RMI Nuclear Justice Documents

TABLE 3 Absolute Photon Intensities (High Gain), in Millions of Photone Per Second Per Line From Each Recording Time After Shor (ar) Line Designation {kev) (b) Sample and Recording (2) $1 ABI 99 3 78 2 166 4 215 6 406 10 191.5 5 263 335 8 9 , 6-20 30-38 60 105 140 320 1,08 2 405) 024040 0.548 25 4, 0,87 015 Lase18 9.85 « 40 O.47 @ 20 2. 0.48015 0.89015 1,08 « 40 0.24450 0.35 # 50 0.18250 0.18 # 50 0.15 #50 >0 >0 >0 >0 >0 - - 0.64 @ 20 0.41 # 20 0.64 015 0.6768 20 0.26% 30 L. 0.33 # 20 0.52020 0. 0.11 # 30 0.23430 0.10 & 40 0. 0.24 20 0.16 # 20 0.35@25 0. 0. 0.07 # 40 0,06 # 45 0.18 & 30 0.11 4 50 30 30 30 35 35 40 4.27810 3.63 #15 2.83 #15 2.09220 1.2) #20 0.76820 0.26 @25 0.04835 0.72 @ 20 0,72 & 30 0.48 #30 0,30 #30 0,30 # 30 0.14035 O12 2 40 6.07 @ 35 1.63425 1.54425 1.0625 0.72@30 O.$2a30 0.30 @ 30 O12 8 4 - > 6.666 25 0.10040 0.05 0 45 - 0.09 a 4 - 33 70 96 118 193 244 454.5 795 BB} 2 3 ‘ 5 6 7 a 1.70958 1.40 # 50 1.00 # 25 0.77430 0.544 35 0.34 8 40 0.17 #35 0.05 # 30 0.85450 0.855) 0.50@5)9 60.368 50 >0 : 242 GB 0.05 & 40 - 0.19 & 30 0.$6 #10 0.11 #40 O.11 & 50 - 244.5 HE 1 {8} 2.10 # 25 - 7.00@15 2059410 3.85430 7.31410 1,768 40 296 9 360 663 1060 1299 1730 2570 i 3(e} 5 (4) 6 7 8 9 = 1.20 0.67 0 0.23 0.12 0.09 0.03" # 30 # 30 ? - @ 30 @ 50 # $0 1.33 # 1.18 # 1.128 0,60 & 0.59 m 0.41 m 0.17 @ - 1. lLozais L.lea1S 0.18 # 25 0.17 # 30 O17 @ 40 - 3 ato - 3.26 1.21 0.72 0.61 0.45 0.32 ® @ & # & & - 20 30 30 30 30 40 0,04 # 40 - 7.56#20 1.33825 0.51230 0.34840 0.12 #50 0.08 #50 2.11 & 30 1,06 «30 074825 0.59 # 25 0.43 2 30 0,23 # 40 2,85 @ 20 0.60 # 25 0.22 & 35 >0 >0 - 2.096 20 1.77820 1.02 @ 20 0.55 #30 0.26035 >o - - 360 Bil O.3le@40 0.17835 1.02 @ 10 1.6¢@20 0,30 @ 25 0.74 a 15 - 384 458.5 331 2 0.25450 0.12 @%50 0.16030 0.06240 0.59815 0.508 20 0.94015 0.73 & 20 0.22 & 30 >0 0.34 & 30 0.41 w 40 - 75 97 196 262 335 436 9 KB i 2 3 4 5 6 7 1.6m 50 1.55450 0.78240 0.39" ? 0.274250 0.074250 0.05@ 7? O.75@ O.75@ 860.272 —G.09% 0.03% - 1.446 1.23% 0.93 # 0.57 # 0.31 # 0.108 0.04% 40 25 20 30 30 30 7 7.19 @ 10 6.95 @10 2.79 @15 1.38220 0.63220 0.20 #20 0.07% 7 1.04 & 20 1,55 & 25 0.63 & 25 0.31 #40 0.14% 40 0.04 #25 0.05% ? 2.$7e 15 2.17@ 20 0.95"20 0.51 «& 30 0.23 & 30 0.09 # 28 0.032 7 I,77 a 30 1,01 & 30 0.34% 30 - 9 2 7 ? 7 96 LB I 0.460235 0.28250 0.682% 20 2.70#10 0.63440 0.84230 0.42 & 40 338 723 MB 1 2 U.1G # 30 0.08240 0.03250 0.39 + 40 0.1) & 30 1.05#10 0.1620 0.19 #30 0.11 # 30 0.36 # 20 0.07 & 40 - 358 120 NB 1 2 0.32445 0.07250 0.18250 0.08240 0.61 « 20 0.16225 1.07 #15 O.17# 20 26440 0.14 & 40 0.44%30 0.10 # 40 0,05 50 - 52 20 147 192 OB | 2 3 q 0.354@30 0.26%40 0.1150 0.08250 O.17@50 0.13450 0.06250 0.05450 v.61 @ 0.462 0.16% 0.15% 0.5620 0.34430 0.16435 0.15#50 0.31 & 30 4.26 #30 0.14% 40 0,09 # 50 0.30240 O18 e 40 0.06450 >0 0.70425 0.444 30 0.148 40 0.10 # 50 214 PB 2 O.190@¢35 0.07050 Olbe % 0.58 #25 0.20 & 30 0.23235 0.07 «50 218 QB 1 0.04460 0.09230 0.08 4 0.13 #30 0.07 4 40 0.09 #40 0.05 50 238 RB 1 0.07450 0.06250 0.10% 40 0.16435 0,09 #40 0,09 #40 0.14%30 74 ” 118 167 242 335 431 TE 1 2 3 ‘ 5 6 1 2.24 2.10 1.77 1.61 0.88 0.65 0.42 - b.66%236 1.63% 20 1.36220 1.39425 0.97 & 25 0.70 # 20 0.48 26 19.59#10 13.24810 10.41210 TA4# 30 3.47215 1.85215 O.95"215 2.75 #35 2,80 # 30 2.00 30 1.55 035 0,80 825 0.52 #30 0.31825 6.27415 4.73 £15 3.994215 3.02 #215 1.37415 O.71%20 0.47 4 25 4.41 3,54 2.58 1.68 0.70 0.25 0.2) # 35 0.09 * 40 ~ 580 767 8 g 239 -314 408 # & # # # » & 25 20 20 20 20 20 25 0.21 # 30 0.17 & 30 >o - 25 30 40 50 0.25425 O.17 & 3C 0.45420 0.26#25 06.22 « 25 0,25 #40 # 20 #20 & 25 & 30 # 50 # 50 - UB 2 3 4 0.44 # 25 0.29 « 30 0.19 # 30 - 0.464 15 0.38 & 20 0.29 # 25 1.48215 0.77215 0.55#¢5 0,40 @ 20 0.14225 0.11 #30 0.62 #20 0.29 # 30 0.17 # 30 0.13 # 40 - 239.5 336 432 vB 2 3 0.52430 0.26430 O.17@395 0.16440 0,09%40 0,07 #50 0.802 25 0.452% 25 0.32 #20 2.29820 1.0715 0.62415 0,28 # 30 0,09 #40 0.08 & 50 0.79 #20 0.30 #25 0.43 « 40 0.34 30 - 263 316.5 410 xB 1 2 3 0.21 & 30 0.13 & 30 0.13 # 40 - 0.50 * 30 O.31 © 30 0.28 # 40 1.24#15 0.74410 0.48%25 0.42 # 20 0.14% 30 0.11 # 40 0.42220 0.30 2 25 0,17 # 40 0.16% 40 - 287 314 412 626 768 YB 2 3 4 5 1.09 # 20 0.97#20 0.73 #36 0.32840 0.20040 0.58450 8600.52 8350 0.28840 0.15850 1.98 2 1.81 # 1.39 8 0.5528 0.33 @ 6.70% 10 S.L7 #10 3.07295 0.9620 0.5625 1.39 1,11 0.72 0.43 0.31 245 1,7) 1.20 0.39 0.17 6.52 8 60 0.30 # 40 - i i 20 20 2° 25 25 #25 @ 25 & 20 425 & 25 See Table | for explanation of abbreviated designations, Line designation energy does not necessarily represent an accurate energy calibration. The energy is rounded off to the nearest 10 kev merely as a line identification number. Errore listed are in percent, >O at 165 kev, 0.40 & 50 percent at 165 kev. 39 @20 @ 20 # 15 @ 20 & 30