POLIMI 2n-corr crosstalk simulation Feb. 2017. c cells 250 1000 -11.35 -1:-2:-3 imp:n,p=1 U=1 $U1Pb 251 5000 -1.0 -4:-5 imp:n,p=1 U=1 $U1sidepoly 252 3000 -2.3 -8 imp:n,p=1 U=1 $U1concrete 253 2000 -1.0 -7 imp:n,p=1 U=1 $U1wax 254 4000 -0.0013 (#250 #251 #252 #253) -99 imp:n,p=1 U=1 $U1Air 255 4000 -0.0013 99 imp:n,p=1 U=1 $U1room 256 0 -98 13 imp:n,p=1 Fill=1 $D1 sheilding 257 2000 -1.0 -12 imp:n,p=1 $D1 scint 258 like 257 but trcl=(0 0 0 1 0 0 0 0.914 -0.407 0 0.407 0.914) 259 like 256 but trcl=(0 0 0 1 0 0 0 0.914 -0.407 0 0.407 0.914) 260 like 257 but trcl=(0 0 0 1 0 0 0 0.669 -0.743 0 0.743 0.669) 261 like 256 but trcl=(0 0 0 1 0 0 0 0.669 -0.743 0 0.743 0.669) 262 like 257 but trcl=(0 0 0 1 0 0 0 0.309 -0.951 0 0.951 0.309) 263 like 256 but trcl=(0 0 0 1 0 0 0 0.309 -0.951 0 0.951 0.309) 264 like 257 but trcl=(0 0 0 1 0 0 0 -0.105 -0.995 0 0.995 -0.105) 265 like 256 but trcl=(0 0 0 1 0 0 0 -0.105 -0.995 0 0.995 -0.105) 266 like 256 but trcl=(0 0 0 1 0 0 0 0.914 0.407 0 -0.407 0.914) 267 2000 -1.0 -10 imp:n,p=1 trcl=(0 0 0 1 0 0 0 0.914 0.407 0 -0.407 0.914) $D30 scint bot 268 2000 -1.0 -10 imp:n,p=1 trcl=(50.8 0 0 1 0 0 0 0.914 0.407 0 -0.407& 0.914) $D30 scint top 269 0 -11 imp:n,p=1 $src ball 270 4000 -0.0013 -30 11 (#257 #258 #260 #262 #264 #267 #268 #256 #259 #261& #263 #265 #266) imp:n,p=1 $Room 999 0 30 imp:n,p=0 $ Observable universe. c surfs 99 RPP -38.1 38.1 -20.32 20.32 125 184.055 $Full detector setup enclosing RPP. 98 RPP -38.15 38.15 -20.37 20.37 124.95 184.105 $Full detector setup enclosing RPP w/ eps padding. 1 RPP -38.1 38.1 -10.16 10.16 125 127.54 $front lead 2 RPP -38.1 38.1 10.16 15.24 125 135.16 $side lead right 3 RPP -38.1 38.1 -15.24 -10.16 125 135.16 $side lead left c 4 RPP -38.1 38.1 15.24 20.32 125 145.32 $poly lead right 5 RPP -38.1 38.1 -20.32 -15.24 125 145.32 $poly lead left c 6 RPP -38.1 38.1 -7.62 7.62 127.54 131.35 $ detector 30" long c 12 RPP -38.1 38.1 -7.62 7.62 127.54 131.35 $ detector. 13 RPP -38.15 38.15 -7.67 7.67 127.49 131.4 $ padded detector. c 10 RPP -38.1 -12.7 -7.67 7.67 127.49 131.4 $ 10" detector. 7 RPP -38.1 38.1 -15.24 15.24 135.795 145.32 $ wax c 8 RPP -38.1 38.1 -20.32 20.32 145.32 184.055 $ concrete 30 so 201.2 $ Inside room 11 RCC -3.81 0 0 7.62 0 0 0.2 $ Source surface c mode n p CUT:n 50 0.05 0 0 $leading zeros invoke analog capture. CUT:P j 0.05 0 PHYS:n j 20 j j j j 1.0 PHYS:p 0 1 1 IPOL 1 1 1 0 7 257 258 260 262 264 267 268 $ delay RPOL 0.0 0.0 c 1 2 3 4 5 6 7 8 c 7 for PU c FILES 1 DUMN1 M1000 NLIB=70c PLIB=04p $lead 82206 -0.2429024 82207 -0.2238275 82208 -0.5332701 c Density = -0.93 m2000 NLIB=70c PLIB=04& $ Polyethylene 1001 0.666590 & 1002 0.000077 & 6000 0.333333 c m5000 NLIB=70c PLIB=04p & $ Borated Polyethylene 1001 0.666590 & 5011 0.046 & 6000 0.333333 c m3000 NLIB=70c PLIB=04p& $ concrete Density = -2.3 1001 0.3 & 6000 0.002880 & 8016 0.5 & 11023 0.0092 & 12000.60c 0.0007 & 14000.60c 0.15 & 20000.60c 0.015 m4000 NLIB=70c PLIB=04p$ Air - density= -.001293 7014 0.7843 $ N 8016 0.2109 $ O 6000 0.0001 $ C m6000 NLIB=70c PLIB=04p$ Thorium 90232 1 SDEF pos= 0 0 0 $ erg=D3 c SI3 H 0 8 c SP3 -3 0.847 1.034 NPS 30E6 PTRAC file=ASC WRITE=ALL & TYPE=N NPS 0 20E6 MAX 15E8 FILTER= 257, 269, ICL DBCN 107 j j j j j j c 1 2 3 4 5 6 7 8