***** ATLAS October 2000 Base Configuration. ***** ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: BRASS # OF COMPS: 2 DENSITY: 8.500 SAMP.FRAC: 0.000 RAD.LEN.(CM): 1.535 ABS.LEN.(CM): 16.251 DEDX: 1.407 COMPONENT INPUT FRAC BY WT INDX COPPER 0.65000 0.68518 15 ZINC 0.35000 0.29400 16 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 COPPER 0.699748 15 ZINC 0.300252 16 ***** MAKING MIXTURE FROM PROPORTIONS BY ATOM : MYLAR # OF COMPS: 3 DENSITY: 1.390 SAMP.FRAC: 0.000 RAD.LEN.(CM): 26.740 ABS.LEN.(CM): 61.660 DEDX: 2.066 COMPONENT INPUT FRAC BY WT INDX CARBON 5.00000 0.62493 6 HYDROGEN 4.00000 0.04204 2 OXYGEN 2.00000 0.33302 8 ELEMENTS BY FRACTIONAL WEIGHT. # = 3 CARBON 0.624935 6 HYDROGEN 0.042044 2 OXYGEN 0.333021 8 ***** MAKING MIXTURE FROM PROPORTIONS BY ATOM : PLASTIC # OF COMPS: 3 DENSITY: 1.180 SAMP.FRAC: 0.000 RAD.LEN.(CM): 34.400 ABS.LEN.(CM): 59.200 DEDX: 2.464 COMPONENT INPUT FRAC BY WT INDX CARBON 5.00000 0.59972 6 HYDROGEN 8.00000 0.08070 2 OXYGEN 2.00000 0.31958 8 ELEMENTS BY FRACTIONAL WEIGHT. # = 3 CARBON 0.599720 6 HYDROGEN 0.080695 2 OXYGEN 0.319585 8 ***** MAKING MIXTURE FROM PROPORTIONS BY ATOM : EPOXY # OF COMPS: 2 DENSITY: 1.700 SAMP.FRAC: 0.000 RAD.LEN.(CM): 20.000 ABS.LEN.(CM): 52.000 DEDX: 2.379 COMPONENT INPUT FRAC BY WT INDX CARBON 1.00000 0.85602 6 HYDROGEN 2.00000 0.14398 2 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 CARBON 0.856023 6 HYDROGEN 0.143977 2 ***** MAKING MIXTURE FROM PROPORTIONS BY WEIGHT: POLYB10 # OF COMPS: 4 DENSITY: 1.479 SAMP.FRAC: 0.000 RAD.LEN.(CM): 47.160 ABS.LEN.(CM): 82.950 DEDX: 1.951 COMPONENT INPUT FRAC BY WT INDX CARBON 0.58000 0.58000 6 HYDROGEN 0.11000 0.11000 2 OXYGEN 0.21000 0.21000 8 BORON 0.10000 0.10000 5 ELEMENTS BY FRACTIONAL WEIGHT. # = 4 CARBON 0.580000 6 HYDROGEN 0.110000 2 OXYGEN 0.210000 8 BORON 0.100000 5 ***** MAKING MIXTURE FROM PROPORTIONS BY ATOM : QUARTZ # OF COMPS: 2 DENSITY: 2.640 SAMP.FRAC: 0.000 RAD.LEN.(CM): 10.250 ABS.LEN.(CM): 37.580 DEDX: 0.916 COMPONENT INPUT FRAC BY WT INDX SILICON 1.00000 0.46747 10 OXYGEN 2.00000 0.53253 8 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 SILICON 0.467465 10 OXYGEN 0.532535 8 ***** MAKING MIXTURE FROM PROPORTIONS BY ATOM : LIQSCIN # OF COMPS: 2 DENSITY: 0.854 SAMP.FRAC: 0.000 RAD.LEN.(CM): 30.000 ABS.LEN.(CM): 97.900 DEDX: 4.730 COMPONENT INPUT FRAC BY WT INDX CARBON 1.00000 0.91533 6 HYDROGEN 1.10000 0.08467 2 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 CARBON 0.915327 6 HYDROGEN 0.084673 2 ***** MAKING MIXTURE FROM PROPORTIONS BY ATOM : KAPTON # OF COMPS: 2 DENSITY: 1.110 SAMP.FRAC: 0.000 RAD.LEN.(CM): 32.600 ABS.LEN.(CM): 69.100 DEDX: 3.643 COMPONENT INPUT FRAC BY WT INDX CARBON 1.00000 0.85602 6 HYDROGEN 2.00000 0.14398 2 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 CARBON 0.856023 6 HYDROGEN 0.143977 2 ***** MAKING MIXTURE FROM PROPORTIONS BY ATOM : G10MIX # OF COMPS: 4 DENSITY: 1.850 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.238 COMPONENT INPUT FRAC BY WT INDX HYDROGEN 0.12900 0.00712 2 OXYGEN 0.60700 0.53103 8 SILICON 0.17600 0.27032 10 CALCIUM 0.08740 0.19153 26 ELEMENTS BY FRACTIONAL WEIGHT. # = 4 HYDROGEN 0.007124 2 OXYGEN 0.531026 8 SILICON 0.270316 10 CALCIUM 0.191534 26 **** MIXTURE AIR_MIXT$ DENSITY = 0.00 A,Z,DEN,FRC,WMAT: 14.00 7.00 0.00 0.79100 0.79100 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.00 0.20900 0.20900 **** MIXTURE VACU_MIXT$ DENSITY = 0.00 A,Z,DEN,FRC,WMAT: 14.00 7.00 0.00 0.79100 0.79100 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.00 0.20900 0.20900 **** MIXTURE SSTEEL$ DENSITY = 7.87 A,Z,DEN,FRC,WMAT: 55.85 26.00 7.87 1.00000 1.00000 **** MIXTURE COPPER_MIXT$ DENSITY = 8.96 A,Z,DEN,FRC,WMAT: 63.55 29.00 8.96 1.00000 1.00000 **** MIXTURE BERYL_MIXT$ DENSITY = 1.85 A,Z,DEN,FRC,WMAT: 9.01 4.00 1.85 1.00000 1.00000 **** MIXTURE SILICON_MIXT$ DENSITY = 2.33 A,Z,DEN,FRC,WMAT: 28.09 14.00 2.33 1.00000 1.00000 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: G10$ # OF COMPS: 1 DENSITY: 1.850 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.238 COMPONENT INPUT FRAC BY WT INDX G10MIX 1.00000 1.00000 109 ELEMENTS BY FRACTIONAL WEIGHT. # = 4 HYDROGEN 0.007124 2 OXYGEN 0.531026 8 SILICON 0.270316 10 CALCIUM 0.191534 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: LEAD_ELEM$ # OF COMPS: 1 DENSITY: 11.350 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.560 ABS.LEN.(CM): 17.090 DEDX: 1.130 COMPONENT INPUT FRAC BY WT INDX LEAD 1.00000 1.00000 22 ELEMENTS BY FRACTIONAL WEIGHT. # = 1 LEAD 1.000000 22 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: STRIPLINE$ # OF COMPS: 3 DENSITY: 3.111 SAMP.FRAC: 0.000 RAD.LEN.(CM): 5.098 ABS.LEN.(CM): 36.132 DEDX: 2.286 COMPONENT INPUT FRAC BY WT INDX MYLAR 0.16000 0.12859 102 COPPER 0.13600 0.70455 15 KAPTON 0.26000 0.16686 108 ELEMENTS BY FRACTIONAL WEIGHT. # = 4 COPPER 0.704549 15 CARBON 0.223198 6 HYDROGEN 0.029431 2 OXYGEN 0.042822 8 **** MIXTURE NEG_MIXT$ DENSITY = 0.50 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.50 0.06300 0.06300 A,Z,DEN,FRC,WMAT: 28.08 14.00 0.50 0.44000 0.44000 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: PIX_BAR$ # OF COMPS: 5 DENSITY: 2.113 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.555 COMPONENT INPUT FRAC BY WT INDX SILICON 0.03840 0.16200 10 ALUMINUM 0.04540 0.22195 9 PLASTIC 0.02450 0.05235 103 CARBON 0.06770 0.27764 6 G10MIX 0.08540 0.28606 109 ELEMENTS BY FRACTIONAL WEIGHT. # = 6 SILICON 0.239328 10 ALUMINUM 0.221948 9 CARBON 0.309036 6 HYDROGEN 0.006262 2 OXYGEN 0.168635 8 CALCIUM 0.054791 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: PIX_DSK$ # OF COMPS: 4 DENSITY: 2.213 SAMP.FRAC: 0.000 RAD.LEN.(CM): 15.023 ABS.LEN.(CM): 36.636 DEDX: 1.779 COMPONENT INPUT FRAC BY WT INDX SILICON 0.06270 0.27119 10 ALUMINUM 0.00530 0.02656 9 PLASTIC 0.01750 0.03833 103 CARBON 0.15790 0.66391 6 ELEMENTS BY FRACTIONAL WEIGHT. # = 5 SILICON 0.271195 10 ALUMINUM 0.026564 9 CARBON 0.686897 6 HYDROGEN 0.003093 2 OXYGEN 0.012251 8 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: SCT_BAR$ # OF COMPS: 3 DENSITY: 3.269 SAMP.FRAC: 0.000 RAD.LEN.(CM): 5.394 ABS.LEN.(CM): 27.017 DEDX: 1.637 COMPONENT INPUT FRAC BY WT INDX SILICON 0.06270 0.53143 10 COPPER 0.01200 0.39112 15 CARBON 0.00940 0.07745 6 ELEMENTS BY FRACTIONAL WEIGHT. # = 3 SILICON 0.531429 10 COPPER 0.391121 15 CARBON 0.077449 6 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: SCT_WHEEL$ # OF COMPS: 4 DENSITY: 2.285 SAMP.FRAC: 0.000 RAD.LEN.(CM): 12.723 ABS.LEN.(CM): 36.181 DEDX: 1.651 COMPONENT INPUT FRAC BY WT INDX SILICON 0.09830 0.31501 10 ALUMINUM 0.08460 0.31416 9 BERYLLIUM 0.08830 0.22443 4 CARBON 0.04700 0.14641 6 ELEMENTS BY FRACTIONAL WEIGHT. # = 4 SILICON 0.315007 10 ALUMINUM 0.314155 9 BERYLLIUM 0.224426 4 CARBON 0.146412 6 KEYWORD NOT UNDERSTOOD -> **** MIXTURE TRTBAR1$ DENSITY = 0.10 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.10 0.08100 0.08100 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.10 0.73500 0.73500 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.10 0.14400 0.14400 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.10 0.01800 0.01800 A,Z,DEN,FRC,WMAT: 183.86 74.00 0.10 0.02200 0.02200 **** MIXTURE TRTBAR2$ DENSITY = 0.21 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.21 0.06000 0.06000 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.21 0.73200 0.73200 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.21 0.16100 0.16100 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.21 0.03400 0.03400 **** MIXTURE TRTBAR3$ DENSITY = 0.28 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.28 0.01600 0.01600 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.28 0.34700 0.34700 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.28 0.16200 0.16200 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.28 0.02400 0.02400 A,Z,DEN,FRC,WMAT: 26.98 13.00 0.28 0.45100 0.45100 **** MIXTURE TRTBAR45$ DENSITY = 1.65 A,Z,DEN,FRC,WMAT: 1.01 1.00 1.65 0.02200 0.02200 A,Z,DEN,FRC,WMAT: 12.01 6.00 1.65 0.76300 0.76300 A,Z,DEN,FRC,WMAT: 16.00 8.00 1.65 0.11500 0.11500 A,Z,DEN,FRC,WMAT: 14.01 7.00 1.65 0.10000 0.10000 **** MIXTURE TRTAECW1$ DENSITY = 0.05 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.05 0.08100 0.08100 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.05 0.78300 0.78300 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.05 0.09100 0.09100 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.05 0.03600 0.03600 **** MIXTURE TRTAECW2$ DENSITY = 0.30 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.30 0.02600 0.02600 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.30 0.55100 0.55100 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.30 0.11700 0.11700 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.30 0.04700 0.04700 A,Z,DEN,FRC,WMAT: 63.55 29.00 0.22 0.25900 0.19239 **** MIXTURE TRTAECW3$ DENSITY = 0.25 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.25 0.01600 0.01600 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.25 0.34700 0.34700 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.25 0.16200 0.16200 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.25 0.02400 0.02400 A,Z,DEN,FRC,WMAT: 26.98 13.00 0.25 0.45100 0.45100 **** MIXTURE TRTBECW1$ DENSITY = 0.05 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.05 0.10000 0.10000 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.05 0.78800 0.78800 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.05 0.07200 0.07200 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.05 0.03400 0.03400 **** MIXTURE TRTBECW2$ DENSITY = 0.22 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.22 0.02500 0.02500 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.22 0.57000 0.57000 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.22 0.11600 0.11600 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.22 0.05400 0.05400 A,Z,DEN,FRC,WMAT: 63.55 29.00 0.22 0.23500 0.23500 **** MIXTURE TRTBECW3$ DENSITY = 0.25 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.25 0.01600 0.01600 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.25 0.34700 0.34700 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.25 0.16200 0.16200 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.25 0.02400 0.02400 A,Z,DEN,FRC,WMAT: 26.98 13.00 0.25 0.45100 0.45100 **** MIXTURE TRTCECW1$ DENSITY = 0.04 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.04 0.09000 0.09000 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.04 0.79000 0.79000 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.04 0.08100 0.08100 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.04 0.03200 0.03200 **** MIXTURE TRTCECW2$ DENSITY = 0.31 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.31 0.02500 0.02500 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.31 0.57000 0.57000 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.31 0.11600 0.11600 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.31 0.05400 0.05400 A,Z,DEN,FRC,WMAT: 63.55 29.00 0.31 0.23500 0.23500 **** MIXTURE TRTCECW3$ DENSITY = 0.22 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.22 0.01600 0.01600 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.22 0.34700 0.34700 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.22 0.16200 0.16200 A,Z,DEN,FRC,WMAT: 14.01 7.00 0.22 0.02400 0.02400 A,Z,DEN,FRC,WMAT: 26.98 13.00 0.22 0.45100 0.45100 **** MIXTURE TRT_CABLP$ DENSITY = 0.10 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.10 0.02700 0.02700 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.10 0.97300 0.97300 **** MIXTURE IDS_CARBON$ DENSITY = 2.27 A,Z,DEN,FRC,WMAT: 12.01 6.00 2.27 1.00000 1.00000 **** MIXTURE IDS_PIXB$ DENSITY = 3.20 A,Z,DEN,FRC,WMAT: 12.01 6.00 3.20 0.37600 0.37600 A,Z,DEN,FRC,WMAT: 1.01 1.00 3.20 0.01600 0.01600 A,Z,DEN,FRC,WMAT: 16.00 8.00 3.20 0.06300 0.06300 A,Z,DEN,FRC,WMAT: 26.98 13.00 3.20 0.10600 0.10600 A,Z,DEN,FRC,WMAT: 28.08 14.00 3.20 0.44000 0.44000 **** MIXTURE IDS_PIXE$ DENSITY = 1.03 A,Z,DEN,FRC,WMAT: 12.01 6.00 1.03 0.11400 0.11400 A,Z,DEN,FRC,WMAT: 1.01 1.00 1.03 0.01000 0.01000 A,Z,DEN,FRC,WMAT: 16.00 8.00 1.03 0.03800 0.03800 A,Z,DEN,FRC,WMAT: 26.98 13.00 1.03 0.75400 0.75400 A,Z,DEN,FRC,WMAT: 9.01 4.00 1.03 0.08400 0.08400 **** MIXTURE IDS_COOL$ DENSITY = 1.00 A,Z,DEN,FRC,WMAT: 12.01 6.00 1.00 0.30000 0.30000 A,Z,DEN,FRC,WMAT: 1.01 1.00 1.00 0.04000 0.04000 A,Z,DEN,FRC,WMAT: 16.00 8.00 1.00 0.26000 0.26000 A,Z,DEN,FRC,WMAT: 26.98 13.00 1.00 0.40000 0.40000 **** MIXTURE CRACKSRV$ DENSITY = 0.85 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.85 0.02700 0.02700 A,Z,DEN,FRC,WMAT: 12.01 6.00 0.85 0.97300 0.97300 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: LIQ_ARGON$ # OF COMPS: 1 DENSITY: 1.400 SAMP.FRAC: 0.000 RAD.LEN.(CM): 14.000 ABS.LEN.(CM): 83.700 DEDX: 1.510 COMPONENT INPUT FRAC BY WT INDX LIQUID_ARGON 1.00000 1.00000 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 1 LIQUID_ARGON 1.000000 11 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: COIL_MIXT$ # OF COMPS: 3 DENSITY: 3.186 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.540 COMPONENT INPUT FRAC BY WT INDX ALUMINUM 19.10000 0.65656 9 COPPER 2.35000 0.26807 15 G10 3.20000 0.07537 110 ELEMENTS BY FRACTIONAL WEIGHT. # = 6 ALUMINUM 0.656558 9 COPPER 0.268072 15 HYDROGEN 0.000537 2 OXYGEN 0.040023 8 SILICON 0.020374 10 CALCIUM 0.014436 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: EWHEEL_MIXT$ # OF COMPS: 2 DENSITY: 2.862 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.273 COMPONENT INPUT FRAC BY WT INDX SS 0.50000 0.46127 13 G10 2.50000 0.53873 110 ELEMENTS BY FRACTIONAL WEIGHT. # = 5 SS 0.461270 13 HYDROGEN 0.003838 2 OXYGEN 0.286080 8 SILICON 0.145627 10 CALCIUM 0.103185 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: PRESHOWER$ # OF COMPS: 1 DENSITY: 1.850 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.238 COMPONENT INPUT FRAC BY WT INDX G10 1.00000 1.00000 110 ELEMENTS BY FRACTIONAL WEIGHT. # = 4 HYDROGEN 0.007124 2 OXYGEN 0.531026 8 SILICON 0.270316 10 CALCIUM 0.191534 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: LAREM_1.8PB$ # OF COMPS: 5 DENSITY: 3.807 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.377 COMPONENT INPUT FRAC BY WT INDX LIQUID_ARGON 0.60300 0.22173 11 LEAD 0.19100 0.56939 22 SS 0.05300 0.11025 13 COPPER 0.01300 0.03059 15 G10 0.14000 0.06803 110 ELEMENTS BY FRACTIONAL WEIGHT. # = 8 LIQUID_ARGON 0.221733 11 LEAD 0.569395 22 SS 0.110252 13 COPPER 0.030594 15 HYDROGEN 0.000485 2 OXYGEN 0.036124 8 SILICON 0.018389 10 CALCIUM 0.013030 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: LAREM_1.2PB$ # OF COMPS: 5 DENSITY: 3.437 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.383 COMPONENT INPUT FRAC BY WT INDX LIQUID_ARGON 0.60300 0.24564 11 LEAD 0.15200 0.50198 22 SS 0.05300 0.12214 13 COPPER 0.01300 0.03389 15 G10 0.17900 0.09635 110 ELEMENTS BY FRACTIONAL WEIGHT. # = 8 LIQUID_ARGON 0.245636 11 LEAD 0.501980 22 SS 0.122137 13 COPPER 0.033892 15 HYDROGEN 0.000686 2 OXYGEN 0.051167 8 SILICON 0.026046 10 CALCIUM 0.018455 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: EM_IN_TAB$ # OF COMPS: 1 DENSITY: 1.400 SAMP.FRAC: 0.000 RAD.LEN.(CM): 14.000 ABS.LEN.(CM): 83.700 DEDX: 1.510 COMPONENT INPUT FRAC BY WT INDX LIQUID_ARGON 1.00000 1.00000 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 1 LIQUID_ARGON 1.000000 11 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: EM_OUT_TAB$ # OF COMPS: 2 DENSITY: 1.791 SAMP.FRAC: 0.000 RAD.LEN.(CM): 9.853 ABS.LEN.(CM): 67.412 DEDX: 1.508 COMPONENT INPUT FRAC BY WT INDX LIQUID_ARGON 0.94000 0.73470 11 SS 0.06000 0.26530 13 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 LIQUID_ARGON 0.734703 11 SS 0.265297 13 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: EXCLUDER$ # OF COMPS: 1 DENSITY: 0.100 SAMP.FRAC: 0.000 RAD.LEN.(CM): 298.500 ABS.LEN.(CM): 957.000 DEDX: 1.830 COMPONENT INPUT FRAC BY WT INDX EXCLUDER 1.00000 1.00000 25 ELEMENTS BY FRACTIONAL WEIGHT. # = 1 EXCLUDER 1.000000 25 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: ELECT_MIX$ # OF COMPS: 3 DENSITY: 2.561 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 0.000 COMPONENT INPUT FRAC BY WT INDX G10 0.10000 0.07224 110 SS 0.30000 0.92776 13 VOID 0.60000 0.00000 1 ELEMENTS BY FRACTIONAL WEIGHT. # = 6 SS 0.927763 13 VOID 0.000000 1 HYDROGEN 0.000515 2 OXYGEN 0.038360 8 SILICON 0.019527 10 CALCIUM 0.013836 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: CRATE_MIX$ # OF COMPS: 4 DENSITY: 1.098 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 0.000 COMPONENT INPUT FRAC BY WT INDX G10 0.16900 0.28484 110 ALUMINUM 0.23100 0.56822 9 COPPER 0.01800 0.14693 15 VOID 0.58200 0.00000 1 ELEMENTS BY FRACTIONAL WEIGHT. # = 7 ALUMINUM 0.568224 9 COPPER 0.146935 15 VOID 0.000000 1 HYDROGEN 0.002029 2 OXYGEN 0.151258 8 SILICON 0.076997 10 CALCIUM 0.054557 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: FINGMIX$ # OF COMPS: 3 DENSITY: 1.362 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 0.000 COMPONENT INPUT FRAC BY WT INDX STRIPLINE 0.20000 0.45674 112 G10 0.40000 0.54326 110 VOID 0.40000 0.00000 1 ELEMENTS BY FRACTIONAL WEIGHT. # = 7 VOID 0.000000 1 COPPER 0.321795 15 CARBON 0.101943 6 HYDROGEN 0.017312 2 OXYGEN 0.308044 8 SILICON 0.146852 10 CALCIUM 0.104053 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: ABMIX$ # OF COMPS: 2 DENSITY: 2.333 SAMP.FRAC: 0.000 RAD.LEN.(CM): 6.797 ABS.LEN.(CM): 48.170 DEDX: 0.000 COMPONENT INPUT FRAC BY WT INDX STRIPLINE 0.75000 1.00000 112 VOID 0.25000 0.00000 1 ELEMENTS BY FRACTIONAL WEIGHT. # = 5 VOID 0.000000 1 COPPER 0.704549 15 CARBON 0.223198 6 HYDROGEN 0.029431 2 OXYGEN 0.042822 8 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: GAPMIX$ # OF COMPS: 3 DENSITY: 1.018 SAMP.FRAC: 0.000 RAD.LEN.(CM): 14.736 ABS.LEN.(CM): 117.017 DEDX: 0.000 COMPONENT INPUT FRAC BY WT INDX STRIPLINE 0.20000 0.61106 112 SS 0.05000 0.38894 13 VOID 0.75000 0.00000 1 ELEMENTS BY FRACTIONAL WEIGHT. # = 6 SS 0.388943 13 VOID 0.000000 1 COPPER 0.430520 15 CARBON 0.136386 6 HYDROGEN 0.017984 2 OXYGEN 0.026167 8 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: LAREM1.4PB$ # OF COMPS: 5 DENSITY: 3.934 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.446 COMPONENT INPUT FRAC BY WT INDX SS 0.03000 0.09663 13 G10 0.01500 0.01129 110 LEAD 0.14000 0.64626 22 KAPTON 0.04000 0.01806 108 LIQUID_ARGON 0.40000 0.22776 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 8 SS 0.096634 13 LEAD 0.646263 22 LIQUID_ARGON 0.227758 11 CARBON 0.015458 6 HYDROGEN 0.002680 2 OXYGEN 0.005993 8 SILICON 0.003051 10 CALCIUM 0.002162 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: EC_EMI_MIX$ # OF COMPS: 4 DENSITY: 2.903 SAMP.FRAC: 0.000 RAD.LEN.(CM): 3.200 ABS.LEN.(CM): 50.189 DEDX: 1.535 COMPONENT INPUT FRAC BY WT INDX LEAD 0.13430 0.52511 22 IRON 0.03050 0.08269 12 KAPTON 0.10620 0.04061 108 LIQUID_ARGON 0.72900 0.35159 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 5 LEAD 0.525111 22 IRON 0.082690 12 LIQUID_ARGON 0.351589 11 CARBON 0.034763 6 HYDROGEN 0.005847 2 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: EC_EMO_MIX$ # OF COMPS: 4 DENSITY: 2.635 SAMP.FRAC: 0.000 RAD.LEN.(CM): 3.721 ABS.LEN.(CM): 53.564 DEDX: 1.562 COMPONENT INPUT FRAC BY WT INDX LEAD 0.11020 0.47462 22 IRON 0.02690 0.08033 12 KAPTON 0.12140 0.05113 108 LIQUID_ARGON 0.74150 0.39392 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 5 LEAD 0.474617 22 IRON 0.080333 12 LIQUID_ARGON 0.393917 11 CARBON 0.043772 6 HYDROGEN 0.007362 2 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: EC_HAD1_MIX$ # OF COMPS: 2 DENSITY: 6.881 SAMP.FRAC: 0.000 RAD.LEN.(CM): 1.899 ABS.LEN.(CM): 19.445 DEDX: 1.459 COMPONENT INPUT FRAC BY WT INDX COPPER 0.72500 0.94405 15 LIQUID_ARGON 0.27500 0.05595 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 COPPER 0.944049 15 LIQUID_ARGON 0.055951 11 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: EC_HAD2_MIX$ # OF COMPS: 2 DENSITY: 6.881 SAMP.FRAC: 0.000 RAD.LEN.(CM): 1.899 ABS.LEN.(CM): 19.445 DEDX: 1.459 COMPONENT INPUT FRAC BY WT INDX COPPER 0.72500 0.94405 15 LIQUID_ARGON 0.27500 0.05595 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 COPPER 0.944049 15 LIQUID_ARGON 0.055951 11 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: EC_HAD3_MIX$ # OF COMPS: 2 DENSITY: 7.675 SAMP.FRAC: 0.000 RAD.LEN.(CM): 1.688 ABS.LEN.(CM): 17.500 DEDX: 1.451 COMPONENT INPUT FRAC BY WT INDX COPPER 0.83000 0.96899 15 LIQUID_ARGON 0.17000 0.03101 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 COPPER 0.968989 15 LIQUID_ARGON 0.031011 11 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: LAR_CABLES$ # OF COMPS: 2 DENSITY: 1.475 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 0.000 DEDX: 1.457 COMPONENT INPUT FRAC BY WT INDX LIQUID_ARGON 1.00000 0.79096 11 G10 0.20000 0.20904 110 ELEMENTS BY FRACTIONAL WEIGHT. # = 5 LIQUID_ARGON 0.790960 11 HYDROGEN 0.001489 2 OXYGEN 0.111005 8 SILICON 0.056507 10 CALCIUM 0.040038 26 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: FC_EM_ABS$ # OF COMPS: 2 DENSITY: 8.393 SAMP.FRAC: 0.000 RAD.LEN.(CM): 1.533 ABS.LEN.(CM): 16.047 DEDX: 1.445 COMPONENT INPUT FRAC BY WT INDX COPPER 0.92500 0.98749 15 LIQUID_ARGON 0.07500 0.01251 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 2 COPPER 0.987490 15 LIQUID_ARGON 0.012510 11 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: FC_HAD_ROD$ # OF COMPS: 3 DENSITY: 18.599 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 9.838 DEDX: 1.176 COMPONENT INPUT FRAC BY WT INDX TUNGSTEN 0.93500 0.97023 21 IRON 0.02400 0.01016 12 NICKEL 0.04100 0.01962 14 ELEMENTS BY FRACTIONAL WEIGHT. # = 3 TUNGSTEN 0.970226 21 IRON 0.010155 12 NICKEL 0.019619 14 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: FC_HAD_ABS$ # OF COMPS: 3 DENSITY: 15.366 SAMP.FRAC: 0.000 RAD.LEN.(CM): 0.000 ABS.LEN.(CM): 11.524 DEDX: 1.237 COMPONENT INPUT FRAC BY WT INDX FC_HAD_ROD 0.75400 0.91264 139 COPPER 0.13200 0.07697 15 LIQUID_ARGON 0.11400 0.01039 11 ELEMENTS BY FRACTIONAL WEIGHT. # = 5 COPPER 0.076969 15 LIQUID_ARGON 0.010386 11 TUNGSTEN 0.885471 21 IRON 0.009268 12 NICKEL 0.017905 14 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: FC_HAD1_ITE$ # OF COMPS: 2 DENSITY: 7.761 SAMP.FRAC: 0.000 RAD.LEN.(CM): 1.692 ABS.LEN.(CM): 17.739 DEDX: 1.417 COMPONENT INPUT FRAC BY WT INDX LIQUID_ARGON 0.10410 0.01878 11 BRASS 0.89590 0.98122 101 ELEMENTS BY FRACTIONAL WEIGHT. # = 3 LIQUID_ARGON 0.019170 11 COPPER 0.686333 15 ZINC 0.294496 16 ***** MAKING MIXTURE FROM PROPORTIONS BY VOLUME: FC_HAD2_ITE$ # OF COMPS: 2 DENSITY: 7.615 SAMP.FRAC: 0.000 RAD.LEN.(CM): 1.727 ABS.LEN.(CM): 18.067 DEDX: 1.419 COMPONENT INPUT FRAC BY WT INDX LIQUID_ARGON 0.12470 0.02293 11 BRASS 0.87530 0.97707 101 ELEMENTS BY FRACTIONAL WEIGHT. # = 3 LIQUID_ARGON 0.023403 11 COPPER 0.683371 15 ZINC 0.293225 16 **** MIXTURE TOR_BAR_COIL$ DENSITY = 0.07 A,Z,DEN,FRC,WMAT: 26.98 13.00 0.07 0.46000 0.46000 A,Z,DEN,FRC,WMAT: 55.85 26.00 0.07 0.54000 0.54000 **** MIXTURE ALUMAN2_100$ DENSITY = 0.01 A,Z,DEN,FRC,WMAT: 26.98 13.00 0.01 0.97150 0.97150 A,Z,DEN,FRC,WMAT: 54.94 25.00 0.01 0.01100 0.01100 A,Z,DEN,FRC,WMAT: 55.85 26.00 0.01 0.00600 0.00600 A,Z,DEN,FRC,WMAT: 28.08 14.00 0.01 0.00500 0.00500 A,Z,DEN,FRC,WMAT: 63.55 29.00 0.01 0.00100 0.00100 A,Z,DEN,FRC,WMAT: 24.30 12.00 0.01 0.00200 0.00200 A,Z,DEN,FRC,WMAT: 52.00 24.00 0.01 0.00050 0.00050 A,Z,DEN,FRC,WMAT: 118.71 50.00 0.01 0.00200 0.00200 A,Z,DEN,FRC,WMAT: 47.88 22.00 0.01 0.00100 0.00100 **** MIXTURE ALUMAN_100$ DENSITY = 0.05 A,Z,DEN,FRC,WMAT: 26.98 13.00 0.05 0.97150 0.97150 A,Z,DEN,FRC,WMAT: 54.94 25.00 0.05 0.01100 0.01100 A,Z,DEN,FRC,WMAT: 55.85 26.00 0.05 0.00600 0.00600 A,Z,DEN,FRC,WMAT: 28.08 14.00 0.05 0.00500 0.00500 A,Z,DEN,FRC,WMAT: 63.55 29.00 0.05 0.00100 0.00100 A,Z,DEN,FRC,WMAT: 24.30 12.00 0.05 0.00200 0.00200 A,Z,DEN,FRC,WMAT: 52.00 24.00 0.05 0.00050 0.00050 A,Z,DEN,FRC,WMAT: 118.71 50.00 0.05 0.00200 0.00200 A,Z,DEN,FRC,WMAT: 47.88 22.00 0.05 0.00100 0.00100 **** MIXTURE TGC_MIX$ DENSITY = 0.05 A,Z,DEN,FRC,WMAT: 1.01 1.00 0.05 0.12900 0.12900 A,Z,DEN,FRC,WMAT: 16.00 8.00 0.05 0.60700 0.60700 A,Z,DEN,FRC,WMAT: 28.08 14.00 0.05 0.17600 0.17600 A,Z,DEN,FRC,WMAT: 40.08 20.00 0.05 0.08740 0.08740 **** MIXTURE RED_BRASS$ DENSITY = 8.83 A,Z,DEN,FRC,WMAT: 63.55 29.00 8.83 0.85000 0.85000 A,Z,DEN,FRC,WMAT: 65.39 30.00 8.83 0.05000 0.05000 A,Z,DEN,FRC,WMAT: 118.71 50.00 8.83 0.05000 0.05000 A,Z,DEN,FRC,WMAT: 207.00 82.00 8.83 0.05000 0.05000 **** MIXTURE PLUGBRASS$ DENSITY = 8.64 A,Z,DEN,FRC,WMAT: 63.55 29.00 8.64 0.88000 0.88000 A,Z,DEN,FRC,WMAT: 65.39 30.00 8.64 0.02000 0.02000 A,Z,DEN,FRC,WMAT: 118.71 50.00 8.64 0.07000 0.07000 A,Z,DEN,FRC,WMAT: 207.00 82.00 8.64 0.03000 0.03000 **** MIXTURE CU_C11000$ DENSITY = 8.89 A,Z,DEN,FRC,WMAT: 63.55 29.00 8.89 1.00000 1.00000 **** MIXTURE HEAVYMET$ DENSITY = 18.24 A,Z,DEN,FRC,WMAT: 183.86 74.00 19.30 0.89775 0.95000 A,Z,DEN,FRC,WMAT: 58.69 28.00 8.90 0.07172 0.03500 A,Z,DEN,FRC,WMAT: 63.55 29.00 8.96 0.03053 0.01500 **** MIXTURE TUNG$ DENSITY = 19.30 A,Z,DEN,FRC,WMAT: 183.86 74.00 19.30 1.00000 1.00000 **** MIXTURE SHIE_IRON$ DENSITY = 7.20 A,Z,DEN,FRC,WMAT: 55.85 26.00 7.20 0.93000 0.93000 A,Z,DEN,FRC,WMAT: 12.01 6.00 7.20 0.03400 0.03400 A,Z,DEN,FRC,WMAT: 28.08 14.00 7.20 0.02000 0.02000 A,Z,DEN,FRC,WMAT: 63.54 29.00 7.20 0.00200 0.00200 A,Z,DEN,FRC,WMAT: 58.71 28.00 7.20 0.00100 0.00100 A,Z,DEN,FRC,WMAT: 54.94 25.00 7.20 0.00800 0.00800 A,Z,DEN,FRC,WMAT: 30.97 15.00 7.20 0.00100 0.00100 A,Z,DEN,FRC,WMAT: 32.07 16.00 7.20 0.00100 0.00100 A,Z,DEN,FRC,WMAT: 95.95 42.00 7.20 0.00100 0.00100 A,Z,DEN,FRC,WMAT: 52.01 24.00 7.20 0.00200 0.00200 **** MIXTURE SHIE_STEEL$ DENSITY = 7.80 A,Z,DEN,FRC,WMAT: 55.85 26.00 7.80 0.98090 0.98090 A,Z,DEN,FRC,WMAT: 12.01 6.00 7.80 0.00250 0.00250 A,Z,DEN,FRC,WMAT: 54.94 25.00 7.20 0.00750 0.00692 A,Z,DEN,FRC,WMAT: 28.08 14.00 7.20 0.00800 0.00738 A,Z,DEN,FRC,WMAT: 30.97 15.00 7.80 0.00050 0.00050 A,Z,DEN,FRC,WMAT: 32.07 16.00 7.80 0.00060 0.00060 **** MIXTURE OLD_CONCRETE$ DENSITY = 3.20 A,Z,DEN,FRC,WMAT: 16.00 8.00 3.20 0.58300 0.58300 A,Z,DEN,FRC,WMAT: 32.07 16.00 3.20 0.16000 0.16000 A,Z,DEN,FRC,WMAT: 40.08 20.00 3.20 0.14200 0.14200 A,Z,DEN,FRC,WMAT: 28.08 14.00 3.20 0.04400 0.04400 A,Z,DEN,FRC,WMAT: 55.85 26.00 3.20 0.00200 0.00200 A,Z,DEN,FRC,WMAT: 1.01 1.00 3.20 0.00150 0.00150 A,Z,DEN,FRC,WMAT: 16.00 8.00 3.20 0.06750 0.06750 **** MIXTURE CONCPAINT$ DENSITY = 3.20 A,Z,DEN,FRC,WMAT: 16.00 8.00 3.20 0.50000 0.50000 A,Z,DEN,FRC,WMAT: 32.07 16.00 3.20 0.15000 0.15000 A,Z,DEN,FRC,WMAT: 40.08 20.00 3.20 0.15000 0.15000 A,Z,DEN,FRC,WMAT: 10.81 5.00 3.20 0.20000 0.20000 **** MIXTURE CONCPNT10$ DENSITY = 3.20 A,Z,DEN,FRC,WMAT: 16.00 8.00 3.20 0.54000 0.54000 A,Z,DEN,FRC,WMAT: 32.07 16.00 3.20 0.18000 0.18000 A,Z,DEN,FRC,WMAT: 40.08 20.00 3.20 0.18000 0.18000 A,Z,DEN,FRC,WMAT: 10.81 5.00 3.20 0.10000 0.10000 **** MIXTURE HAD_SCINT_MIX$ DENSITY = 6.23 A,Z,DEN,FRC,WMAT: 55.85 26.00 6.23 0.96700 0.96700 A,Z,DEN,FRC,WMAT: 1.01 1.00 6.23 0.00300 0.00300 A,Z,DEN,FRC,WMAT: 12.01 6.00 6.23 0.03000 0.03000 **** MIXTURE FC_EM_MIX$ DENSITY = 7.87 A,Z,DEN,FRC,WMAT: 39.95 18.00 7.87 0.00260 0.00260 A,Z,DEN,FRC,WMAT: 63.55 29.00 7.87 0.99740 0.99740 **** MIXTURE PURE_CU$ DENSITY = 8.96 A,Z,DEN,FRC,WMAT: 63.55 29.00 8.96 1.00000 1.00000 **** MIXTURE PURE_FE$ DENSITY = 7.87 A,Z,DEN,FRC,WMAT: 55.85 26.00 7.87 1.00000 1.00000 **** MIXTURE PURE_W$ DENSITY = 19.30 A,Z,DEN,FRC,WMAT: 183.84 74.00 19.30 1.00000 1.00000 **** MIXTURE FC_HAD1_MIX$ DENSITY = 14.52 A,Z,DEN,FRC,WMAT: 39.95 18.00 14.52 0.01500 0.01500 A,Z,DEN,FRC,WMAT: 63.55 29.00 14.52 0.07860 0.07860 A,Z,DEN,FRC,WMAT: 183.86 74.00 14.52 0.89190 0.89190 A,Z,DEN,FRC,WMAT: 55.85 26.00 14.52 0.00480 0.00480 A,Z,DEN,FRC,WMAT: 58.69 28.00 14.52 0.00970 0.00970 **** MIXTURE FC_HAD2_MIX$ DENSITY = 14.20 A,Z,DEN,FRC,WMAT: 39.95 18.00 14.20 0.01730 0.01730 A,Z,DEN,FRC,WMAT: 63.55 29.00 14.20 0.07510 0.07510 A,Z,DEN,FRC,WMAT: 183.86 74.00 14.20 0.89380 0.89380 A,Z,DEN,FRC,WMAT: 55.85 26.00 14.20 0.00460 0.00460 A,Z,DEN,FRC,WMAT: 58.69 28.00 14.20 0.00920 0.00920 ***** DEFN MEDIUM (IMAT): 3 AIR$ 30 ***** DEFN MEDIUM (IMAT): 4 AIR_SOLEN$ 30 ***** DEFN MEDIUM (IMAT): 5 AIR_TOROI$ 30 ***** DEFN MEDIUM (IMAT): 6 EPOLIFTOROI$ 109 ***** DEFN MEDIUM (IMAT): 7 EPOLIF$ 109 ***** DEFN MEDIUM (IMAT): 8 VACU$ 31 ***** DEFN MEDIUM (IMAT): 9 VACU_SOLEN$ 31 ***** DEFN MEDIUM (IMAT): 10 VACU_TOROI$ 31 ***** DEFN MEDIUM (IMAT): 11 BERYLLIUM$ 34 ***** DEFN MEDIUM (IMAT): 12 ALUMINUM$ 9 ***** DEFN MEDIUM (IMAT): 13 ALUM_TOROI$ 9 ***** DEFN MEDIUM (IMAT): 14 SCINT$ 110 ***** DEFN MEDIUM (IMAT): 15 EWHEEL_MIXT$ 69 ***** DEFN MEDIUM (IMAT): 16 COILMIX$ 68 ***** DEFN MEDIUM (IMAT): 17 PRESHOWER$ 70 ***** DEFN MEDIUM (IMAT): 18 LEAD$ 37 ***** DEFN MEDIUM (IMAT): 19 SSTEEL$ 32 ***** DEFN MEDIUM (IMAT): 20 SH_STEEL$ 103 ***** DEFN MEDIUM (IMAT): 21 SH_IRON$ 102 ***** DEFN MEDIUM (IMAT): 22 JMDPOLY$ 41 ***** DEFN MEDIUM (IMAT): 23 JMPOLY$ 109 ***** DEFN MEDIUM (IMAT): 24 JD_CLAD1$ 109 ***** DEFN MEDIUM (IMAT): 25 JD_CLAD2$ 37 ***** DEFN MEDIUM (IMAT): 26 JTBPOLY$ 109 ***** DEFN MEDIUM (IMAT): 27 JTLEAD$ 37 ***** DEFN MEDIUM (IMAT): 28 JTFACE$ 41 ***** DEFN MEDIUM (IMAT): 29 SH_CLAD1$ 109 ***** DEFN MEDIUM (IMAT): 30 SH_CLAD2$ 103 ***** DEFN MEDIUM (IMAT): 31 FLUX_IRON$ 103 ***** DEFN MEDIUM (IMAT): 32 SILICON$ 35 ***** DEFN MEDIUM (IMAT): 33 G10$ 36 ***** DEFN MEDIUM (IMAT): 34 COPPER$ 33 ***** DEFN MEDIUM (IMAT): 35 BEAMPIPE$ 9 ***** DEFN MEDIUM (IMAT): 36 NEGMIX$ 39 ***** DEFN MEDIUM (IMAT): 37 VACPIPE$ 32 ***** DEFN MEDIUM (IMAT): 38 PIXBARMIX$ 44 ***** DEFN MEDIUM (IMAT): 39 PIXDSKMIX$ 45 ***** DEFN MEDIUM (IMAT): 40 SCTBARMIX$ 46 ***** DEFN MEDIUM (IMAT): 41 SCTWHLMIX$ 47 ***** DEFN MEDIUM (IMAT): 42 TRTBAR1$ 48 ***** DEFN MEDIUM (IMAT): 43 TRTBAR2$ 49 ***** DEFN MEDIUM (IMAT): 44 TRTBAR3$ 50 ***** DEFN MEDIUM (IMAT): 45 TRTBAR45$ 51 ***** DEFN MEDIUM (IMAT): 46 TRTAECW1$ 52 ***** DEFN MEDIUM (IMAT): 47 TRTAECW2$ 53 ***** DEFN MEDIUM (IMAT): 48 TRTAECW3$ 54 ***** DEFN MEDIUM (IMAT): 49 TRTBECW1$ 55 ***** DEFN MEDIUM (IMAT): 50 TRTBECW2$ 56 ***** DEFN MEDIUM (IMAT): 51 TRTBECW3$ 57 ***** DEFN MEDIUM (IMAT): 52 TRTCECW1$ 58 ***** DEFN MEDIUM (IMAT): 53 TRTCECW2$ 59 ***** DEFN MEDIUM (IMAT): 54 TRTCECW3$ 60 ***** DEFN MEDIUM (IMAT): 55 IDSCARBON$ 62 ***** DEFN MEDIUM (IMAT): 56 IDSALUM$ 9 ***** DEFN MEDIUM (IMAT): 57 IDSPIXB$ 63 ***** DEFN MEDIUM (IMAT): 58 IDSPIXE$ 64 ***** DEFN MEDIUM (IMAT): 59 IDSCOOL$ 65 ***** DEFN MEDIUM (IMAT): 60 CRACKSRV$ 61 ***** DEFN MEDIUM (IMAT): 61 LAR_CABLES$ 87 ***** DEFN MEDIUM (IMAT): 62 LIQ_ARGON$ 67 ***** DEFN MEDIUM (IMAT): 63 EM_IN_TAB$ 73 ***** DEFN MEDIUM (IMAT): 64 CC_LAR1_MEDI$ 71 ***** DEFN MEDIUM (IMAT): 65 CC_LAR2_MEDI$ 72 ***** DEFN MEDIUM (IMAT): 66 EM_OUT_TAB$ 74 ***** DEFN MEDIUM (IMAT): 67 HAD_SCINT_MEDI$ 111 ***** DEFN MEDIUM (IMAT): 68 ELECT_MEDI$ 76 ***** DEFN MEDIUM (IMAT): 69 CRATE_MEDI$ 77 ***** DEFN MEDIUM (IMAT): 70 TUNGSTEN$ 101 ***** DEFN MEDIUM (IMAT): 71 HEAVYMET$ 100 ***** DEFN MEDIUM (IMAT): 72 ABMAT$ 79 ***** DEFN MEDIUM (IMAT): 73 FINGMAT$ 78 ***** DEFN MEDIUM (IMAT): 74 GAPMAT$ 80 ***** DEFN MEDIUM (IMAT): 75 EC_EMI_MEDI$ 82 ***** DEFN MEDIUM (IMAT): 76 EC_EMO_MEDI$ 83 ***** DEFN MEDIUM (IMAT): 77 EC_HAD1_MEDI$ 84 ***** DEFN MEDIUM (IMAT): 78 EC_HAD2_MEDI$ 85 ***** DEFN MEDIUM (IMAT): 79 EC_HAD3_MEDI$ 86 ***** DEFN MEDIUM (IMAT): 80 FC_EM_MEDI$ 112 ***** DEFN MEDIUM (IMAT): 81 FC_HAD1_MEDI$ 116 ***** DEFN MEDIUM (IMAT): 82 FC_HAD2_MEDI$ 117 ***** DEFN MEDIUM (IMAT): 83 MUCMDTMIX$ 94 ***** DEFN MEDIUM (IMAT): 84 RPCMIX$ 36 ***** DEFN MEDIUM (IMAT): 85 TOR_BAR_COIL$ 93 ***** DEFN MEDIUM (IMAT): 86 MUFMDTMIX$ 95 ***** DEFN MEDIUM (IMAT): 87 TGCMIX$ 96 ***** DEFN MEDIUM (IMAT): 88 CSCMIX$ 36 ***** DEFN MEDIUM (IMAT): 89 POLYLIT$ 41 ***** DEFN MEDIUM (IMAT): 90 POLY$ 40 ***** DEFN MEDIUM (IMAT): 91 CONCRETE$ 107 ***** DEFN MEDIUM (IMAT): 92 CONCLIF$ 43 ***** DEFN MEDIUM (IMAT): 93 PLUGBRASS$ 98 ***** DEFN MEDIUM (IMAT): 94 JDCOPPER$ 97 ***** DEFN MEDIUM (IMAT): 95 JTCOPPER$ 97 ***** DEFN MEDIUM (IMAT): 96 TASCOPPER$ 99 ***** DEFN MEDIUM (IMAT): 97 RINGPOLY$ 109 ***** DEFN MEDIUM (IMAT): 98 PAINT$ 105 ***** FLAG SETTINGS ***** TRUE - BEAM_PIPE TRUE - REAL_PIPE TRUE - TRACKER TRUE - KEEP_FCAL TRUE - MORE_POLY TRUE - FCAL_SLEEVES FALSE - NO_SLEEVES TRUE - CHICANES FALSE - NOCHICANES FALSE - WIDE_CHICANE TRUE - WID2_CHICANE FALSE - WID3_CHICANE FALSE - TUNG_CORE TRUE - NOTUNG_CORE TRUE - NEG_PUMP FALSE - NO_NEG_PUMP TRUE - NO_MILANTP FALSE - MILANTP TRUE - SEPT FALSE - NO_SEPT TRUE - SEPT_PRIME FALSE - NO_SEPT_PR TRUE - LONG_NEG TRUE - TOR_CORNERS FALSE - CYL_BORE TRUE - OCTOBER FALSE - CANTILEVER FALSE - PLUG3_TUNG TRUE - NOPLUG3_TUNG TRUE - CORNER_TUNG FALSE - NOCORN_TUNG TRUE - JAN_1999 FALSE - CHIC4REAL FALSE - CHIC4AL TRUE - NO_CHIC4AL TRUE - ETA_EDGE_465 TRUE - BIG_TUNG TRUE - OCT99 FALSE - NO_OCT99 TRUE - NO_OCT99C4AIR FALSE - OCT99C4AIR TRUE - NO_O99JDPOLY FALSE - O99JDPOLY FALSE - CYLETA46 TRUE - NO_CYLETA46 TRUE - JNCASTFE FALSE - NO_JNCASTFE TRUE - JT3CMCHIC FALSE - NO_JT3MCHIC TRUE - JDNOTCH TRUE - TASCAST FALSE - NO_TASCAST FALSE - JDTUNG TRUE - NO_JDTUNG TRUE - JDWEDCU FALSE - NO_JDWEDCU TRUE - PLUG1BEV FALSE - NO_PLUG1BEV FALSE - TAS_CHANS FALSE - PLUG1_FLAT TRUE - SERVGAP4 FALSE - SERVGAP8 TRUE - JDCLAD FALSE - NO_JDCLAD TRUE - JDWEDCLAD FALSE - NO_JDWEDCLAD TRUE - JDPPBCLAD FALSE - JDPOLYCLAD FALSE - JDCASTCLAD FALSE - JDCONCCLAD FALSE - JDCONCLCLAD FALSE - JDLEADCLAD FALSE - JDCUCLAD FALSE - JDCUPLIF FALSE - JDBPBPOLY TRUE - JFCASTCORE FALSE - NO_CASTCORE FALSE - JFCONCCAST TRUE - NO_CONCCAST FALSE - JFCASTCLAD TRUE - NO_JFCAST TRUE - JFSTANCLAD FALSE - NO_JFSTAN FALSE - JFNOCLAD TRUE - NO_JFNOCLAD FALSE - JFCONCCLAD TRUE - NO_JFCONC FALSE - JFCONCLIF TRUE - NO_JFCLIF FALSE - JFBPBPOLY TRUE - NO_JFBPBP FALSE - JF1ABCCYL FALSE - JF1REDCYL20 FALSE - JF1REDCYL40 FALSE - JF1REDCYL60 FALSE - JF1REDU FALSE - JF1REDUVRS2 FALSE - JF1REDUCLAD TRUE - NOJF1RDCLAD TRUE - REDJN5CM FALSE - QUADSHIE FALSE - QUADSH1M TRUE - QUADSH21 FALSE - TASEXT20 FALSE - TASEXT30 FALSE - TASEXT40 FALSE - TASEXT50 TRUE - NEWMATS FALSE - OLDMATS TRUE - JFJAN2001 FALSE - NOJFJAN2001 TRUE - JANCLADJF1 FALSE - NOJANCLDJF1 FALSE - JANCLAD2FE TRUE - JANCLAD2PB FALSE - JFLOWLUM TRUE - NOJFLOWLUM FALSE - JFLOWSHTAS TRUE - JANSRVGAP FALSE - NOJANSRVGAP TRUE - INCRSRVDENS FALSE - NOINCRSDENS TRUE - FEB01BVAC FALSE - NOFEB01BVAC TRUE - FEB01FTOR FALSE - NOFEB01FTOR TRUE - FEB01BPOLY FALSE - NOFEB01BPOLY TRUE - FEBJDCONE FALSE - NOFEBJDCONE TRUE - DFCALMATS FALSE - NODFCALMATS TRUE - CLAD2PB FALSE - KEEP_JTEPOXY TRUE - JTLINER TRUE - JTLINER1 TRUE - JTLINEROPT1 FALSE - JTLINEROPT2 FALSE - JTLINEROPT3 FALSE - JTLINEROPT4 FALSE - JTLINEROPT5 FALSE - JTLINER2 FALSE - NO_JTLINER TRUE - JDBPOLYPB FALSE - JDBPOLYFE TRUE - NO_JT_C11000 FALSE - JT_C11000 TRUE - BPOLY5 FALSE - BPOLY3 TRUE - NO_DENSMDT FALSE - DENSMDT FALSE - JFBPOLYPB TRUE - JFBPOLYFE TRUE - CYL_CAVERN FALSE - NO_CYL_CAVERN FALSE - PAINT_WALL FALSE - PAINT_THIN TRUE - NOPAINT_THIN TRUE - FTOR_FACING FALSE - FTOR_FULLFACE FALSE - FTOR_PBORON TRUE - FTOR_PLIF FALSE - FTOR_PBPB TRUE - SCORING FALSE - JTHALFLINE TRUE - FTOR_NEWFACE FALSE - LARGEBORE FALSE - JDOUTERCYL FALSE - JFMANYVOLS TRUE - JFOUTERCYL TRUE - JFSMALLCYL TRUE - JFCLADCORN FALSE - JTBACKLINER FALSE - FT_FRONTFACE TRUE - FT_BACKFACE FALSE - JDSTEPCYL TRUE - SMALL_NOSE FALSE - GAPS_NOSE TRUE - NEW_JM TRUE - VAC_2KGPUMP TRUE - CLAD_CZ8CM TRUE - FT_THICKBACK FALSE - JT_MOD3CM FALSE - JT_MOD5CM TRUE - JFINCR_1 FALSE - JFINCR_2 FALSE - JFINCR_3 TRUE - JF_1STCLAD5 FALSE - JF_COREONLY TRUE - JF_FULLSHIE FALSE - JFPRAGCLAD FALSE - TOR_BAR_COILS TRUE - MUON_CHAMBERS TRUE - CLAD_JD5CM TRUE - JMFCALPLUG TRUE - JMLARPLUG FALSE - JMPUMPPLUG FALSE - JMDISKRSML FALSE - JMFCALTHIN TRUE - JMFCALTHNR TRUE - JMFCALRLRG FALSE - JMPUMPRSML FALSE - JD7THCUTOW FALSE - FT_BINRFACE FALSE - FT_FINRFACE FALSE - JT_EXTRA8CM TRUE - NO_JFOCTAG1 FALSE - JF_OCTS12RO TRUE - KEEP_JN TRUE - JF_WAIST FALSE - NOJF_WAIST FALSE - JF_OCT2RMID TRUE - JF_CYLR155 TRUE - JF_OCT2R210 TRUE - JMPOLYB FALSE - JMPOLYL FALSE - JMDPOLYB TRUE - JMDPOLYL FALSE - OCT2_25CMFE TRUE - VAC_ID2WALL FALSE - VAC_ID1WALL TRUE - VAC_DS2WALL FALSE - VAC_DS1WALL FALSE - VAC_DS1DMNS TRUE - VAC_DSSS FALSE - VAC_DSAL TRUE - JUN02_SHDMN FALSE - JTTOL_2CM -------------- BEGIN CONSTANTS -------------- (Constants without * are DERIVED.) * 0. ZERO * 0.5 HALF * 1. ONE * 2. TWO * 3. THREE * 4. FOUR * 5. FIVE * 6. SIX * 7. SEVEN * 8. EIGHT * 9. NINE * 10. TEN * 12. TWELVE * 13. THIRTEEN * 20. TWENTY * 30. THIRTY * 40. FORTY * 50. FIFTY * 70. SEVENTY * 80. EIGHTY * 100. HUNDRED * 5000. BIGVOL * 3.14159274 PI * 0.267949194 TAN15D * 0.212556601 TAN12D * 0.414213598 TAN22_5D * 0.923879504 COS22_5D * 0.382683396 SIN22_5D * 0.135205299 TAN77D * 0.165283695 TanEta25 * 0.135020897 TanEta27 * 0.122071497 TanEta28 * 0.109935597 TanEta29 * 0.107762299 TanEta292 * 0.0998215973 TanEta3 * 0.0816600993 TanEta32 * 0.0668210015 TanEta34 * 0.0604498982 TanEta35 * 0.0546883009 TanEta36 * 0.0299979001 TanEta42 * 0.0271421 TanEta43 * 0.0245584007 TanEta44 * 0.0222206991 TanEta45 * 0.0201056991 TanEta46 * 0.0192009993 TAN11D * 0.0191226006 TanEta465 * 0.0181920994 TanEta47 * 0.0164605994 TanEta48 * 0.0148940003 TanEta49 * 0.0134765003 TanEta50 * 0.00999999978 EPS * 350. MvolIDZmax % End of inner detector volume at EC calorimeter * 0. GAPDZ * 4. GAPDZ % The default gap is now 4 cm larger than that up 354. MvolIDZmax 354. MvolCCZmax % Half length of calorimeter mothervolume * 115. MvolIDRmax % Radial boundary to calorimeter mother volume * 340.5 CCHalfLen % Half length of central calorimeter at end of cr 115. MvolCCRmin % Inner radius of central calorimeter mothervolum * 430. MvolCCRmax % Outer radius of central calorimeter mothervolum 354. MvolECZmin % Front face of endcap calorimeter mothervolume * 668.5 MvolECZmax % Back face of endcap calorimeter mothervolume 672.5 MvolECZmax 513.25 MvolECZmid % Mid Z of EC mvol * 0. MvolECRmin % Inner radius of endcap calorimeter mothervolume 430. MvolECRmax % Outer radius of endcap calorimeter mothervolume * 1200. HallWallRmin % Barrel wall minimum radius * 2000. HallWallRmax % Barrel wall maximum radius * 3000. HallWallZmax % Barrel wall max length * 2400. HallEndZmin % End wall minimum z * 1250. HallWallXYmin * 2000. HallWallXYmax * 2800. HallWallRbig 1625. HallWallXYmid 375. HallWallDXY 2700. HallWallZmid 300. HallWallDZ * 0.100000001 PaintHThk % Half thickness of wall coating 2399.7998 PaintZmin 1249.90002 PaintXYmid * 2.9000001 BPipeBe1Ri % Beryllium inner beam pipe inner radius (58 mm/ * 2.98000002 BPipeBe1Ro % Beryllium inner beam pipe outer radius (.8 mm 354. BPipeBe1DZ % (354.) Beryllium inner beam pipe half length * 3.38000011 BPipeBe2Ri % Beryllium outer beam pipe inner radius (67.6 m * 3.46000004 BPipeBe2Ro % Beryllium outer beam pipe outer radius (.8 mm 354. BPipeBe2DZ % (354.) Beryllium outer beam pipe half length * 2.9000001 BPipeSS1Ri % First stainless section beam pipe inner radius * 2.98000002 BPipeSS1Ro % First stainless section beam pipe outer radius 354. BPipeSS1Zf % (354.) Z of beginning of SS pipe (really Al, b * 1046.5 BPipeSS1Zb % (OK) Z of end of stainless pipe, extended to f * 1.39999998 BFlanDZ % Single flange thickness * 4.30000019 BFlan1Ro % Flange outer radius * 365. BFlan1Z 363.600006 BFlan1AZf % Z of front of first flange A section (ALUMI 366.399994 BFlan1BZb % Z of back of first flange B section (STAIN * 375.5 BIonZf 379.5 BIonZf 382.5 BIonZb * 2.98000002 BIonRi * 6. BIonRo * 428.899994 BNeg1Zf % Z of beginning of neg section * 849. BNeg1Zb % Z of back of this neg section * 4. BNegRo % Outer radius of neg SS jacket * 3.9000001 BNegRi % Inner radius of neg SS jacket * 4.30000019 BFlan2Ro % Flange 2 outer radius * 868.599976 BFlan2AZf % Z of front of full flange * 871.400024 BFlan2BZb % Z of back of full flange * 878.5 BNeg2Zf % Z of beginning of neg section * 1039.30005 BNeg2Zb % Z of back of this neg section * 4. BPipeSS2Ri % Second SS section beam pipe inner radius * 4.0999999 BPipeSS2Ro % Second SS section beam pipe outer radius (1.0 * 4.19999981 Temp % Length of flare 1050.69995 BPipeSS2Zf % Z of beginning of second SS pipe * 1434.19995 BPipeSS2Zb % (OK) Z of end of second SS pipe (to start of n * 6.30000019 BFlan3Ro % Flange 3 outer radius * 1298.5 BFlan3AZf % Z of front of full flange * 1302.90002 BFlan3BZb % Z of back of full flange * 6. BPipeSS3Ri % Second SS section beam pipe inner radius * 6.1500001 BPipeSS3Ro % Second SS section beam pipe outer radius (1.5 * 7.4000001 Temp % Length of flare 1441.59998 BPipeSS3Zf % Z of beginning of third SS pipe * 1865. BPipeSS3Zb % Z of end of third SS pipe * 1870. BPipeSSPump1Zf % Z of front of pipe through the pump * 1888.30005 BPipeCollZf % Beginning of collimator pipe (need thi * 15. Temp % Distance from flange center to front of pump (a * 1870. BPump1Zf % ????? Z front of pump * 37000. BPumpMass % 37 kilograms * 7.86999989 BPumpDens % Density of stainless * 22. BPumpRo % Pump outer radius 4.0999999 BPumpRi % Pump inner radius (still applies here) 16.8099995 BPumpRiSq % Square of inner radius 1467.7207 BPumpArea % Area of pump face 3.20319653 BPumpLen % Length of pump 1873.20325 BPump1Zb % Z of back of pump * 15. Temp % Guess at the unflare distance 1873.30005 BPipeSSPump1Zb % Z of badk of pipe through the pump * 20. CuAbsorbR % Radius of copper collimator (TAS absorber) * 1914.90002 CuAbsorbZf % Front face of copper collimator * 180. CuAbsorbLen % Length of copper collimator 20. CuAbsorbShRi * 25. CuAbsorbR % Radius of copper collimator (TAS absorber) * 1905. CuAbsorbZf % Front face of copper collimator * 180. CuAbsorbLen % Length of copper collimator 28. CuAbsorbShRi % Leave cooling gap around TAS 2085. CuAbsorbZb % Z of back face of copper colli * 1.70000005 BPipeCollRi % Collimator pipe inner radius * 1.89999998 BPipeCollRo % Collimator pipe outer radius 2085. BPipeCollZb % End of collimator pipe * 6. BPipePump2Ri % Inner radius of SS pipe through pump 2 * 6.25 BPipePump2Ro % Outer radius of SS pipe through pump 2 * 15. Temp % Guess at the flare distance 2100. BPipeSSPump2Zf % Z of front of pipe through the pump 2100. BPump2Zf % Z of front of pump2 2103.20312 BPump2Zb % Z of back of pump2 * 2250. Quad1Zf % Z of front of quad 1 (need this here) * 15. Temp % Guess at the flare distance 2235. BPipeSSPump2Zb % Z of back of pipe through the pump * 3. QuadPipeRi % Quad pipe inner radius * 3.20000005 QuadPipeRo % Quad pipe outer radius * 3.5 QuadCoilRi % Inner radius of quad coils * 6.5 QuadCoilRo % Outer radius of quad coils * 20. QuadMagRo % Outer radius of quads * 2950. Quad1Zb % Z of back of quad 1 * 3050. Quad2Zf % Z of front of quad 2 * 3650. Quad2Zb % Z of back of quad 2 * 3750. Quad3Zf % Z of front of quad 3 * 4350. Quad3Zb % Z of back of quad 3 * 4450. Quad4Zf % Z of front of quad 4 * 5150. Quad4Zb % Z of back of quad 4 * 0.261400014 PixBarDR % Thickness adjusted to get X0 correct with PIXBAR * -38.9000015 PixLyrZ1 % Good for all layers * 38.9000015 PixLyrZ2 * 4.30000019 PixLyrInrRi 4.56140041 PixLyrInrRo * 10.1000004 PixLyrMedRi 10.3614006 PixLyrMedRo * 13.1999998 PixLyrOtrRi 13.4614 PixLyrOtrRo * 12.6000004 PixDskRi * 21.2000008 PixDskRo * 0.243399993 PixDskDZ % Thickness adjusted to get X0 correct with PIXDSKM * 49.5 PixDsk1Zf 49.7434006 PixDsk1Zb * 61.2000008 PixDsk2Zf 61.4434013 PixDsk2Zb * 67. PixDsk3Zf 67.2434006 PixDsk3Zb * 84.0999985 PixDsk4Zf 84.343399 PixDsk4Zb * 92.5999985 PixDsk5Zf 92.843399 PixDsk5Zb * -79. SCTLyrZ1 % Good for all layers * 79. SCTLyrZ2 * 0.0839999989 SCTThk * 30. SCTLyr1Ri 30.0839996 SCTLyr1Ro * 37.2999992 SCTLyr2Ri 37.3839989 SCTLyr2Ro * 44.7000008 SCTLyr3Ri 44.7840004 SCTLyr3Ro * 52. SCTLyr4Ri 52.0839996 SCTLyr4Ro * 26. SCTWhl13456Ri * 33.5999985 SCTWhl27Ri * 40.0999985 SCTWhl8Ri * 40.0999985 SCTWhl9Ri * 56.5 SCTWhlRo * 0.318199992 SCTThk % Thickness adjusted to get material right * 83.5 SCTWhl1Zf 83.8181992 SCTWhl1Zb * 92.5 SCTWhl2Zf 92.8181992 SCTWhl2Zb * 107.199997 SCTWhl3Zf 107.518196 SCTWhl3Zb * 126. SCTWhl4Zf 126.318199 SCTWhl4Zb * 146. SCTWhl5Zf 146.318207 SCTWhl5Zb * 169.5 SCTWhl6Zf 169.818207 SCTWhl6Zb * 213.5 SCTWhl7Zf 213.818207 SCTWhl7Zb * 252.800003 SCTWhl8Zf 253.11821 SCTWhl8Zb * 277.799988 SCTWhl9Zf 278.118195 SCTWhl9Zb * 0.75999999 TRTBar1Zf * 71.2799988 TRTBar1Zb * 56. TRTBar1Ri * 107. TRTBar1Ro * 0. TRTBar2Zf * 0.75999999 TRTBar2Zb * 56. TRTBar2Ri * 107. TRTBar2Ro * 71.2799988 TRTBar3Zf * 77.1800003 TRTBar3Zb * 56. TRTBar3Ri * 107. TRTBar3Ro * 0. TRTBar4Zf * 73.1999969 TRTBar4Zb * 55.75 TRTBar4Ri * 55.9500008 TRTBar4Ro * 0. TRTBar5Zf * 73.1999969 TRTBar5Zb * 107.099998 TRTBar5Ri * 107.300003 TRTBar5Ro * 82.5800018 TRTECA1Zf * 171.130005 TRTECA1Zb * 64.3700027 TRTECA1Ri * 100.400002 TRTECA1Ro * 82.5800018 TRTECA2Zf * 171.130005 TRTECA2Zb * 62. TRTECA2Ri * 64.3700027 TRTECA2Ro * 82.5800018 TRTECA3Zf * 171.130005 TRTECA3Zb * 100.400002 TRTECA3Ri * 107.650002 TRTECA3Ro * 173.779999 TRTECB1Zf * 270.429993 TRTECB1Zb * 64.3700027 TRTECB1Ri * 100.400002 TRTECB1Ro * 173.779999 TRTECB2Zf * 270.429993 TRTECB2Zb * 62. TRTECB2Ri * 64.3700027 TRTECB2Ro * 173.779999 TRTECB3Zf * 270.429993 TRTECB3Zb * 100.400002 TRTECB3Ri * 107.650002 TRTECB3Ro * 281.980011 TRTECC1Zf * 339.630005 TRTECC1Zb * 48.3600006 TRTECC1Ri * 97.0999985 TRTECC1Ro * 281.980011 TRTECC2Zf * 339.630005 TRTECC2Zb * 46. TRTECC2Ri * 48.3600006 TRTECC2Ro * 281.980011 TRTECC3Zf * 339.630005 TRTECC3Zb * 97.0999985 TRTECC3Ri * 103.400002 TRTECC3Ro * 62. TRTWhlABSupRi % Inner radius of wheels A,B support tube * 64. TRTWhlABRi % Inner radius of active AB TRT wheels * 46. TRTWhlCSupRi % Inner radius of inner support of wheel C * 48. TRTWhlCCRi % Inner radius of active wheel C * 103. TRTWhlABCRo % Inner radius of active TRT wheels ABC * 108. TRTWhlABCSupRo % Outer radius of wheels A,B,C support * 83. TRTWhl1Zf * 168.399994 TRTWhl1Zb * 168.699997 TRTWhl2Zf * 278. TRTWhl2Zb * 281.799988 TRTWhl3Zf * 336.299988 TRTWhl3Zb * 25. IDSrv1ARi * 55. IDSrv1ARo * 80. IDSrv1AZf * 80.4469986 IDSrv1AZb % .0238 X0 carbon * 55. IDSrv1BRi * 115. IDSrv1BRo * 80. IDSrv1BZf * 81.6340027 IDSrv1BZb % .0869 X0 carbon * 112. IDSrv2Ri * 113.279999 IDSrv2Ro % .0697 X0 carbon * 66. IDSrv2Zf % Moved to avoid volume collision * 74. IDSrv2Zb * 115. IDSrv4Ri * 122.760002 IDSrv4Ro % .4125 X0 carbon * 333. IDSrv4Zf * 341. IDSrv4Zb * 60. IDSrv5Ri * 60.5019989 IDSrv5Ro % .0161 X0 IDSCOOL * 81.5 IDSrv5Zf * 281. IDSrv5Zb * 4.30000019 IDSrv9aRi * 24. IDSrv9aRo * 43. IDSrv9aZf * 43.1790009 IDSrv9aZb % .0201 X0 PIXB * 25. IDSrv9bRi * 25.1194992 IDSrv9bRo * 42. IDSrv9bZf * 95. IDSrv9bZb % .0136 X0 PIXB * 54. IDSrv10Ri * 54.2028008 IDSrv10Ro % .0065 X0 IDS_COOL * 82.1999969 IDSrv10DZ * 22.5 IDSrv12Ri * 22.5375996 IDSrv12Ro % .0020 X0 carbon * 42. IDSrv12DZ * 9.30000019 IDSrv13Ri * 9.34136009 IDSrv13Ro * 94.8000031 IDSrv13DZ * 7.9000001 IDSrv14Ri * 7.97298002 IDSrv14Ro * 44.0999985 IDSrv14Zf * 95. IDSrv14Zb * 8. IDSrv15Ri * 24.8999996 IDSrv15Ro * 94.8000031 IDSrv15Zf * 94.841362 IDSrv15Zb * 10. IDSrv16Ri * 10.0489502 IDSrv16Ro * 95. IDSrv16Zf * 191. IDSrv16Zb * 10. IDSrv18Ri * 25. IDSrv18Ro * 191. IDSrv18Zf * 191.028473 IDSrv18Zb * 24.7999992 IDSrv19Ri * 24.8470001 IDSrv19Ro * 191.199997 IDSrv19Zf * 281. IDSrv19Zb * 25. IDSrv21Ri * 109. IDSrv21Ro % NOT 114 To avoid volume collision * 281. IDSrv21Zf * 281.035706 IDSrv21Zb * 115. LarCCWarmFrnRi % Inner radius of CC warm front wall * 116. LarCCWarmFrnRo % Outer radius of CC warm front wall * 304. LarCCWarmFrnDZ % Half length of CC warm front wall * 138.5 LarCCColdFrnRo % Outer radius for all tapered sections * 134.100006 LarCCColdFrn1Ri % R inner up to first break (TUBE) * 7.5 LarCCColdFrn1Zb % Z at end of first section * 135.660004 LarCCColdFrn2Ri % R inner at 2nd break (CONE volumes after * 40. LarCCColdFrn2Zb % Z of 2nd break * 135.889999 LarCCColdFrn3Ri % R inner at 3rd break * 112. LarCCColdFrn3Zb % Z of 3rd break * 136.699997 LarCCColdFrn4Ri % R inner at 4th break * 195. LarCCColdFrn4Zb % Z of 4th break * 136.899994 LarCCColdFrn5Ri % R inner at 5th break * 240. LarCCColdFrn5Zb % Z of 5th break * 136.5 LarCCColdCrn1Ri % Cold end wall corner section R min * 138.5 LarCCColdCrn1Ro % Cold end wall corner section R max * 302.299988 LarCCColdCrn1Zf % Cold end wall corner section Z min * 310.100006 LarCCColdCrn1Zb % Cold end wall corner section Z max * 137.100006 LarCCColdCrn2Rfi % 138.50 - 2.*sqrt(2) * 155.130005 LarCCColdCrn2Rbi % 156.55 - 2.*sqrt(2) * 156.550003 LarCCColdEndInrRi % Cold end wall inner section R min * 185. LarCCColdEndInrRo % Cold end wall inner section R max * 326.700012 LarCCColdEndInrZf % Cold end wall inner section Z min * 328.700012 LarCCColdEndInrZb % Cold end wall inner section Z max * 185. LarCCColdEndOtrRi % Cold end wall outer section R min * 219. LarCCColdEndOtrRo % Cold end wall outer section R max * 326.700012 LarCCColdEndOtrZf % Cold end wall outer section Z min * 330.200012 LarCCColdEndOtrZb % Cold end wall outer section Z max 116. LarCCVac1Ri % Inner radius of first vacuum gap * 123.099998 LarCCCoilRi % Inner radius of coil * 265. LarCCCoilDZ % Half length of solenoidal coil * 324. SolMagDZ % Magnetic end of solenoidal coil region * 127.099998 LarCCVac2Ri % Inner radius of second vacuum gap * 141.300003 LarCCPrsRi % Inner radius of preshower detector * 144.800003 LarCCPrsRo % Outer radius of preshower detector * 147.100006 LarCCEMFrnRi % Inner radius of accordion elect, G10 supp 147.100006 LarCCEMActRi % Inner radius of active accordion * 315.200012 LarCCEMDZ % Half length of accordion * 200.899994 LarCCEMActRo % Outer radius of active accordion * 1.12599194 LarTanEta08 % Tangent of theta for eta=.8 130.640366 LarCCBrkZf % Inner Z where sampling fractio 178.420456 LarCCBrkZb % Outer Z where sampling fractio * 0.5020383 LarTanEta144 % Tangent of theta for eta=1.44 293.005554 LarCCEMFrnDZ % Half length of cylindrical acc 158.242477 LarCCEMEndRi % Inner radius at end of accordi 293.005554 LarCCPrsDZ % Halflength of preshower detector MADE UP! * 214. LarCCColdBckRi % Inner radius of rear cold wall * 217. LarCCColdBckRo % Outer radius of rear cold wall * 299.600006 LarCCColdBckDZ % Halflength of rear cold wall * 217. LarCCColdVBckRi % Inner radius of rear vertical cold wall * 228. LarCCColdVBckRo % Outer radius of rear vertical cold wall * 292.600006 LarCCColdVBckZf % Zmin of rear vertical cold wall * 299.600006 LarCCColdVBckZb % Zmax of rear vertical cold wall * 221.5 LarCCColdFlanRi % Inner radius of rear cold flange * 226.5 LarCCColdFlanRo % Outer radius of rear cold flange * 299.600006 LarCCColdFlanZf % Zmin of rear cold flange * 322.700012 LarCCColdFlanZb % Zmax of rear cold flange * 219. LarCCColdFlaCRi % Inner radius of rear cold flange conn * 228. LarCCColdFlaCRo % Outer radius of rear cold flange conn * 322.700012 LarCCColdFlaCZf % Zmin of rear cold flange conn * 331.700012 LarCCColdFlaCZb % Zmax of rear cold flange conn * 222. LarCCWarmBckRi % Inner radius of back warm wall * 225. LarCCWarmBckRo % Outer radius of back warm wall * 285. LarCCWarmDZ % Outer Z of end warm wall * 271.100006 LarCCWarmFlanRi % Inner radius of warm flange * 277.5 LarCCWarmFlanRo % Outer radius of warm flange * 285. LarCCWarmFlanZf % Inner Z of warm wall flange * 339. LarCCWarmFlanZb % Outer Z of warm wall flange * 251.600006 LarCCWarmCon1Ri % Inner radius of warm flange * 271.100006 LarCCWarmCon1Ro % Outer radius of warm flange * 334. LarCCWarmCon1Zf % Inner Z of warm wall flange * 339. LarCCWarmCon1Zb % Outer Z of warm wall flange * 251.600006 LarCCWarmCon2Ri % Inner radius of warm flange * 269. LarCCWarmCon2Ro % Outer radius of warm flange * 339. LarCCWarmCon2Zf % Inner Z of warm wall flange * 340.5 LarCCWarmCon2Zb % Outer Z of warm wall flange * 222. LarCCWarmVrtRi % Inner radius of warm wall vertical * 271.100006 LarCCWarmVrtRo % Outer radius of warm wall vertical * 285. LarCCWarmVrtZf % Inner Z of warm wall vertical * 290. LarCCWarmVrtZb % Outer Z of warm wall vertical * 185. LarCCWarmBlkRi % Inner radius of warm wall bulkhead * 251.600006 LarCCWarmBlkRo % Outer radius of warm wall bulkhead * 3.79999995 Thk % Bulkhead thickness 336.700012 LarCCWarmBlkZf % Inner Z of warm wall bulkhead 340.5 LarCCWarmBlkZb % Outer Z of warm wall bulkhead * 142. LarCCWarmBlkIRi % Inner radius of warm wall bulkhead * 185. LarCCWarmBlkIRo % Outer radius of warm wall bulkhead * 2. Thk % Bulkhead thickness 338.5 LarCCWarmBlkIZf % Inner Z of warm wall bulkhead 340.5 LarCCWarmBlkIZb % Outer Z of warm wall bulkhead * 120.800003 LarCCWarmCrn1Rfi % Inner radius of warm wall corner at front * 122.019997 LarCCWarmCrn1Rfo % Outer radius of warm wall corner at front * 142. LarCCWarmCrn1Rbo % Outer radius of warm wall corner at back * 140.779999 LarCCWarmCrn1Rbi % Inner radius of warm wall corner at back * 315. LarCCWarmCrn1Zf % Inner Z of warm wall corner (ACTUALLY 316 340.5 LarCCWarmCrn1Zb % Outer Z of warm wall corner * 115. LarCCWarmCrn2Ri % Inner radius of warm wall corner 2 * 117.099998 LarCCWarmCrn2Ro % Outer radius of warm wall corner 2 * 312.5 LarCCWarmCrn2Zf % Inner Z of warm wall corner 2 * 315. LarCCWarmCrn2Zb % Outer Z of warm wall corner 2 * 117.300003 LarCCWarmCrn3Ri % Inner radius of warm wall corner 3 * 120.800003 LarCCWarmCrn3Ro % Outer radius of warm wall corner 3 * 304. LarCCWarmCrn3Zf % Inner Z of warm wall corner 3 * 316. LarCCWarmCrn3Zb % Outer Z of warm wall corner 3 * 115. LarCCWarmCrn4Ri % Inner radius of warm wall corner 4 * 117.300003 LarCCWarmCrn4Ro % Outer radius of warm wall corner 4 * 304. LarCCWarmCrn4Zf % Inner Z of warm wall corner 4 * 306.5 LarCCWarmCrn4Zb % Outer Z of warm wall corner 4 * 2. LarCCWarmEndThk % Thickness of end warm wall ??? 283. LarCCWarmZf % Inner Z of CC end warm wal * 228. TileCCRi % Inner rad of tile cal section * 389. TileCCRo % Outer radius of tile cal active section * 395.5 TilePMAirRi % Inner radius of PM housing air channel * 413. TilePMAirRo % Outer radius of PM housing air channel * 423. TileRmax % Outer radius of both tile cal sections * 282. TileCCDZ % Half length of tile cal section 228. TileECRi % Inner rad of EC Tile section 389. TileECRo % Outer radius of EC Tile section 354. TileECZf % Z Front of endcap tile cal * 611. TileECZb % Z Back of tile calorim. 482.5 TileECZPosn % Z Center of EC tile cal -128.5 TileECBoxDZ % Z half length of EC tile cal * 30. TileExtLDZ 324. TileExtLZf % Z of start of large extra wheel modu * 344. TileExtLRi % R of inner large extra wheel modules * 7.5 TileExtSDZ 346.5 TileExtSZf % Z of start of small extra wheel modu * 300. TileExtSRi % R of inner small extra wheel modules * 2.125 TileVBoxDY % DY BOX param (4.25 cm/2) 8.75 TileVBoxDX % DZ BOX param 282. TileVBoxDZ % DZ BOX param 404.25 TileVRPosn % Center r position * 0. TileVZPosn % Center z position * 128. TileVReps % Number of vertical walls * 2.8125 TileVDphi % Angle between vertical walls * 1.40625 TileVPhi0 % Starting phi * 2.5 TileDBoxDX % DX BOX param (model as 5.0 cm thick) * 5.25 TileDBoxDY % DY BOX param (10.5 cm wide) 282. TileDBoxDZ % DZ BOX param 404.25 TileDRPosn % Center r position * 0. TileDZPosn % Center z position * 64. TileDReps % Number of drawers * 5.625 TileDDphi % Angle between * 2.8125 TileDPhi0 % Starting phi 3.25 TileGBoxDX % DX BOX param * 1. TileGBoxDY % DY BOX param (2 cm/2) 282. TileGBoxDZ % DZ BOX param 392.25 TileGRPosn % Center r position * 0. TileGZPosn % Center z position * 64. TileGReps % Number of air gaps * 5.625 TileGDphi % Angle between air gaps * 0. TileGPhi0 % Starting phi * 0.800000012 ICDScintDZ 353.200012 ICDScintZf % Z of start of 8 mm scintillator in * 145. ICDScintRi % Inner radius of 8 mm scint 300. ICDScintRo % Outer radius of 8 mm scint * 115. CrkSrvRi % Inner radius of crack services 290. CrkSrvRo % Outer radius of crack services 175. CrkSrvDR % Radial distance * 341. CrkSrvZf % Min Z of crack services * 348.5 CrkSrvZb % Max Z of crack services 87.5 CrkSrvBoxDX % DX BOX param * 10. CrkSrvBoxDY % DY BOX param (20 cm/2) 3.75 CrkSrvBoxDZ % DZ BOX param 202.5 CrkSrvRPosn % Center r position 344.75 CrkSrvZPosn % Center z position * 32. CrkSrvReps % Number of service channels * 11.25 CrkSrvDphi % Angle between channels (degrees) * 0. CrkSrvPhi0 % Starting phi * 288. CCCrateZf % Z beginning of electronic crate in wheel * 50. CCCrateDZ % Z width of crate 338. CCCrateZb % Z end of crate * 285. CCCrateRi % Radial distance to crate bottom * 50. CCCrateDR % Height of crate 335. CCCrateRo % Radial distance to crate top * 80. CCCrateLen % ??? Compare with DICE 25. CCCrateBoxDX % DX BOX param 40. CCCrateBoxDY % DY BOX param 25. CCCrateBoxDZ % DZ BOX param 310. CCCrateRPosn % Center r position 313. CCCrateZPosn % Center z position * 16. CCCrateReps % Number of crates in CC wheel * 22.5 CCCrateDphi % Angle between crates (degrees) * 0. CCCratePhi0 % Starting phi 285. CCCraPlyZ % Center z position 3. CCCraPlyDZ % DZ * 2. CCCraPlyDR % Radial thickness of block 1. CCCraPlyDX % Half thickness 336. CCCraPlyR % Center r position 338. CCSrvGapRi % Inner radius of service gap mat 40. CCCraPlyIDY % Half as long, to fit 3.75 CCCraPlyIDX % Half thickness 281.25 CCCraPlyIR % Center r position 282. SVGZf 324. SVGZb 338. SVGRi 389. SVGRo 288. SVGZf 320. SVGZb 338. SVGRi 383. SVGRo * 16.7999992 ABBoxDX % Undersized radial extent (for all gaps) * 8. ABBoxDY % Half gap in all sections 36. ABBoxCCDZ % ABbox length in CC 30.75 ABBoxECDZ % ABbox length in EC 318. ABBoxCCZPosn % CC Mid Z position 641.75 ABBoxECZPosn % EC Mid Z position 406. ABBoxRPosn % ABbox R * 64. ABBoxReps % Number of AB penetrations * 5.625 ABBoxDphi % Angle between penetrations * 0. ABBoxPhi0 % Starting phi * 8.75 FingBoxDX % 17.5 X 17.5 * 8.75 FingBoxDY % Half gap in all sections 36. FingBoxCCDZ % length in CC 30.75 FingBoxECDZ % length in EC 318. FingBoxCCZPosn % CC Mid Z position 641.75 FingBoxECZPosn % EC Mid Z position 405. FingBoxRPosn % ABbox R * 64. FingBoxReps % Number of finger centers * 5.625 FingBoxDphi % Angle between finger centers * 2.8125 FingBoxPhi0 % Starting phi * 5. PlyECDZ % Thickness of EC Poly absorber 349. PlyECZf % Z of BP front face 354. LarECWarmFrnZf % Front face of front warm wall * 1.5 LarECWarmFrnDZ % EC front warm wall thickness 355.5 LarECWarmFrnZb % z of back face EC fr * 18.2000008 LarECWarmFrnRi % Front warm wall inner radius * 226. LarECWarmFrnRo % Outer radius front EC front warm wall * 3.20000005 LarECVacFrnDZ % Thickness of vacuum gap 358.700012 LarECColdFrnZf % Front face of EC fro * 6.5 LarECColdFrnDZ % EC front cold wall thickness 365.200012 LarECColdFrnZb % z of back face EC fr * 217.5 LarECColdFrnRo % Outer radius of EC cold wall front sect * 13.5 Temp % Length of thick inner cold wall at fron 378.700012 LarECColdInrAZf % Z at front of inner * 6.5 LarECColdEMGap % Gap between rear of cold wall and EM fr 371.700012 LarEMECZf % Front face of EMEC s * 51.7999992 LarEMECDZ % Depth of EMEC 423.5 LarEMECZb % Back face of EMEC section 0.0816600993 LarEMECTanEta 30.3530598 LarEMECRfi % Inner radius of EMEC at eta=3. 34.5830536 LarEMECRbi % Inner radius at back of EMEC 61.4359512 LarEMECRfm % Mid radius at eta=2.5 69.9976425 LarEMECRbm % Mid radius at eta=2.5 * 208.899994 LarEMECRo % Outer radius of EMEC * 1.79999995 Temp 28.5530605 LarEMECG10SupRfi % G10 support bars at inside of 32.7830544 LarEMECG10SupRbi % G10 support bars at inside of * 7. LarEMECCableDZ % Cable Gap between EMEC and HEC 430.5 LarHEC1AZf % Front face of HEC1A section * 104. Temp 458. LarECWarmAZb % Back of Inner warm wall A, paralle 459. LarECWarmBZb % Back of Inner warm wall B, perp to * 427.399994 LarHEC1AZf % z of HEC1A front face 431.399994 LarHEC1AZf * 456.700012 LarHEC1AZb % z of HEC1A back face 460.700012 LarHEC1AZb 460.700012 LarHEC1BZf % Front face of HEC1B section * 84.4000015 LarHEC1DZ % Thickness of first hadronic section 515.799988 LarHEC1BZb % z of HEC1B back face 511.8 * 208.899994 LarHEC1ARo % Outer radius of HEC1A 208.899994 LarHEC1BRo % Outer radius of HEC1B * 37. LarHEC1ARi % Inner radius of HEC1A * 47.2999992 LarHEC1BRi % Inner radius of HEC1B * 1.10000002 LarH1H2CableDZ % Cable gap in front of HEC2 (HEC1B) 516.899963 LarHEC2Zf % Front face of HEC2 section * 98.8000031 LarHEC2DZ % Thickness of second hadronic section 615.699951 LarHEC2Zb % z of HEC2 back face 208.899994 LarHEC2Ro % Outer radius of HEC2 * 47.2999992 LarHEC2Ri % Inner radius of HEC2 * 6. LarECWarmBckDZ % EC rear warm wall thickness 666.5 LarECWarmBckZf % Front of warm wall * 247.5 LarECWarmBckRo % Rear warm wall outer radius * 4.19999981 LarECVacBckDZ % Rear vacuum gap 662.299988 LarECColdBckZb % Rear of cold wall * 13.8000002 LarECColdBckDZ % EC rear cold wall thickness 648.5 LarECColdBckZf % Front of cold wall * 224.5 LarECColdBckRo % EC rear cold wall outer radius 662.299988 LarECColdBckIZf % Back inner cold wall Z front * 6. LarECColdBckIDZ % Back inner cold wall thickness 668.299988 LarECColdBckIZb % Back inner cold wall 662.299988 LarECColdBeamZb % match up 648.5 LarECPlug1Zb % Back of PLUG 1 * 17. LarECPlug1DZ % Thickness of Cu PLUG 1 631.5 LarECPlug1Zf % Front of PLUG 1 * 3. LarECWarmOtrThk % EC outer warm wall thickness 223. LarECWarmOtrRi % Inner radi * 616. LarECWarmOtrZb % Z back of outer warm wall 620. LarECWarmOtrZb 223. LarECWarmVrtRi % Inner radius of warm vertical * 240.5 LarECWarmVrtRo % Outer radius of warm vertical 620. LarECWarmVrtZf % Inner Z of warm wall vertical 623. LarECWarmVrtZb % Outer Z of warm wall vertica 240.5 LarECWarmHFlanRi % Inner radius of warm flange * 247.5 LarECWarmHFlanRo % Outer radius of warm flange 620. LarECWarmHFlanZf % Inner Z of warm wall flange * 662.5 LarECWarmHFlanZb % Outer Z of warm wall flange 666.5 LarECWarmHFlanZb * 3.5 LarECColdOtrThk % EC outer cold wall thickness 214. LarECColdOtrRi % Inner radi 623. LarECColdOtrZb % Back of outer cold wall normal thicknes * 193.5 LarECPlug1Rfo % Outer radius of copper at front * 193.5 LarECPlug1Rbo % Outer radius of copper at back * 59. LarECPlug1Ri % Inner radius of copper 643.5 LarECPlug1Zm % Mid Z for long front bevel * 120. LarECPlug1RBV % Front outer R for long front bevel 149.899994 LarECPl1DR % Radial distance 74.9499969 LarECPl1BoxDX % DX BOX param * 0.25 LarECPl1BoxDY % DY BOX param (the gap/2) 8.5 LarECPl1BoxDZ % DZ BOX param 133.949997 LarECPl1RPosn % Center r position 640. LarECPl1ZPosn % Center z pos * 6. LarECPl1Reps % Number of boxes * 60. LarECPl1Dphi % Angle between boxes * 0. LarECPl1Phi0 % Starting phi * 212.399994 LarECCableOtrRo % LAr cables on outside of modules * 22.7999992 LarECColdFrnRi % Front cold wall inner radius * 27.7999992 LarECColdInrARfo % Inner cold wall outer radius * 1. LarECColdBeamThkX % Thickness of inner cold wall conical se 26.7999992 LarECColdInrARfi % Inner co 27.7999992 LarECColdInrARbo % Inner cold wall O. 26.7999992 LarECColdBeamRiI % Inner cold wall I. * 1. LarECBumpThk % Height of bumper block 23.7999992 LarECBumpRo * 4.5 LarECBumpDZ % Depth of bumper block 383.200012 LarECBumpZb * 0.300000012 LarECWarmAThk 18.5 LarECWarmARo * 1.5 LarECWarmFlanThk 19.7000008 LarECWarmFlanRo * 617. ECCrateZf % Z beginning of electronic crate in wheel 621. ECCrateZf * 50. ECCrateDZ % Z width of crate 671. ECCrateZb % Z end of crate * 280.299988 ECCrateRi % Radial distance to crate bottom * 50. ECCrateDR % Height of crate 330.299988 ECCrateRo % Radial distance to crate top * 80. ECCrateLen % ??? Compare with DICE 25. ECCrateBoxDX % DX BOX param 40. ECCrateBoxDY % DY BOX param 25. ECCrateBoxDZ % DZ BOX param 305.299988 ECCrateRPosn % Center r position 646. ECCrateZPosn % Center z position * 16. ECCrateReps % Number of crates in EC wheel * 22.5 ECCrateDphi % Angle between crates (degrees) * 0. ECCratePhi0 % Starting phi 333.299988 ECSrvGapRi % Inner radius of service 386. ECSrvGapRo 614. ECSrvGapZf 669.5 ECSrvGapZb * 466.850006 LarFCMod1Zf % Front face of EM section 470.850006 LarFCMod1Zf * 45.1500015 LarFCMod1Len % Depth of FCAL EM module 516. LarFCMod1Zb % z of EM back face * 7.19999981 LarFCMod1Ri % EM inner radius * 45. LarFCMod1Ro % Outer radius of FC EM * 0.5 LarFCMod12Zgap % Gap between EM and H1 * 45.1500015 LarFCMod23Len % Depth of FCAL hadronic modules 516.5 LarFCMod2Zf % z of H1 front face 561.650024 LarFCMod2Zb % z of H1 back face * 7.9000001 LarFCMod2Ri % H1 inner radius * 45. LarFCMod2Ro % Outer radius of FC H1 * 1. LarFCISlvThk % Inner sleeve thickness for Lar 8.89999962 LarFC2ISlvRo * 2.5 LarFCCableZgap % Cable gap at front and back o 564.150024 LarFCMod3Zf % z of H2 front face 609.300049 LarFCMod3Zb % z of H2 back face * 8.60000038 LarFCMod3Ri % H2 inner radius * 45. LarFCMod3Ro % Outer radius of FC H2 9.60000038 LarFC3ISlvRo * 1. LarFCOSlvThk % Outer sleeve thickness for Lar 44. LarFC23OSlvRi 611.800049 LarECPlug3Zf % Front face of cold p 650.299988 LarECPlug3Zm % Front Z of notch in col * 9.5 LarECPlug3Ri % Inner radius of cold plug * 14.5 LarECPlug3BRi % Inner radius of cold plug notc * 480.5 LarECColdBeamZf % Front of inner cold wall 484.5 LarECColdBeamZf 480.5 LarECColdInrAZb % Back of Inner cold wall 6X 458. LarECWarmBeamZf % Front of inner warm wall 6.69999981 LarECColdBeamRo % Outer radius of beam cold wall * 0.600000024 LarECColdBeamThk % EC inner cold wall thickness 6.0999999 LarECColdBeamRi % Inner radius of c * 1. LarECBeamVacGap % Vacuum gap 5.0999999 LarECWarmBeamRo % Outer radius of b * 0.300000012 LarECWarmBeamThk % EC inner warm wall thickness 4.79999971 LarECWarmBeamRi % Inner radius of w 4.79999971 LarECWarmBckRi % Inner radius of warm back wall 4.79999971 LarECWarmBckRiB 6.0999999 LarECColdBckRi % Inner radius of cold back wall * 77. LarECWarmBckRi % Inner radius of warm back 54. LarECColdBckRi % Make room for heavymet blo 61. LarECColdBckIRo * 0.699999988 LarECColdBckThin % Thin wall thickness 663. LarECColdBckTZb % Back of th * 3.20000005 LarECWarmBckThin % Thin wall thickness 669.299988 LarECWarmBckTZf % Back of thin wa 354. PlyFCZf % Front of forward poly block restore to old positi 374. PlyFCZb % Back of forward poly block 458. PlyFCZb 428. PlyFCInZf % Small block against FCal face 448. PlyFCInZf % Small block against FCal face 450. PlyFCInZf % Small block against FCal face * 2.5 Temp 468.350006 LarECColdBeamZf % Cable gap in front of FCAL (=back * 5. Temp % Total material from two cryo walls in front of 463.350006 LarECColdInrAZb % Back of Inner cold wall 6X (=f 6.91252708 Temp 34.7125244 LarECColdInrARbo % Inner cold wall 33.7125244 LarECColdBeamRiI % Inner cold wall 463.350006 LarFCSupTubeZf * 635. LarFCSupTubeZb 639. LarFCSupTubeZb * 0.699999988 LarFCSupTubeGap % Space between FCAL and support tube * 0.800000012 LarFCSupTubeThk % Support tube thickness 45.7000008 LarFCSupTubeRi 46.5 LarFCSupTubeRo 49.5 LarFCSupBckFlanRo 44.7000008 LarECPlug3Ro % Outer radius of cold plug b * 1.60000002 Temp 44.1000023 LarECPlug3Ro % Smaller Plug 3 Radius t 47.5 LarECPlug2Ri % Inner radius of Plug2 67.5 LarECPlug2Ro % Outer radius of Plug2 615.699951 LarECPlug2Zf % Front of PLUG 2 * 623. LarECPlug2Zb % Back of PLUG 2 627. LarECPlug2Zb 69. LarECCableBckRi % Inner radius of cable pack * 47.5 LarECPlug2Ri % Inner radius of Plug2 67.5 LarECPlug2Ro % Outer radius of Plug2 * 0.5 Temp 616.199951 LarECPlug2Zf % Front of PLUG 2 629.199951 LarECPlug2Zb % Back of PLUG 2 69. LarECCableBckRi % Inner radius of cable pack * 6. PlyECRi * 115. PlyECRo * 100. PlyECRo * 6. PlyFCRi * 18.2999992 PlyECRi % EC poly ends at EC face. ? * 13.5 PlyFCRi * 11. PlyPumpRo 374.5 PlyPumpZf * 5. PlyFCalRi * 6.5999999 PlyFCalRi 0.135020897 TANTCM % Inner eta line of toroid cold mass * 15. MuonLZf % Center gap in large chambers * 655.099976 MuonBILZb % Z at end of mu BIL chambers * 492.600006 MuonBILRi % Inner radius of mu BIL chambers * 41.5999985 MuonBILDR % Thickness of mu BIL chambers 534.200012 MuonBILRo % Chamber back face * 913. MuonBMLZb % Z at end of mu BML chambers * 686. MuonBMLRi % Inner radius of mu BML chambers * 51.0999985 MuonBMLDR % Thickness of mu BML chambers 737.099976 MuonBMLRo % Chamber back face * 1225. MuonBOLZb % Z at end of mu BOL chambers * 922.099976 MuonBOLRi % Inner radius of mu BOL chambers * 51.0999985 MuonBOLDR % Thickness of mu BOL chambers 973.199951 MuonBOLRo % Chamber back face * 1. MuonRPCThk % 1 cm thickness * 672.900024 MuonRPC1Ri % Inner radius of RPC 1 673.900024 MuonRPC1Ro % Outer radius of RPC 1 * 750.299988 MuonRPC2Ro % Outer radius of RPC 2 749.299988 MuonRPC2Ri % Inner radius of RPC 2 * 986.400024 MuonRPC3Ro % Outer radius of RPC 3 985.400024 MuonRPC3Ri % Inner radius of RPC 3 * 532. BTorCoilDR % Radial distance 266. BTorCoilBoxDX % DX BOX param * 55. BTorCoilBoxDY % DY BOX param (1.1 m) * 1263. BTorCoilBoxDZ % DZ BOX param * 720. BTorCoilRPosn % Center r position * 0. BTorCoilZPosn % Center z position * 8. BTorCoilReps % Number of coil boxes * 45. BTorCoilDphi % Angle between boxes * 22.5 BTorCoilPhi0 % Starting phi * 36.4000015 MuonFMDTThk % Thickness of most forward MDT superlayers * 31.5 MuonFMDTThk2 % Thickness of O layer MDT's 18.2000008 HThk % Half thickness for Z limit calculations 15.75 HThk2 % Half thickness for Z limit calculations * 720.599976 MuonFISZcl % Z centerline of FIS MDT's 702.399963 MuonFISZf % Z front of FIS 706.399963 MuonFISZf 738.799988 MuonFISZb % Z back of FIS 742.799988 MuonFISZb * 212.100006 MuonFISRi % R inner of FIS * 453.600006 MuonFISRo % R outer of FIS * 759.200012 MuonFILZcl % Z centerline of FIL MDT's 741. MuonFILZf % Z front of FIL 745. MuonFILZf 777.400024 MuonFILZb % Z back of FIL 781.400024 MuonFILZb * 212.100006 MuonFILRi % R inner of FIL * 453.600006 MuonFILRo % R outer of FIL * 759.200012 MuonEILZcl % Z centerline of EIL MDT's 741. MuonEILZf % Z front of EIL 745. MuonEILZf 777.400024 MuonEILZb % Z back of EIL 781.400024 MuonEILZb * 456.700012 MuonEILRi % R inner of EIL * 624.700012 MuonEILRo % R outer of EIL * 1344.80005 MuonFMSZcl % Z centerline of FMS MDT's 1326.6001 MuonFMSZf % Z front of FMS 1330.6001 MuonFMSZf 1363. MuonFMSZb % Z back of FMS 1367. MuonFMSZb * 173.5 MuonFMSRi % R inner of FMS * 535. MuonFMSRo % R outer of FMS * 1344.80005 MuonEMSZcl % Z centerline of EMS MDT's 1326.6001 MuonEMSZf % Z front of EMS 1330.6001 MuonEMSZf 1363. MuonEMSZb % Z back of EMS 1367. MuonEMSZb * 540. MuonEMSRi % R inner of EMS * 1143. MuonEMSRo % R outer of EMS * 1384.19995 MuonFMLZcl % Z centerline of FML MDT's 1366. MuonFMLZf % Z front of FML 1370. MuonFMLZf 1402.3999 MuonFMLZb % Z back of FML 1406.3999 MuonFMLZb * 173.5 MuonFMLRi % R inner of FML * 535. MuonFMLRo % R outer of FML * 1384.19995 MuonEMLZcl % Z centerline of EML MDT's 1366. MuonEMLZf % Z front of EML 1370. MuonEMLZf 1402.3999 MuonEMLZb % Z back of EML 1406.3999 MuonEMLZb * 540. MuonEMLRi % R inner of EML * 1119. MuonEMLRo % R outer of EML * 2283.80005 MuonFOSZcl % Z centerline of FOS MDT's * 110. Zshift % Move last Mu chambers into registration wi 2173.80005 MuonFOSZcl 2158.05005 MuonFOSZf % Z front of FOS 2189.55005 MuonFOSZb % Z back of FOS * 293.5 MuonFOSRi % R inner of FOS * 728.5 MuonFOSRo % R outer of FOS * 2124.6001 MuonEOSZcl % Z centerline of EOS MDT's 2014.6001 MuonEOSZcl 1998.8501 MuonEOSZf % Z front of EOS 2030.3501 MuonEOSZb % Z back of EOS * 676. MuonEOSRi % R inner of EOS * 1207. MuonEOSRo % R outer of EOS * 2249.80005 MuonFOLZcl % Z centerline of FOL MDT's 2139.80005 MuonFOLZcl 2124.05005 MuonFOLZf % Z front of FOL 2155.55005 MuonFOLZb % Z back of FOL * 298.5 MuonFOLRi % R inner of FOL * 733.5 MuonFOLRo % R outer of FOL * 2083.19995 MuonEOLZcl % Z centerline of EOL MDT's 1973.19995 MuonEOLZcl 1957.44995 MuonEOLZf % Z front of EOL 1988.94995 MuonEOLZb % Z back of EOL * 652. MuonEOLRi % R inner of EOL * 1159. MuonEOLRo % R outer of EOL * 6.5 HThk % Halfwidth of TGC * 693.400024 MuonE0CZcl % Z centerline of E0C MDT's 686.900024 MuonE0CZf % Z front of E0C 690.900024 MuonE0CZf 699.900024 MuonE0CZb % Z back of E0C 703.900024 MuonE0CZb * 212.100006 MuonE0CRi % R inner of E0C * 453.600006 MuonE0CRo % R outer of E0C * 725.5 MuonE0LZcl % Z centerline of E0L MDT's 719. MuonE0LZf % Z front of E0L 723. MuonE0LZf 732. MuonE0LZb % Z back of E0L 736. MuonE0LZb * 456.700012 MuonE0LRi % R inner of E0L * 624.700012 MuonE0LRo % R outer of E0L * 33. Thk % Z width of TGC * 1291. MuonE1CZf % Z front of E1C 1295. MuonE1CZf 1328. MuonE1CZb % Z back of E1C 1332. MuonE1CZb * 170.699997 MuonE1CRi % R inner of E1C * 535. MuonE1CRo % R outer of E1C * 1291. MuonE1LZf % Z front of E1L 1295. MuonE1LZf 1328. MuonE1LZb % Z back of E1L 1332. MuonE1LZb * 542. MuonE1LRi % R inner of E1L * 1081.19995 MuonE1LRo % R outer of E1L * 23. Thk % Z width of TGC * 1434. MuonE2CZf % Z front of E2C 1438. MuonE2CZf 1461. MuonE2CZb % Z back of E2C 1465. MuonE2CZb * 244. MuonE2CRi % R inner of E2C * 587.700012 MuonE2CRo % R outer of E2C * 1407. MuonE2LZf % Z front of E2L 1411. MuonE2LZf 1434. MuonE2LZb % Z back of E2L 1438. MuonE2LZb * 569.099976 MuonE2LRi % R inner of E2L * 1203.5 MuonE2LRo % R outer of E2L * 1481. MuonE3CZf % Z front of E3C 1485. MuonE3CZf 1508. MuonE3CZb % Z back of E3C 1512. MuonE3CZb * 244. MuonE3CRi % R inner of E3C * 607.799988 MuonE3CRo % R outer of E3C * 1454. MuonE3LZf % Z front of E3L 1458. MuonE3LZf 1481. MuonE3LZb % Z back of E3L 1485. MuonE3LZb * 594.099976 MuonE3LRi % R inner of E3L * 1203.5 MuonE3LRo % R outer of E3L * 783. FTorMVZf % Z of front of forward toroid mother 787. FTorMVZf * 1283. FTorMVZb % Z of back of forward toroid mother 1287. FTorMVZb * 787. FTorZf % Z of front of forward toroid at end 791. FTorZf * 1279. FTorZb % Z of back of forward toroid at endp 1283. FTorZb 1037. FTorZCent % Center of forward toroid volume * 164. FTorInrDZ % Half Z length inside coils (to chee 873. FTorInrZf % Z of front inside coil 1201. FTorInrZb % Z of back inside coil * 7.5 FTorEPlDZ % Thickness of aluminum endplates 798.5 FTorEPlFrnZb % Back of front endplate 1275.5 FTorEPlBckZf % Front of back endplate * 87.5 FTorWrmInrRi % Air/Toroid cryostat inner wall in * 91.5 FTorWrmInrRo % Toroid SS warm tube outer radius 91.5 FTorEPlFrnRi % Inner radius of front endplate * 92.5 FTorAlInrRi % Toroid inner Al thermal shield in * 94.5 FTorAlInrRo % Toroid inner Al thermal shield ou * 107.5 FTorCoilRi % Inner radius, coils and intercoil 831. FTorAlFShZf % Toroid front Al thermal shield Z fr 833. FTorAlFShZb % Toroid front Al thermal shield Z ba 831. FTorAlInrZf % Toroid inner Al thermal shield Z fr 94.5 FTorAlFShRi % Toroid front Al thermal shield inne 1243. FTorAlBShZb % Toroid back Al thermal shield Z ba 1241. FTorAlBShZf % Toroid back Al thermal shield Z fr 1243. FTorAlInrZb % Toroid inner Al thermal shield Z ba * 32. FTorCrnDR % Thickness of rings * 22. FTorCrnDZ % Z length of rings 820.5 FTorRing1Zb 123.5 FTorRing1Ro 1253.5 FTorRing2Zf 123.5 FTorRing2Ro * 400. FTorAlOtrRi % Cheek outer R, Toroid outer support * 404. FTorAlOtrRo % Toroid outer support Al--end here * 507.200012 FTorCoilRo % Outer radius, coils * 524. FTorWallRo % Outer radius of lateral walls * 530. FTorRo % Outer radius of outer plate * 200. FTorFaceRo % Outer radius 2 m 787. FTorFaceZf 1287. FTorFaceZb 1291. FTorFace2Zb * 350. FTorFaceRo 788. FTorFaceZf % 3 cm thick in front (PLiF) 399.700012 FTorCoilDR % Radial distance 199.850006 FTorCoilBoxDX % DX BOX param * 13.3999996 FTorCoilBoxDY % DY BOX param (268 mm / 2) (Agrees wi * 233.5 FTorCoilBoxDZ % DZ BOX param 307.350006 FTorCoilRPosn % Center r position 1037. FTorCoilZPosn % Center z position * 8. FTorCoilReps % Number of coil boxes * 45. FTorCoilDphi % Angle between boxes * 0. FTorCoilPhi0 % Starting phi 803.5 FTorCoilZf 1270.5 FTorCoilZb 1262.5 FTorRPolyZf % 8 cm thick 123.5 FTorRPolyRi % To outer radius of back ring * 350. FTorRPolyRo % 3.5 m outer radius 811.5 FTorRPolyZb % 8 cm thick * 127.400002 FTorResinRi * 35. FTorResinDR 162.399994 FTorResinRo % Toroid cryostat neutron shieldin * 10. FTorResinDR 152.399994 FTorResinRi % Toroid cryostat neutron shieldin * 4. FTorCheekDZ % Thickness of aluminum cheek walls 877. FTorResinZf % Back of cheek wall and start of ins 1197. FTorResinZb % Front of rear cheek wall and end of 10. DR 5. FTorResBoxDX 157.399994 FTorResRPosn * 37. CoilFullWid 23.2343636 DELTAY 170.36853 TERM1 15.3259029 TERM2 145.418625 TERM3 9.62400818 DELTAX 46.6394348 FTorResBoxDY 160. FTorResBoxDZ 1037. FTorResZPosn * 22.5 FTorResPhi0 * 168. FTorSResRi % Inner radius of boxes * 35. FTorSResDR % Radial thickness 203. FTorSResRo 17.5 FTorSResBoxDX % DX BOX param * 20. FTorSResBoxDY % DY BOX param * 12. FTorSResBoxDZ % DZ BOX param 185.5 FTorSResRPosn % Center r position 861. FTorSRes1ZPosn % Center z position for first b 1213. FTorSRes2ZPosn % Center z position for first b * 8. FTorSResReps % Number of coil boxes * 45. FTorSResDphi % Angle between boxes * 22.5 FTorSResPhi0 % Starting phi * 143. FTorS2ResRi % Inner radius of boxes * 17. FTorS2ResDR % Radial thickness 160. FTorS2ResRo 8.5 FTorS2ResBoxDX % DX BOX param * 18. FTorS2ResBoxDY % DY BOX param * 15. FTorS2ResBoxDZ % DZ BOX param 151.5 FTorS2ResRPosn % Center r position 831. FTorS2Res1ZPosn % Center z position for second box set 1243. FTorS2Res2ZPosn % Center z position for second box set * 8. FTorS2ResReps % Number of coil boxes * 45. FTorS2ResDphi % Angle between boxes * 22.5 FTorS2ResPhi0 % Starting phi * 671.5 ShiePlyZf % Front of poly * 3. ShiePlyDZ % Thickness of poly 674.5 ShieDskZf % Front of shielding disk * 10. ShieDskDZ % Thickness of disk 684.5 ShieDskZb % Back of shielding disk * 671.5 ShieDskZf % Now no poly cladding * 423. ShieDskRo % Outer radius of endcap shield pla * 671.5 ShieDskZf % Front of shielding disk 675.5 ShieDskZf * 684.5 ShieDskZb % Back of shielding disk 688.5 ShieDskZb * 674.5 ShieDskPlyZb % Back of poly if called for 678.5 ShieDskPlyZb * 100. ShieDskPlyRi % Inner radius of poly (arbitrary 688.5 ShieCrnZf % Front of copper corner block (aga * 3. ECZGap % Gap behind EC to front of copper 675.5 ShieCrnZf % Front of copper corner block * 1. ECZGap % Gap behind EC to front of copper 673.5 ShieCrnZf % Front of copper corner block * 783. ShieCrnZb % Back of copper corner block 787. ShieCrnZb * 25.5 ShieWedDZ % Thickness of wedge at base 714. ShieCrnZm % Z at division between A and B * 93. ShieCrnRbo % Outer radius of volume B at back * 4. ShieCrnPbThk % Thickness of Pb cladding on corne * 6. ShieCrnPlyThk % Thickness of Poly-LIF cladding in * 3. ShieCrnPbThk % Thickness of Pb cladding on cor * 7. ShieCrnPlyThk % Thickness of Poly-LIF cladding * 3. ShieCrnPbThk % Thickness of Pb cladding on cor * 8. ShieCrnPlyThk % Thickness of Poly-LIF cladding * 3. ShieCrnPbThk % Thickness of Pb cladding on cor * 5. ShieCrnPlyThk % Thickness of Poly-LIF cladding 90. ShieCrnPbRbi % Inner radius of Pb claddi 85. ShieCrnPlyRbi % Inner radius of Poly-LIF 0.118170269 ShieCrnTan % Outer part of hub shield 8.62642956 DRTemp 84.3735733 ShieCrnRo % Cyl. outer radius of volume A/Out 81.3735733 ShieCrnPbRi % Inner radius of Pb claddi 76.3735733 ShieCrnPlyRi % Inner radius of Poly-LIF 12.2523794 ShieCrnRfi % Inner radius at front of volume A 12.9891586 ShieCrnRmi % Inner radius at A,B interface 14.3171825 ShieCrnRbi % Inner radius at back of volume B 0.0181920994 Tantem 0.0191226006 Tantem 12.8790712 ShieCrnRfi % Inner radius at front of volum 13.6535368 ShieCrnRmi % Inner radius at A,B interface 15.0494862 ShieCrnRbi % Inner radius at back of volume * 26. Shie7thDZ % Thickness of 1/7th of corner bloc 699.5 Shie7thZb % Back of insert 13.3762589 Shie7thRbi % Inner radius at back 12.8790712 ShieDskRi % Inner radius of iron flux return 84.3735733 ShieDskRi % Inner radius of iron flux return * 200. ShieWedgRo % Outer radius for iron CSC support 670.5 ShieWashZf % Iron washer front of flux return r 673.5 ShieWashZf % 1 cm gap * 200. ShieWashRo % Aug01 outer radius of shield wash * 275. JDNotchRi 403. JDNotchRo 680.5 JDNotchZb * 89.1999969 DR % JD cone cladding length, 90.0 cm 165.573578 ShieWedgRo % Outer radius of JD cone cladding 711. ShieWedgPbZfi 706. ShieWedgPlyZfi 693.5 ShieWedgPlyZbo 696.5 ShieWedgPbZbo 17.5 DZ 5.0971427 TanTemp 25.485714 DDR 140.08786 ShieWedgRm1 101.859283 ShieWedgRm2 15.2914276 DDR 150.28215 ShieWedgRm3 91.6650009 ShieWedgRm4 18.25 CSCZspacing % Center to center spacing of 9.125 CSCZspachalf % Half spacing 90.5 MuonCSCRi % Inner CSC radius * 95. MuonCSCRi % Inner CSC radius 209.100006 MuonCSCRo % Outer CSC radius 6.25205517 CSCRat % Ratio of length to base disp * 0.200000003 MuonCSCThk % Thickness of G10 0.100000001 CSCDR % Delta R at Zmin and Zmax for 209. MuonCSCRfi % Inner radius at front 95.0999985 MuonCSCRbo % Outer radius at back 697.625 MuonCSC1Zf % Front of CSC1 723.125 MuonCSC1Zb % Back of CSC1 715.875 MuonCSC2Zf % Front of CSC2 741.375 MuonCSC2Zb % Back of CSC2 734.125 MuonCSC3Zf % Front of CSC3 759.625 MuonCSC3Zb % Back of CSC3 752.375 MuonCSC4Zf % Front of CSC4 777.875 MuonCSC4Zb % Back of CSC4 787. ShieTorZf % Endcap toroid shield Z front 1287. ShieTorZb % Endcap toroid shield Z back 86.5 ShieTorCuRo % Endcap toroid shield Cu R outer (1 1287. ShieTorPbZb 82.5 ShieTorPbRfi % B Poly 82.5 ShieTorPbRbi % B Poly 86.5 ShieTorPbRo KEYWORD NOT UNDERSTOOD -> 15.823185 ShieTorCuRfi % Endcap toroid shield Cu R front in 25.8760338 ShieTorCuRbi % Endcap toroid shield Cu R back inn 15.0494862 ShieTorCuRfi % Endcap toroid shield Cu R front 24.6107864 ShieTorCuRbi % Endcap toroid shield Cu R back * 1860. WallPZf 1860. WallPipeZf % Z of front face of large wall pipe for c * 5000. WallPipeZb % Z of back face of large wall pipe for co * 150. WallPipeRo % Outer radius of large wall support pipe * 147.5 WallPipeRo % Outer radius of large wall support pipe * 20. WallPipeThk % Thickness of wall support pipe 127.5 WallPipeRi % Inner radius of large wall supp * 5. ShieFwdCladOThk % Thickness of outer cladding (if present) * 30. ShieFwdCladThk % Thickness of total cladding * 3. ShieFwdCladOThk % Thickness of outer cladding (if present) * 13. ShieFwdCladThk % Thickness of total cladding * 3. ShieFwdCladOThk % Thickness of outer cladding (if present) * 11. ShieFwdCladThk % Thickness of total cladding * 1291. ShieFwd1AZf % Z positions of fronts of each volume 1295. ShieFwd1AZf * 1321. ShieFwd1BZf * 1407. ShieFwd1CZf * 1493.5 ShieFwd1DZf * 1460. ShieFwd1DZf * 1460. ShieFwd1BZf * 1460. ShieFwd1DZf * 1550. ShieFwd1BZf * 1550. ShieFwd1DZf 1561. ShieFwd1BZf 1561. ShieFwd1DZf 1292. ShieFwdCldZf % Front of first corner o 1303. ShieFwdCldZb % Back of first corner in 1558. ShieFwdCld1Zf % Front of first corner o 1569. ShieFwdCld1Zb % Back of first corner in 1550. ShieFwdAdd1Zf % Front of 8 cm PLif addo * 1649. ShieFwd1DZb % Z of back of volume D * 1800. ShieFwd1DZb % Z of back of volume D 1797. ShieFwdCld2Zf % Front of second corner o 1808. ShieFwdCld2Zb % Back of second corner in 1789. ShieFwdAdd2Zf % Front of 8 cm PLif addon 1800. ShieFwd1DStZb % Z of back of Fe volume D * 170. RTEMP 170. ShieFwd1ARo % Outer radii for each step 170. ShieFwd1ARbo 170. ShieFwd1BRo % Outer radii for each step 170. ShieFwd1BRbo 170. ShieFwd1CRo 210.767624 ShieFwd1CRbo 210.767624 ShieFwd1DRo 243.037613 ShieFwd1DRbo 210.767624 ShieFwd1DRbo 0.0201056991 EtaBore 0.0191226006 EtaBore 24.7637672 ShieFwd1ARfi % Inner radii for each volume 29.8503799 ShieFwd1BRfi 26.9054985 ShieFwd1CRfi 29.8503799 ShieFwd1DRfi 34.420681 ShieFwd1DRbi 0.0793010741 TanSFe % Tangent for boundary between stee 102.694893 ShieFwd1SFeARf % R boundary between steel and grey 123.788979 ShieFwd1SFeBRf % R boundary between steel and grey 111.576614 ShieFwd1SFeCRf % R boundary between steel and grey 123.788979 ShieFwd1SFeDRf % R boundary between steel and grey 123.788979 ShieFwd1SFeCRb % R boundary between steel and grey 142.741928 ShieFwd1SFeDRb % R boundary between steel and grey 86.5 ShieFwd1SFeARf 86.5 ShieFwd1SFeBRf 86.5 ShieFwd1SFeCRf 86.5 ShieFwd1SFeCRb * 0. TEM 11. TEM 136.5 ShieFwd1SFeARf 136.5 ShieFwd1SFeBRf 136.5 ShieFwd1SFeCRf 136.5 ShieFwd1SFeCRb 147.5 ShieFwd1SFeDRf 147.5 ShieFwd1SFeDRb * 150. JF1Renv * 155. JF1Renv 155. ShieFwd1ARo 155. ShieFwd1ARbo 155. ShieFwd1BRo 155. ShieFwd1BRbo 155. ShieFwd1CRo 155. ShieFwd1CRbo 3. ShieFwdCladOThk1 11. ShieFwdCladThk1 * 3. ShieFwdCladOThk1 % Thickness of outer cladding (if prese * 8. ShieFwdCladThk1 % Thickness of total cladding 155. ShieFwd1ARo 155. ShieFwd1ARbo 155. ShieFwd1BRo 147. ShieFwd1SFeARf 147. ShieFwd1SFeARb * 184. JFFeRo % Specify iron outer R * 195. JFFeRo 147. JFFeRo 158. ShieFwd1DRo 11. Thicktem * 139. JFFeRo * 8. ShieFwdCladThk1 * 8. Thicktem 147. ShieFwd1DRo * 147. JFFeRo % 155 minus 8 * 8. ShieFwdCladThk1 * 8. Thicktem 155. ShieFwd1DRo 147. JFFeRo1 % Save for later 155. ShieFwd1DRbo 147. ShieFwd1SFeDRf 147. ShieFwd1SFeDRb 163. ShieFwd1AddRo 147. ShieFwd1FeCARf 147. ShieFwd1FeCBRf 147. ShieFwd1FeCCRf 147. ShieFwd1FeCCRb 147. ShieFwd1FeCDRf 147. ShieFwd1FeCDRb 147. ShieFwd1FeCARf 147. ShieFwd1FeCBRf 147. ShieFwd1FeCCRf 152. ShieFwd1CaCARf 152. ShieFwd1CaCBRf 152. ShieFwd1CaCCRf 152. ShieFwd1CaCCRb 152. ShieFwd1CaCDRf 152. ShieFwd1CaCDRb 1800. ShieFwd2Zf % Z of front of second for * 1860. ShieFwd2Zb % Z of back of second forw 34.420681 ShieFwd2Rfi % Inner and outer radii at 35.5680389 ShieFwd2Rbi 243.037613 ShieFwd2Rfo 251.13887 ShieFwd2Rbo 142.741928 ShieFwd2SFeRf % R boundaries between ste 147.5 ShieFwd2SFeRb % R boundaries between ste 232.037613 ShieFwd2FeCRf % R boundaries between gre 240.13887 ShieFwd2FeCRb 240.037613 ShieFwd2CaCRf % R boundaries between inn 248.13887 ShieFwd2CaCRb 147.5 ShieFwd2SFeRf 147.5 ShieFwd2SFeRb * 243. JFFeRo % Specify iron outer R * 210. TEMP 199. JFFeRo 199. ShieFwd2SFeRf 199. ShieFwd2SFeRb 210. ShieFwd2Rfo 210. ShieFwd2Rbo 199. ShieFwd2FeCRf % R boundaries between g 199. ShieFwd2FeCRb 207. ShieFwd2CaCRf % R boundaries between i 207. ShieFwd2CaCRb 218. ShieFwd2AddRo * 2100. ShieCollZb % Z of back face of collimator shie * 2085. ShieCollBack % Z of back face of collimator shie 210. ShieCollRfo % Outer R of front corner 283.543884 ShieCollRbo % Outer R of back corner o 199. ShieCollFeCRf % R boundaries between gre 272.543884 ShieCollFeCRb 207. ShieCollCaCRf % R boundaries between inn 280.543884 ShieCollCaCRb * 243. JFFeRo * 210. TEMP 199. JFFeRo 210. ShieCollRfo 210. ShieCollRbo 199. ShieCollFeCRf % R boundaries between g 199. ShieCollFeCRb 207. ShieCollCaCRf % R boundaries between i 207. ShieCollCaCRb 218. ShieCollAddRo * 2.66000009 TASShBoxDY % DY BOX param (5.32 cm/2) 49.75 TASShBoxDX % DZ BOX param * 2.66000009 TASShBoxDZ % DZ BOX param 77.75 TASShRPosn % Center r position * 2. TASShReps % Number of alignment holes in phi * 90. TASShDphi % Angle between holes * 90. TASShPhi0 % Starting phi 1980. ZMID % Z center of TAS shield * -56.75 ZTEM % Hole Z position in TAS shield 1923.25 TASShZ1 * -29.25 ZTEM % Hole Z position in TAS shield 1950.75 TASShZ2 * 70.5 ZTEM % Hole Z position in TAS shield 2050.5 TASShZ3 * 98.25 ZTEM % Hole Z position in TAS shield 2078.25 TASShZ4 * 30. QuadRo % Outer radius of quadrupole * 2200. QuadZf % Front of quadrupole cryostat * 3000. QuadLen % Length of quadrupole (30 meters) 5200. QuadZb % Back of quadrupole * 2100. ShieQuadAZf % Front of first steel * 97.8000031 Notchlen 2197.80005 ShieQuadBZf % Front of second steel * 2300. ShieQuadCZf % Front of concrete sec 2400. ShieQuadCZb % Back of concrete sect * 270. ShieQuadARo % Outer R of first stee * 265. ShieQuadARo % Outer R of first stee 147.5 ShieQuadARi * 262. ShieQuadARo 150.5 ShieQuadARi % Leave 3 cm clearance * 300.5 ShieQuadBRbo % Outer R at back of se 262. ShieQuadBRbo 262. ShieQuadBRfo % Outer R at front of s * 360. ShieQuadCRo 97.5 QuadFillRi % Default AUG00 quad sh * 2400. QuadShieZb * 21. RTEM 106.5 QuadFillRi * 109.5 TEM 2194.5 QuadShieZb * 38. ShieCrnFeRo % Outer radius of steel 33. ShieCrnCoreRo % Outer radius of JD cor * 52.7999992 ShieCrnFeRo % Outer radius of steel 42.7999992 ShieCrnCoreRo % Outer radius of JD cor 12.8790712 ShieCrnCoreRfi * 0.200000003 ChicSmallGap % 2mm gap between machined * 0.5 ChicLargeGap % 5mm gap between cast sur * 2. ChicSmallGap % 2mm gap between machined * 2. ChicLargeGap % 5mm gap between cast sur * 2. ChicSmallGap % 2mm gap * 2. ChicLargeGap % 2mm gap 1800. ShieFwd1DStZb % Z of back of Fe volume D 1780. Chic11Zf % Z of front of chicane tu 149. Chic11Ro % Outer radius of chicane 147. Chic11Ri % Inner radius of chicane 1778. Chic12Zf % Z of front of chicane tu 240.337189 Chic14Rbo % Pb cladding outer radius 240.067154 Chic14Rfo % Pb cladding outer radius 237.337189 Chic13Rbo % Poly cladding 237.067154 Chic13Rfo % Poly cladding 226.337189 Chic12Rbo % Fe 226.067154 Chic12Rfo % Fe 1862. WallPipeZf % Z of front face of large wall 149.5 Chic21Ro % Outer radius of chicane tube 12 1910. Chic21Zb % Z of back of chicane tub 1912. Chic22Zb % Z of back of chicane tub 258.159943 Chic24Rbo % Pb cladding outer radius 257.889923 Chic24Rfo % Pb cladding outer radius 255.159943 Chic23Rbo % Poly cladding 254.889923 Chic23Rfo % Poly cladding 244.159943 Chic22Rbo % Fe 243.889923 Chic22Rfo % Fe * 23. Chic3DZ 1264. Chic32Zf % Z of front of chicane tu 1261. Chic31Zf % Z of front of chicane wa 1284. Chic33Zf % Z of front of chicane wa 55.5553932 Chic32Ri % Inner radius of chicane 58.5553932 Chic32Ro % Outer radius of chicane 24.1709671 Chic31Rbi % Inner back radius of chi 24.1135998 Chic31Rfi % Inner front radius of ch * 852.5 Chic42Zb % Z of back of chicane tu * 2. CHICGAP * 862.5 Chic42Zb % Z of back of chicane tu * 2.5999999 CHICGAP 866.5 Chic42Zb 869.099976 Chic41Zb % Z of back of chicane wa 789.599976 Chic43Zb % Z of back of chicane wa 52.7999992 Chic42Ri % Inner radius of chicane 55.3999977 Chic42Ro % Outer radius of chicane * 16. TEMP 70.5 Chic4AirRi % Inner radius of air not 797.599976 Chic4AirZb % Z at back of air notch 866.5 ShieCrnCoreZb % Back of tungsten and su 16.5697327 ShieCrnCoreRbi % Inner radius of tungste 869.099976 ShieTorZm % B volume for JT shield 16.6194515 ShieTorCuRmi % Endcap toroid shield Cu 16.6194515 Chic41Rbi % Inner back radius of chic 16.5697327 Chic41Rfi % Inner front radius of chi * 20. TungCoreDR % Thickness of inner tung 32.8790703 ShieCrnCoreRfo % Outer radius of W core 33.6535378 ShieCrnCoreRmo % Outer radius of W core 35.0494843 ShieCrnCoreRbo % Outer radius of W core * 38. ShieCrnCoreRfo % Larger tungsten from Au * 38. ShieCrnCoreRmo % Larger tungsten from Au * 38. ShieCrnCoreRbo % Larger tungsten from Au ***** Experimental Mother Volumes ***** NEW VOLUME 1MVOL NEW VOLUME 2IDMV NEW VOLUME 3CALC NEW VOLUME 4CALN ***** Vacuum System ***** NEW VOLUME 6BEAC NEW VOLUME 7BVAC NEW VOLUME 8BE2C NEW VOLUME 9BV2C NEW VOLUME 10BS1N NEW VOLUME 12BV1N NEW VOLUME 14BF1N NEW VOLUME 16BFBN NEW VOLUME 18BN1N NEW VOLUME 20BNGN NEW VOLUME 22BSXN NEW VOLUME 24BVXN NEW VOLUME 26BNXN NEW VOLUME 28BF2N NEW VOLUME 30BN2N NEW VOLUME 32BP1N NEW VOLUME 34BQ1N NEW VOLUME 36BS2N NEW VOLUME 38BV2N NEW VOLUME 40BF3N NEW VOLUME 42BT2N NEW VOLUME 44BU2N NEW VOLUME 46BA2N NEW VOLUME 48BW2N NEW VOLUME 50BG1N NEW VOLUME 52BPCN NEW VOLUME 54BQCN NEW VOLUME 56BP7N NEW VOLUME 58BQ7N NEW VOLUME 60BP8N NEW VOLUME 62BQ8N NEW VOLUME 64BG2N NEW VOLUME 66BP9N NEW VOLUME 68BQ9N ***** Inner Detector Region ***** NEW VOLUME 70PXLI NEW VOLUME 71PXLM NEW VOLUME 72PXLO NEW VOLUME 73PD1N NEW VOLUME 75PD2N NEW VOLUME 77PD3N NEW VOLUME 79PD4N NEW VOLUME 81PD5N NEW VOLUME 83SSS1 NEW VOLUME 84SSS2 NEW VOLUME 85SSS3 NEW VOLUME 86SSS4 NEW VOLUME 87TB1N NEW VOLUME 89TB2N NEW VOLUME 91TB3N NEW VOLUME 93TB4N NEW VOLUME 95TB5N NEW VOLUME 97TA1N NEW VOLUME 99TA2N NEW VOLUME 101TA3N NEW VOLUME 103TD1N NEW VOLUME 105TD2N NEW VOLUME 107TD3N NEW VOLUME 109TC1N NEW VOLUME 111TC2N NEW VOLUME 113TC3N NEW VOLUME 115T01N NEW VOLUME 117T02N NEW VOLUME 119T03N NEW VOLUME 121T04N NEW VOLUME 123T05N NEW VOLUME 125T06N NEW VOLUME 127T07N NEW VOLUME 129T08N NEW VOLUME 131T09N NEW VOLUME 133I1AN NEW VOLUME 135I1BN NEW VOLUME 137I02N NEW VOLUME 139I04N NEW VOLUME 141I05N NEW VOLUME 143I9aN NEW VOLUME 145I9bN NEW VOLUME 147I10N NEW VOLUME 149I12N NEW VOLUME 151I13N NEW VOLUME 153I14N NEW VOLUME 155I15N NEW VOLUME 157I16N NEW VOLUME 159I18N NEW VOLUME 161I19N NEW VOLUME 163I21N NEW VOLUME 165TBPN ***** LArg Barrel Calorimeter ***** NEW VOLUME 167WCWW NEW VOLUME 168WC1W NEW VOLUME 169WC2N NEW VOLUME 171WC3N NEW VOLUME 173WC4N NEW VOLUME 175WC5N NEW VOLUME 177WC6N NEW VOLUME 179WD1N NEW VOLUME 181WD2N NEW VOLUME 183WE1N NEW VOLUME 185WE2N NEW VOLUME 187COIL NEW VOLUME 188PRSH NEW VOLUME 189PRLA NEW VOLUME 190QEMF NEW VOLUME 191CEMC NEW VOLUME 192CE2N NEW VOLUME 194CE3N NEW VOLUME 196CE4N NEW VOLUME 198CE5N NEW VOLUME 200QEMB NEW VOLUME 201WCBK NEW VOLUME 202WB1N NEW VOLUME 204WB2N NEW VOLUME 206WB3N NEW VOLUME 208GMLN NEW VOLUME 210WC2W NEW VOLUME 211WW1N NEW VOLUME 213WF1N NEW VOLUME 215WF2N NEW VOLUME 217WF3N NEW VOLUME 219WW2N NEW VOLUME 221WW3N NEW VOLUME 223WW4N NEW VOLUME 225WW5N NEW VOLUME 227WW6N NEW VOLUME 229WW7N ***** TileCal Barrel Calorimeter ***** NEW VOLUME 231CHAD NEW VOLUME 232CHLE NEW VOLUME 233CHLG BOX PHIREPS: 64 CHLG CHLE NEW VOLUME 234CHLA NEW VOLUME 235CHLD BOX PHIREPS: 64 CHLD CHLA NEW VOLUME 236CHLV BOX PHIREPS: 128 CHLV CHLA NEW VOLUME 237CHLF NEW VOLUME 238CRKN BOX PHIREPS: 32 CRKN CALC SOUTH BOX PHIREPS: 32 CRKS CALC NEW VOLUME 240CRCN BOX PHIREPS: 16 CRCN CALC SOUTH BOX PHIREPS: 16 CRCS CALC NEW VOLUME 242SVGN NEW VOLUME 244CRQN BOX PHIREPS: 16 CRQN CALC SOUTH BOX PHIREPS: 16 CRQS CALC NEW VOLUME 246CRRN BOX PHIREPS: 16 CRRN CALC SOUTH BOX PHIREPS: 16 CRRS CALC NEW VOLUME 248EXLN NEW VOLUME 250EXSN NEW VOLUME 252CLEN NEW VOLUME 254CX1N BOX PHIREPS: 64 CX1N CLEN SOUTH BOX PHIREPS: 64 CX1S CLES NEW VOLUME 256CLFN BOX PHIREPS: 64 CLFN CLEN SOUTH BOX PHIREPS: 64 CLFS CLES NEW VOLUME 258EQSN NEW VOLUME 260EHSN NEW VOLUME 262EELN NEW VOLUME 264ECLN BOX PHIREPS: 64 ECLN EELN SOUTH BOX PHIREPS: 64 ECLS EELS NEW VOLUME 266ELAN NEW VOLUME 268ELDN BOX PHIREPS: 64 ELDN ELAN SOUTH BOX PHIREPS: 64 ELDS ELAS NEW VOLUME 270ELVN BOX PHIREPS: 128 ELVN ELAN SOUTH BOX PHIREPS: 128 ELVS ELAS NEW VOLUME 272EJLN NEW VOLUME 274EFLN NEW VOLUME 276EX1N BOX PHIREPS: 64 EX1N EFLN SOUTH BOX PHIREPS: 64 EX1S EFLS NEW VOLUME 278EWFN BOX PHIREPS: 64 EWFN EFLN SOUTH BOX PHIREPS: 64 EWFS EFLS ***** LArg Endcap Calorimeter ***** NEW VOLUME 280EEMN NEW VOLUME 282EENN NEW VOLUME 284EEGN NEW VOLUME 286EHAN NEW VOLUME 288EHBN NEW VOLUME 290EHCN NEW VOLUME 292LM7N NEW VOLUME 294LM1N NEW VOLUME 296LMAN NEW VOLUME 298LM6N NEW VOLUME 300ECUN NEW VOLUME 302ECXN BOX PHIREPS: 6 ECXN ECUN SOUTH BOX PHIREPS: 6 ECXS ECUS NEW VOLUME 304ECUO NEW VOLUME 305ECYN BOX PHIREPS: 6 ECYN ECUO SOUTH BOX PHIREPS: 6 ECYS ECUO NEW VOLUME 307ERIN NEW VOLUME 309EQCN NEW VOLUME 311EQ1N NEW VOLUME 313EQ2N NEW VOLUME 315EQ3N NEW VOLUME 317EQ4N NEW VOLUME 319EQ5N NEW VOLUME 321WA1N NEW VOLUME 323WBPN NEW VOLUME 325WBQN NEW VOLUME 327W2YN NEW VOLUME 329W2XN NEW VOLUME 331W2ZN NEW VOLUME 333WA2N NEW VOLUME 335WE3N NEW VOLUME 337WEVN NEW VOLUME 339WEFN NEW VOLUME 341WE4N NEW VOLUME 343W4TN NEW VOLUME 345WE5N NEW VOLUME 347WE6N NEW VOLUME 349W6XN NEW VOLUME 351W6YN NEW VOLUME 353WE7N NEW VOLUME 355WECN NEW VOLUME 357W10N NEW VOLUME 359W11N NEW VOLUME 361W1TN NEW VOLUME 363ERNN BOX PHIREPS: 16 ERNN CALN SOUTH BOX PHIREPS: 16 ERNS CALS NEW VOLUME 365SVEN ***** LArg Forward Calorimeter ***** NEW VOLUME 367FEMN NEW VOLUME 369FS1N NEW VOLUME 371FQ4N NEW VOLUME 373FQ1N NEW VOLUME 375FHAN NEW VOLUME 377F1IN NEW VOLUME 379F1ON NEW VOLUME 381FQ2N NEW VOLUME 383FHBN NEW VOLUME 385F2IN NEW VOLUME 387F2ON NEW VOLUME 389FQ3N NEW VOLUME 391EFWN NEW VOLUME 393EFQN ***** Barrel Muon System ***** NEW VOLUME 395MUCA NEW VOLUME 396ZR1B NEW VOLUME 397MUCB NEW VOLUME 398ZR2B NEW VOLUME 399MUCC NEW VOLUME 400ZR3B ***** Forward Muon Detectors ***** NEW VOLUME 401FISN NEW VOLUME 403Y0CN NEW VOLUME 405Y0LN NEW VOLUME 407Y1CN NEW VOLUME 409Y1LN NEW VOLUME 411Y2CN NEW VOLUME 413Y2LN NEW VOLUME 415Y3CN NEW VOLUME 417Y3LN NEW VOLUME 419FILN NEW VOLUME 421EILN NEW VOLUME 423FMSN NEW VOLUME 425FMLN NEW VOLUME 427EMSN NEW VOLUME 429EMLN NEW VOLUME 431FOSN NEW VOLUME 433FOLN NEW VOLUME 435EOSN NEW VOLUME 437EOLN NEW VOLUME 439XC1N NEW VOLUME 441XC2N NEW VOLUME 443XC3N NEW VOLUME 445XC4N NEW VOLUME 447MTON NEW VOLUME 449MQBN NEW VOLUME 451MQCN ***** Forward Toroid and Shield ***** NEW VOLUME 453MTSN NEW VOLUME 455MTFN NEW VOLUME 457MTEN NEW VOLUME 459MTBN NEW VOLUME 461MTGN NEW VOLUME 463MTRN NEW VOLUME 465MT1N NEW VOLUME 467MT2N NEW VOLUME 469MT3N NEW VOLUME 471MTXN BOX PHIREPS: 8 MTXN MTON SOUTH BOX PHIREPS: 8 MTXS MTOS NEW VOLUME 473MT4N NEW VOLUME 475MT5N ***** JD Shield Behind EndCap Calorimeter ***** NEW VOLUME 477MXFN NEW VOLUME 479MXYN NEW VOLUME 481MXJN NEW VOLUME 483MSEN NEW VOLUME 485MSGN NEW VOLUME 487MSCN NEW VOLUME 489MSDN NEW VOLUME 491MSYN NEW VOLUME 493MSWN NEW VOLUME 495MSQN NEW VOLUME 497MSXN NEW VOLUME 499MSZN NEW VOLUME 501MSVN NEW VOLUME 503MSBN NEW VOLUME 505MSRN NEW VOLUME 507MSSN NEW VOLUME 509MXQN ***** JT Shield Inside Forward Toroid ***** NEW VOLUME 511MS1N NEW VOLUME 513MS4N NEW VOLUME 515MS6N NEW VOLUME 517MS5N NEW VOLUME 519MS2N NEW VOLUME 521MS3N NEW VOLUME 523C31N NEW VOLUME 525C32N NEW VOLUME 527C33N ***** JF Massive Forward Shield ***** NEW VOLUME 529MA1N NEW VOLUME 531MA2N NEW VOLUME 533MA9N NEW VOLUME 535MA3N NEW VOLUME 537MA4N NEW VOLUME 539MD1N NEW VOLUME 541MD3N NEW VOLUME 543MD4N NEW VOLUME 545ME1N NEW VOLUME 547ME2N NEW VOLUME 549ME9N NEW VOLUME 551ME3N NEW VOLUME 553ME4N NEW VOLUME 555WALN NEW VOLUME 557WL2N NEW VOLUME 559COON NEW VOLUME 561CSHN NEW VOLUME 563MF2N NEW VOLUME 565MF3N NEW VOLUME 567MF4N ***** Quadrupole and JN Quad Shielding Region ***** NEW VOLUME 569QUAN NEW VOLUME 571QSAN NEW VOLUME 573QSBN NEW VOLUME 575QSCN ***** Experiment Cavern ***** NEW VOLUME 577HALB NEW VOLUME 578HALN ***** ORDERING VOLUME IN R >CALC ***** ORDERING VOLUME IN Z>CALN ***** ORDERING VOLUME IN Z>CALS N_VOLS = 579 ***** FINAL ECELL STORAGE AT LOCATION: 0 AVAILABLE STORAGE TO LOCATION: 300000