfTAB |+bTableb-bSurface+bSurfTAB |+bTablec-bSurface+bSurfTAB |+bTabled-bSurface+bSurfTAB |+bTableA-bSurftab-bTable+bSurfQu |+bTableAi+bTableQ1+bSurfQu-bSurfQd |+bTableB-bSurftab-bTable+bSurfQu |+bTableBi+bTableQ2+bSurfQu-bSurfQd |+bTableC-bSurfQl+bSurfQr |+bTableQ3+bTableGi+bTableC-bSurfQL+bSurfQu-bSurfQd |+bTableD-bSurfQl+bSurfQr |+bTableQ4+bTableHi+bTableD+bSurfQR+bSurfQu-bSurfQd |+bTableE+bSurfQr-bSurfQL |+bTableF+bSurfQl+bSurfQR |+bTableG-bSurfQr-bSurfQL |+bTableH-bSurfQl+bSurfQR |+bTableI |+bTableK |+bTableL #endif #if 0 * -Safety cylinder rSafe 5 +bSafe-bSafei-bSafeii #endif * -Samples rSample1 5 +bSample1+bSurf5-bSurf4-bTable #if 0 rSample2 5 +bSample2-bTable #endif #if 0 rSample3 5 +bSample3-bTable #endif #if 0 rSample4 5 +bSample4-bTable #endif #if 0 rSample5 5 +bSample5-bTable #endif #if 0 rSample6 5 +bSample6-bTable #endif #if 0 rSample7 5 +bSample7-bTable #endif #if 0 rSample8 5 +bSample8-bTable #endif #if 0 rSample9 5 +bSample9-bTable #endif #if 0 * - Sorgente: case esterno (sourcehead) rSource 5 +bSource-bSourcei -bSurface+bSurfSou-bCase #endif #if 0 * - Sorgente: strato di piombo sovrastante (sourcehead) rSource1 5 +bSource-bSurfSou-bCase #endif #if 0 * - Sorgente: case estraibile 1 (source drawer) rCase1 5 +bCase-bCasei-bSurSouu |+bCase-bCasei+bSurSoud #endif #if 0 * - Sorgente: red indicator rod rCase2 5 +bCase1-bCase #endif #if 0 * - Lead inside source rLead 5 +bCasei -bSurSou2 | +bCasei +bSurSou3 | +bSourcei-bCase -bSurface +bSurfSou #endif #if 0 * - Sorgente: cobalto60 rSorg 5 +bSorg1 +bSorg+bSurSouu-bSurSoud #endif #if 0 * - Sorgente: involucro cobalto60 rSorgout 5 +bSorg1 -bSorg+bSurSouu-bSurSoud |+bCasei+bSurSou2-bSurSouu |+bCasei+bSurSoud-bSurSou3 #endif #if 0 * - Air in the beam line section rAir 5 +bWorld-bShieldE-bSurface |+bCase -bSorg1-bSurSoud+bSurSouu #endif #if 0 * - Air in the beam line section rAir1 5 +bShield1-bShield2-bShield3-bSurface -(bTable-bTable1-bTable2) -bSample1-bSample2-bSample3-bSample4-bSample5 -bSample6-bSample7-bSample8-bSample9 -bSource-bCase-bCase1 -bTablea-bTableb-bTablec-bTabled -bTableA-bTableB -bTableC -bTableD-bTableE -bTableF -bTableG -bTableH -bTableI -bTableK -bTableL -(+bSafe-bSafei-bSafeii) #endif rAir 5 +bWorld-bShieldE-bSurface #if 0 rAir1 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bTable+bSurf1) -(+bMat1+bSurf3-bSurf1+bSurf2-bPLAa-bPLAb) -(+bMat1+bSurf3-bSurf1+bSurf2+bPLAa-bPLAb) -(+bMat1+bSurf3-bSurf1+bSurf2+bPLAa+bPLAb) -(+bMat1+bSurf3-bSurf1+bSurf2-bPLAc-bPLAd) -(+bMat1+bSurf3-bSurf1+bSurf2+bPLAc-bPLAd) -(+bMat1+bSurf3-bSurf1+bSurf2+bPLAc+bPLAd) -(+bMat1+bSurf3-bTable-bSurf2) -(+bMat5+bSurf4-bSurf3-bTable) -(+bMat6+bSurf4-bSurf3-bTable) -(+bMat7-bSurf5-bTable) -(+bMat8-bSurf5-bTable) -(+bSample1+bSurf5-bSurf4-bTable) -bTable-bSource #endif rAir1 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bTable) -(+bMat5+bSurf4-bSurf3-bTable) -(+bMat6+bSurf4-bSurf3-bTable) -(+bMat7-bSurf5-bTable) -(+bMat8-bSurf5-bTable) -(+bSample1+bSurf5-bSurf4-bTable) -bTable-bSource rAir2 5 +bMat1-bPLAa-bPLAc+bPLAb+bPLAd+bSurf3-bSource #if 0 rAir1 5 +bWorld-bShieldE-bSurface #endif #if 0 rAir2 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bTable+bSurf1) #endif #if 0 rAir3 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bSurf1+bSurf2-bPLAa-bPLAb) #endif #if 0 rAir4 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bSurf1+bSurf2+bPLAa-bPLAb) #endif #if 0 rAir5 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bSurf1+bSurf2+bPLAa+bPLAb) #endif #if 0 rAir6 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bSurf1+bSurf2-bPLAc-bPLAd) #endif #if 0 rAir7 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bSurf1+bSurf2+bPLAc-bPLAd) #endif #if 0 rAir8 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bSurf1+bSurf2+bPLAc+bPLAd) #endif #if 0 rAir9 5 +bShield1-bShield2-bShield3-bSurface -(+bMat1+bSurf3-bTable-bSurf2) #endif #if 0 rAir10 5 +bShield1-bShield2-bShield3-bSurface -(+bMat5+bSurf4-bSurf3-bTable) #endif #if 0 rAir11 5 +bShield1-bShield2-bShield3-bSurface -(+bMat6+bSurf4-bSurf3-bTable) #endif #if 0 rAir12 5 +bShield1-bShield2-bShield3-bSurface -(+bMat7-bSurf5-bTable) #endif #if 0 rAir13 5 +bShield1-bShield2-bShield3-bSurface -(+bMat8-bSurf5-bTable) #endif #if 0 rAir14 5 +bShield1-bShield2-bShield3-bSurface -(+bSample1+bSurf5-bSurf4-bTable) #endif #if 0 rAir15 5 +bShield1-bShield2-bShield3-bSurface -bTable-bSource #endif END GEOEND MATERIAL 15. 30.973761 2.2 PHOSPHO MATERIAL 16. 32.066 2. SULFUR MATERIAL 19. 39.0983 .862 POTASSIU MATERIAL 2.460 REF COMPOUND -0.3797 OXYGEN -0.0023 SODIUM -0.1177 MAGNESIUREF COMPOUND -0.0187 ALUMINUM -0.0776 SILICON -0.0001 PHOSPHOREF COMPOUND -0.0042 SULFUR -0.0044 POTASSIU -0.2811 CALCIUMREF COMPOUND -9E-05 MANGANES -0.0081 IRON -0.0906 CARBONREF COMPOUND -0.0151 NITROGEN -0.0002 ARGON -1.2E-05 HYDROGENREF MATERIAL 2.816 EAF COMPOUND -0.3704 OXYGEN -0.002 SODIUM -0.0238 MAGNESIUEAF COMPOUND -0.0435 ALUMINUM -0.0951 SILICON -5E-05 PHOSPHOEAF COMPOUND -0.0036 SULFUR -0.004 POTASSIU -0.2001 CALCIUMEAF COMPOUND -0.0167 MANGANES -0.1295 IRON -0.0121 CHROMIUMEAF COMPOUND -0.084 CARBON -0.0151 NITROGEN -0.0002 ARGONEAF COMPOUND -1.2E-05 HYDROGEN EAF MATERIAL 2.848 BAR COMPOUND -0.36 OXYGEN -0.002 SODIUM -0.0142 MAGNESIUBAR COMPOUND -0.0159 ALUMINUM -0.0705 SILICON -5E-05 PHOSPHOBAR COMPOUND -0.0744 SULFUR -0.0038 POTASSIU -0.0897 CALCIUMBAR COMPOUND -7E-05 MANGANES -0.0069 IRON -0.2701 BARIUMBAR COMPOUND -0.077 CARBON -0.0151 NITROGEN -0.0002 ARGONBAR COMPOUND -1.2E-05 HYDROGEN BAR * Concrete * Concrete has a wide variation in density and composition. The above * description is for poured structural concrete with 10% moisture * content. Concrete block will have a density of about 2.05 g/cm3. * Ranges of concrete composition are : C (8-25%), O (38-60%), Si (8-18%). * Concrete composition can be analyzed cheaply by commercial laboratories. MATERIAL 2.34 Concrete COMPOUND -.0064 HYDROGEN -0.4536 OXYGEN -.0176 SODIUMConcrete COMPOUND -.0366 MAGNESIU -.0588 ALUMINUM -.209 SILICONConcrete COMPOUND -9.E-4 PHOSPHO -9.E-4 SULFUR -.0064 POTASSIUConcrete COMPOUND -.1266 CALCIUM -.0047 TITANIUM -.0013 IRONConcrete COMPOUND -.0764 NICKEL Concrete *MATERIAL .001197 Aria *COMPOUND -1.23E-05 HYDROGEN -.7599164 NITROGEN-.23007239 OXYGENAria *COMPOUND -.0099989 ARGON Aria * 104 Air dry (near sea level) MATERIAL .00120484 AIR COMPOUND -1.248E-4 CARBON -0.755267 NITROGEN -0.231781 OXYGENAIR COMPOUND -0.012827 ARGON AIR MATERIAL 13. 2.6989 ALUMINUM MATERIAL 82. 11.35 LEAD MATERIAL 25. 7.44 MANGANES MATERIAL 24. 7.18 CHROMIUM MATERIAL 56. 3.5 BARIUM MATERIAL 27. 8.9 COBALT * Stainless-Steel (typical) * Stainless-Steel is produced with Cr content ranging from * 4 - 19 Atomic Percent, and with C content from 0 - 4 percent. *MATERIAL 8. Stainles *COMPOUND 18. CHROMIUM 74. IRON 8. NICKELStainles * * Assign materials to regions * * - Generic items ASSIGNMA BLCKHOLE rBlkHole ASSIGNMA Concrete rEarth ASSIGNMA AIR rAir ASSIGNMA AIR rAir1 ASSIGNMA AIR rAir2 *ASSIGNMA AIR rAir2 *ASSIGNMA AIR rAir3 *ASSIGNMA AIR rAir4 *ASSIGNMA AIR rAir5 *ASSIGNMA AIR rAir6 *ASSIGNMA AIR rAir7 *ASSIGNMA AIR rAir8 *ASSIGNMA AIR rAir9 *ASSIGNMA AIR rAir10 *ASSIGNMA AIR rAir11 *ASSIGNMA AIR rAir12 *ASSIGNMA AIR rAir13 *ASSIGNMA AIR rAir14 *ASSIGNMA AIR rAir15 *ASSIGNMA AIR rAir1 * - Target, shield ASSIGNMA Concrete rShield * -Table ASSIGNMA ALUMINUM rTable * -Table *ASSIGNMA Stainles rTable1 * -Safety cylinder *ASSIGNMA Stainles rSafe ASSIGNMA REF rSample1 *ASSIGNMA BAR rSample2 *ASSIGNMA EAF rSample3 *ASSIGNMA EAF rSample4 *ASSIGNMA BAR rSample5 *ASSIGNMA REF rSample6 *ASSIGNMA REF rSample7 *ASSIGNMA EAF rSample8 *ASSIGNMA BAR rSample9 *ASSIGNMA Stainles rCase1 *ASSIGNMA Stainles rCase2 *ASSIGNMA Stainles rSorgout *ASSIGNMA Stainles rSorg *ASSIGNMA LEAD rSource1 *ASSIGNMA LEAD rLead ASSIGNMA COBALT rSorg ASSIGNMA LEAD rMat1 ASSIGNMA LEAD rMat2 ASSIGNMA LEAD rMat3 ASSIGNMA LEAD rMat4 ASSIGNMA LEAD rMat5 ASSIGNMA LEAD rMat6 ASSIGNMA LEAD rMat7 ASSIGNMA LEAD rMat8 *ROT-DEFI 200. 0.0 30. 0.0 0.0 0.0RotDefi1 *ROT-DEFI 200. 0.0 -30. 0.0 0.0 0.0RotDefia *ROT-DEFI 200. 0.0 60. 0.0 0.0 0.0RotDefi2 *ROT-DEFI 200. 0.0 -60. 0.0 0.0 0.0RotDefib *ROT-DEFI 200. 0.0 -126. 0.0 0.0 0.0RotDefi3 *ROT-DEFI 200. 0.0 126. 0.0 0.0 0.0RotDefic *ROT-DEFI 200. 0.0 -162. 0.0 0.0 0.0RotDefi4 *ROT-DEFI 200. 0.0 162. 0.0 0.0 0.0RotDefid USRBIN 10. ENERGY -21. 11. 144. 41.ENERGY USRBIN -11. 122. -2. 88. 88. 172. & USRBIN 10. PHOTON -22. 11. 144. 41.PHOTON USRBIN -11. 122. -2. 88. 88. 172. & USRBIN 10. ENERGY -23. 6. 136.5 41.REF3 USRBIN -6. 124.5 19. 96. 96. 176. & *USRBIN 10. ENERGY -24. 31. 134. 6.BAR2 *USRBIN 19. 122. -6. 48. 48. 48. & *USRBIN 10. ENERGY -25. 31. 134. 6.EAF3 *USRBIN 19. 122. -6. 48. 48. 48. & *USRBIN 10. ENERGY -26. 31. 134. 6.EAF2 *USRBIN 19. 122. -6. 48. 48. 48. & *USRBIN 10. ENERGY -27. 31. 134. 6.BAR3 *USRBIN 19. 122. -6. 48. 48. 48. & *USRBIN 10. ENERGY -28. 31. 134. 6.REF1 *USRBIN 19. 122. -6. 48. 48. 48. & *USRBIN 10. ENERGY -29. 31. 134. 6.REF2 *USRBIN 19. 122. -6. 48. 48. 48. & *USRBIN 10. ENERGY -30. 31. 134. 6.EAF1 *USRBIN 19. 122. -6. 48. 48. 48. & *USRBIN 10. ENERGY -31. 31. 134. 6.BAR1 *USRBIN 19. 122. -6. 48. 48. 48. & USRBIN 10. PHOTON -41. 6. 136.5 41.FREF3 USRBIN -6. 124.5 19. 96. 96. 176. & USRBIN 10. PHOTON -42. 6. 136.5 21.D1 USRBIN -6. 124.5 19. 96. 96. 16. & USRBIN 10. PHOTON -43. 6. 136.5 31.D2 USRBIN -6. 124.5 29. 96. 96. 16. & *USRBIN 10. PHOTON -42. 31. 134. 6.FBAR2 *USRBIN 19. 122. -6. 96. 96. 96. & *USRBIN 10. PHOTON -43. 31. 134. 6.FEAF3 *USRBIN 19. 122. -6. 96. 96. 96. & *USRBIN 10. PHOTON -44. 31. 134. 6.FEAF2 *USRBIN 19. 122. -6. 96. 96. 96. & *USRBIN 10. PHOTON -45. 31. 134. 6.FBAR3 *USRBIN 19. 122. -6. 96. 96. 96. & *USRBIN 10. PHOTON -46. 31. 134. 6.FREF1 *USRBIN 19. 122. -6. 96. 96. 96. & *USRBIN 10. PHOTON -47. 31. 134. 6.FREF2 *USRBIN 19. 122. -6. 96. 96. 96. & *USRBIN 10. PHOTON -48. 31. 134. 6.FEAF1 *USRBIN 19. 122. -6. 96. 96. 96. & *USRBIN 10. PHOTON -49. 31. 134. 6.FBAR1 *USRBIN 19. 122. -6. 96. 96. 96. & *USRBDX 99. PHOTON -32. rAir1 rSample1 AREF3 *USRBDX 1. 1E-30 80. & *USRBDX 99. PHOTON -33. rAir1 rSample2 ABAR2 *USRBDX 1. 1E-30 80. & *USRBDX 99. PHOTON -34. rAir1 rSample3 AEAF3 *USRBDX 1. 1E-30 80. & *USRBDX 99. PHOTON -35. rAir1 rSample4 AEAF2 *USRBDX 1. 1E-30 80. & *USRBDX 99. PHOTON -36. rAir1 rSample5 ABAR3 *USRBDX 1. 1E-30 80. & *USRBDX 99. PHOTON -37. rAir1 rSample6 AREF1 *USRBDX 1. 1E-30 80. & *USRBDX 99. PHOTON -38. rAir1 rSample7 AREF2 *USRBDX 1. 1E-30 80. & *USRBDX 99. PHOTON -39. rAir1 rSample8 AEAF1 *USRBDX 1. 1E-30 80. & *USRBDX 99. PHOTON -40. rAir1 rSample9 ABAR1 *USRBDX 1. 1E-30 80. & *ROTPRBIN RotDefi1 BAR2 *ROTPRBIN RotDefia EAF3 *ROTPRBIN RotDefi2 EAF2 *ROTPRBIN RotDefib BAR3 *ROTPRBIN RotDefi3 REF1 *ROTPRBIN RotDefic REF2 *ROTPRBIN RotDefi4 EAF1 *ROTPRBIN RotDefid BAR1 *ROTPRBIN RotDefi1 FBAR2 *ROTPRBIN RotDefia FEAF3 *ROTPRBIN RotDefi2 FEAF2 *ROTPRBIN RotDefib FBAR3 *ROTPRBIN RotDefi3 FREF1 *ROTPRBIN RotDefic FREF2 *ROTPRBIN RotDefi4 FEAF1 *ROTPRBIN RotDefid FBAR1 SCORE BEAMPART AUXSCORE USRBIN PHOTON D1 D2 RANDOMIZ 1. START 1000000. 0.0 STOP