Ⅱ - WiZ 専門学校 国際情報工科大学校
Contents
1.2.
3.
4. Na
5. EL Sr 90
6. 3 9 20 UCT 3 13 0 20 3 14 5 20 UTC 3 13 20 20 K 3 14 11 01 UCT 2 01 NOAA HYSPLIT MODEL Forward trajectories starting at 0000 UTC 13 Mar 11 GDAS Meteorological Data 146 Source at 37 42N
7. 2 3 5
8. 3 1m 50cm
9. BWR 1 PWR 2 BWR 200
10. 40 40
11. itni Blei ABQ39 75 E 76 s
12. 2 1 Nal 30 2 23 9 8
13. P62 Bq Kkg
14. HM
15. Q5 26
16. SV P28
17. di bia PWR o UNA UER n S
18. 1000 1mSV mw n z E JU 2 TONES LM dA J HE dp PESE d 2718 s m MADE 1 mmos anadas a Tr KERES Raga gt z t 2 amp i
19. 1 H 1 2011 3 1 131 200Bq 1 1 1 1 200Bq 131 131
20. X Y o 3Hle 5 1 6
21. 7
22. Au Sv h 1 m 1MBq x S h 22 Cs 137
23. Nal 45000 6 1 35 J Eme Ju 2 3
24. HO ALPS
25. 1Bq ipai id mSv Bq C Bq m3 t h b 1 2m3 h PR E mSv 4 Nal T
26. 100mSv 100mSv ICRP 100mSv 0mSv L NT
27. Bq m H 3 C14 3 Ar 41 Kr 85 N 13 0 15 Nal T
28. 77 E 78 10Bq kg Ge 1 1 1Bq kg Ge MM
29. A 38 OK 1 idee
30. ORE DID Cs 137 662keV 73 K 40 1 462keV 1
31. 1 1 2 1 1 1
32. 0 05 u Sv h 100 u Sv h Nal TI 2 1 6 8 0 05 u Sv h
33. EFL GM 59 E 60 5
34. CRP 100 1 100 2 1 ICRP 100 1000 5 30
35. 39 Nal TI
36. 51 E 52 Co 60 1 2 GM EON 9096 1 GM 1
37. 3 10 30 5 10
38. I 18 Es 2 Er C BY WB ET 110 1 92 92 93 A 18 40
39. 30kg 1 4 7 Nal T BGO PIN CsI T BGO
40. 50Bq kg 100Bq kg 0 03 0025 z 0 02 iid aM 4 een R 0 015 1 0 01 3 i 0 005 T 0 0 20 40 60 80 100 120 140 160 Bq kg 38 4 1 25Bq kg 3
41. E B 2011 12 16 A KA 100 2
42. 4 1 Counts per Second cps A uu Sv h 1 3 x Sv h cps A 3 34 Cs 137 Cs 137
43. 6 Bq Sv ET HP 1CRU Cs 137 1kBq m2 DEE 0 00268 u Sv h 3E 2 131 364keV Cs 137 662keV keV
44. 5mm 10mm 3 2 2 GM GM
45. X 1 N 1 X 1 N N GEX 1 1
46. e Q7 Q8
47. 9 100 0 5 ICRP 21 1
48. 131 134 137 30 1 1 3 288 4 Ot U Sy 9I CERE BS 36 S S onm 1
49. Ge Nal T Ge
50. 131 Cs 134 Cs 137 cps counts per second u Sh BE Bq 131 Cs 137 Cs 134 Cs 137 131 Cs 137
51. 81 E Q10 23 3 24 4 43 100Bq kg Ic 50Bq kg 10Bq kg 3 1mSv 10
52. 1 1 3 2 0 3 15
53. 300 300 55 zeli T T A 2 300 16 2 ev
54. 30 SPEEDI 50 idt A 3 22 R rt HBiunb2 MAD ee Eme BH E i8 x BEST FR _ SER LE fotos 45 Sv h Sena 3 15 0
55. 500MBq 71 Z 671
56. 69 5 1 BURIED
57. Na Cs GM X GM 8 GM Si Ge Nal TI CSsI T ZnS Aog TLD OSL RPL 2
58. 3 12 1 1 6 500m 2 1 10 17 13 42 UCT 1 17 4 42 15 36 UTC 6 36 NOAA HYSPLIT MODEL Forward trajectories starting at 0400 UTC 12 Mar 11 GDAS Meteorological Data at 37 42N 141 03 E Source Meters AGL m product was prod boya Job ID E Job Start Wed a 18 en 1834 UTC 2011 Source 1 p r zu lon 141 03361 ght 50 m AGL
59. Cs 137 GM 7 u SVh u Sv mSv
60. 2 3 55 E 56 Q6 5 5
61. 25 o EERICKOCADCnGSUD4X Zt 5 fculB elkD do bv xod B Sv mSv 1 mSv 0 001 Sv1000 mSv 1 Sy GU 28 Sh 37 O
62. 2 hi 26 3 e WIZ 963 8811 2 4 15 0120 454 443 http www wiz ac jp E mail wiz nsg grjp
63. Gp ga i E Afp y Afp y Q3 ZI AIX AR3 1 Bq 1 1 Bq 1 1 2 19 20 I S
64. 1 1000 T 8 24
65. 1kg 40 kg CTLE amp 2000 700 400 200 200 100 t 100 cO 50 30 x 30 10 1983 AE 17 2 09 1895 X
66. 234 235 238 238 24 241 241 B 10 1
67. 1 235 23592U 235 235 235 55 131 137 90 1 235 1 235 235 137 2 3
68. GM 2 1 a GM
69. GM 1 GM
70. 204 764keV CI 36 709keV Cs 134 658keV Cs 137 514keV C14 E 156keV Pm 147 7 147 224keV H 3 18 6keV 36 GM Sr 90 Y 90 Sr 90 Y 90
71. pd gi i P37 38 282930
72. CT X 60kg 7 7 cy Psneorncurorscen lt csoo mE 5 amp 6 M T 0 4mSv 0 5mSv m 1000mSvf 0 3msv M j 100mSv pear e Pu 1 2 4msy 1 1 5mSv
73. 1
74. 2011 3 133 131 1 134 137
75. cs AR 30 GM Na 1 2 54cm
76. 41 42 1 1
77. H 3 C14 3 67 E 68
78. Loos Sum GM 4 com Cs 134 Cs 137
79. 2000m 3000 m 2 114 114
80. OBq kg Not Detected ND Bq kq
81. 4 3 30 cm 65 m BERE 4 1 Ge Nal T
82. 3 Cs 137 30 70 D 90 90 90 4 1 1 16 1 ICRP 4 23
83. 1 2 eV 2 1 5 eV 4 2 3 1 235
84. 238 235
85. 134 131
86. P3738 CM RN z e 2 9 A e e 1 M a a 4 Pa co e 7 4 ti Li 1 0 V P e e e P d LI AK6 g y
87. 3 99796 99796 2
88. JIS Z 4504 gt 400keV 0 5 150kekV 400keV 0 25 n n B X MW XE Ice As Bq cm2 n s 11 cpm min 1 60 ns s 1 cpm min 1 60 W cm2 Es
89. 4 F 2 2 4 7
90. E 48 GM GM GM GM e ABQ28 ABQ29 N a1 C s 1 30
91. 10Bq kg 50Bq kg 1mSv 43 82 5 1 2 3 Cs134 Cs137 x2 M E Ge Nal AKP Atom Komplex Prylad LB2045 2 100mm 50mm 8192ch 1024ch y y 1Bq kg 0 1Bq kg 10
92. 2 1 1000
93. 40 AB A40 Na Ge PHA CR
94. 1 u Sv h MBq Cs 137 2 1 1 131 Cs 137 2
95. 8 OOI e UO 60Co m 36Sr 90Y e 147Pm N e un 0 a e R 14C E E3 0 1 0 1 1 10 3 0 5
96. Sv 31 Nal TI GM Nal TI 49 E 50 Nal 10 0 L T T T T TTT T T T TTTTT E FU Cs 137 io V 662keV 2 L x A i A o h Y dg E E or Nal T E F g L 0 1 LLI L I iiti 10 100 1000 X keV AR 31
97. BWR 30cm 6m 2 J 1 Boiling Water Reactor BWR
98. 6 u Sh Gy h JIS Z 4325 y u Sv h u Gy h u SVh u Svh u Gy h Cs 137 662 keV 1 2 100keV 17 u Gy h u SW h
99. 66 Th 232 K 40 Th 232 TI 208 2 62MeV K 40 1 46MeV 2
100. X 10 7 Cs 137 662keV 4cm 20cm 30 1 20cm
101. 1 1 2 3 15
102. Ge Nal T
103. 6396 1 GM E Nal TI Na dic uie Na 2 54cm 2 54cm Na m Na 2 Nal 3
104. 100 1 1000 1 2 H A RR mRRERN OG 1
105. E i8 30 70 1 Ds DN
106. OIR 4 5 2 1 Ge P63 13 14 Nal NN oi oso 9 Mit 9 I
107. 2011 3 131 131 1986 131 131 Bl 131 2011 3
108. 131 Cs 134 0 71 Cs 137 0 98 1 Cs 134 Cs 137 N IRE 01 0 30 60 90 120 150 180 210 240 270 300 330 360 AEB 4 21 22 I Es 5
109. Cs 137 Cs 137 1Bq mSv 1 3 X 10 mSv Bq Xx 1 3 Xx 107 2 50 70 2 5
110. BG 0 04 Svh 0 07 u Sv h 0 08 0 10 u Sh 4 0 Na Ck Cs 137
111. 40 4000 4000 Bq 0 015 0 015 9 40 4000 Bq 137 0 0000000012 g 9 89 BS9S 50 5 zu bri 90 Sr 28 8 131 Bi 8 02 133 He 525 E 134 PIC 2 06 137 ee 30D EE 239 2 Pu 241
112. 6 114 114
113. ES lia 37 71 E 72 7 CS NNNM 4 10 uei iN kl 4 13 14 Ge 10cm U 8 15 Ge 73 E vMOSM GHYGHOD20chn 300 2010 06A 01B 168214 15 300 BACKGROUND 0 16
114. 131 1 2 8 131 3
115. 5 m eK LLTL oav mss RU CO6 0LCcGi 190 10 Ge 15 131 Cs 137 1 1Bq kg Ge 50mm 76mm X
116. MN E X e E X 9 1 0 01mSv M e D o ERN ied mSv EE HERR 2 NOI IERAR hereditary effects 10 genetic effects 18
117. 79 80 E 100000 Cs 137 2keV 10000 Ge 100 6 u TN 27 me T NN 0 200 400 600 800 1000 1200 1400 keV ARA Cs 137 Cs 137 Ge Nal 41 Na Ge Cs 137 661keV 42 Ge Nal Ge Na 1
118. WIE 21 MEO x R N Yr 3 X 38 INT __ rato LN L NT LN T
119. GM ZnS Ag Na l 54 Cs 25 1 gt o LN 3 Na
120. 3 2 Cs 134 Cs 137 Na TI CsI TI CST Cs 137 662ekv Cs 134 569keV 605keV 796keV c 569keV 605keV 662keV 100Bq kg Cs 134 Cs 137 SCI pn
121. 25 26 I 8 6 1 2 137 1 133 134 15 134 Kr 85 0 396 10 cr 89 4896 7 Sr 90 589 S m Zr 93 6 396 p d zr 95 629 RR Te 99 61 di 129 129 0 796 493 ij 131 3 196 105 35 135 6 396 60 80 100 120 140 160 180 Xe 133 6 6 Xe 135 6 396 PCS 133 6 896 PCs 137 6 196 CS 144 6 096 pm 147 2 3 A 2 2 5 min 23s 3 9min 30y gt 137mTe gt 137 gt 137Xe 137Cs 0 39 137 gt 137Xe 137Cs 2 6 137Xe
122. 4 T 6 D Nal Nal TL d m 0 449 Kg 2013 02 15 12 06 18 1801 2013 02 14 18 41 Berthold Technologies t LB2045 MEER KeV CPS Ba Ba Kg Ba Kg 05134 796 802 0 33 17 862 4 11 39 789 14 6 96 cs197_ 662 0 82 39 567 19 88 1116 01 5 62 K40 1461 00 ND N D 86 65 Cs134 Cs137 127 89 Bq Kg a 372 cps 0 200 400 600 800 1000 1200 1400 1600 1800 2000 Channel 87 88 2 Nal amp 0 396 Kg 2013 02 15 12 09 42 1800 2013 02 14 18 41 A 1 MV
123. Nal T Nal Tl Nal T 10 u SVh Nal T 0 01 u Sv 100mSVh 4 3 Nal TI 1m CsI T Cs 4 4 4 Csl TI 53 E 54
124. EM EM UN 1 s 500 Bq Bm 2 EM 8
125. 1 x 2 dp e 26 1 u Sh u Sy Bq kg 2 3 2 27 X 1 X esrb X
126. 27 28 I 8 90 1 235 238 235 90 140 90 140 137 134 131 90 140 137 137 0 06
127. 37 6 296 137 134 133 133 33 133 134 137 As 2
128. 1 1 1Bd 25 30 25 20 O 006 007 008 009 010 Ol 042 03 014 CuSv h 25 TCS 171 50 30 Q3 40 K 40
129. Sv h 0 01 0 1 1 10 100 1000 10000 100000 1000000 u Sv h THE sws RENS cu EEEEEEENN Nal TI 32 GM 33 90 0 40 50 GM Si 33 ll GM
130. 7 1 2 Sv 23
131. Pu 239 L 239 ZnS Ag Si Si Si
132. 137 1000 Bq 137 1 3 x 10 Sv Bq 40 1000 Bq X 1 3 x 10 Sv Bq 1 3 X 10 Sv 0 013 mSv 9 8 4 1m kBq m 1m kBq m x Sv h kBq m Sv h uGyh KBq m Sv h kBq m 131 0 00174 0 00139 Cs 137 0 00268 0 00214 U AEREE in situ 137 1000 kBq m
133. 6
134. 5 iiti nne x XX R 6 o e X f 1 0 12 0 04 131 16 x 10 15x10 134 1 9 X 10 20 x 10 13 x 10 39 x 10 23 S O O Im
135. 30 1 WEQ13 10 m 10cm 10 m 1cm 107m 1mm 04um 08 H H H EE sib n Dore eue 00 i i EE 1 f 1 1 i 0 ORE 8i D od Do cmo 1 H i 1 e MER M Minh bod E x SE ET EHH Eti i LET Wu E d I8 X3 FIAD M5 7 q 7 851 21 go 2 PES Har X U a Ex iE E i mam z Hi 1i H T amp E Ji iik ail i 3 Fi H n dB E 24 H 1 LI 1 s 3 i E PBDIAN mi 2 i i i x i IBI Ai LIN i 8 i icis PE i E I d ixi Rz M H H 10 Hz 102Hz 1 1 Hz WHz THz Hz WHz 0Hz 0Hz Hz 16Hz MHz 1 1 1 1 L 1 1 1 1 1 1 1 1 1 1 1
136. Bqcps Cs 137 Cs 134 Cs 137 E 2 Cs 134 Cs 134 Cs 137 Cs 137 Cs 134 11 Cs 134 Cs 137 796keV Cs 137 1 1
137. 1000 300 100 300 5 305 ICRP 32 I Es 1 1 Sv 18S 5 c 5 1EERUT SESPERE I CEE Y 4 mm NOn
138. ECCS 1 2 BWR PWR X 2 Pressurized Water Reactor PWR 300 2
139. 0 Q1 24 400 700 nm 1nm K amp 400 500 600 700 nm AB 24 Q2 1Bq 1 1 Cs 137
140. 100 Bi s Ei 50 100 0 55 9 P y ixi 0 is fi E x x T 250 100 A 19 SUR ANUS 20 250 PULO IECIT E 4 19 20 150mSv
141. gt il e F up Em X 3 2000 Q 3 CORSA RODMEREIC RU 150
142. 37 38 I 8 3 17 K 3 4 0 4 0 0 01296 3E 4 International Commission on Radiological Protection P21 4 YNI hx 1
143. Na Ge Ge Na N al 2 rd d da in
144. 8 3 X AEB 9 23 24 I BS 1 cm vE 10 11 12 3He RF B7 77 BH 7 o 99 PUE SN ut r SS E di 226 222 s Ra Rn 5 P w t Na Mg y 168 NN
145. e es E 1200 10096 FELG F B
146. 24 CONTENTS 4 1 5 5 PB 2 7 EWLC S vum rr VW 2 17 1 17 oo 18 Sm Cs 19 4 21 Li 6 6 30 as PE TE 3 35 42 1 42 1 PW I E O Ooeoo V 44 2 47 1 MEORE nener 2 ED aE E E e iea P A E E a T 54 DN LI oe MEC E 58 De RESRORIERCBIE s o stet eg
147. 2011 3 11 UR
148. 63 E 64 3 ng 100cpm n 1100cpm gi 04 E 0 5 W 20cm7 1000cpm 60 17 s1 40 s 1 80Bq As 4Bq cm 1100 100 A n i s OU oo 5 amp XWxXxe 04 x20 x05 4 at 1 5mm
149. Ge Nal 41 Cs 137 Nal Ge AB 42 Ge Nal 4 23 3 H 17 5 1mSv
150. 134 2 134 137 11 3 235 50kg 800g 235 570m 5I ER
151. 131 1H131 8 8 8 4 1 23 9 21 23 6 H 14 131 Bq m 55 391Bq m 131 12 31 6 14 200 3 200 1 Cs 134 2 Cs 137 30 4 131 Cs 134 Cs 137 1 131 0
152. 5 O Ge 1 A AkWin Start 3600 Stop AkWin Background Control O K NG 2 3 AkWin Properties Processing Measurement Line Sample Geometry Comment Z Analyzer Properties AkWin Start 4
153. Cs 134 Cs 137 569 796keV 30keV 540 830keV K 40 K 40 1 461keV
154. 100mSv LNT 150mSv LN
155. 1m 2 Nal TI Nal TI X 100 Nal TI 1 25mm 25mm Nal T 0 01 u SVh
156. K 33 34 I Es 2 X
157. Lis Ll i PLI LI PLI aa s aa wa E 2 1 21 1 1 H 1 PD N H H H 1 1 1 A 3
158. 240 X Pu 6 56 222 PRn 382 AX Bq kg 1 100Bq kg 1 100 3 Bq m 100 Bq kg 2 Gy 1 1
159. BEHALI 28 29 1 GM GM GM
160. FELT 1 Eo SEC 90 E H
161. 23 24 25 13
162. 3 15 3 20 24 3 15 13 1 m Sv hr 9 28 lt 190 95 9 10 A 1 m LI L 1 I i 4 M mss 1 m Sv hr 8 28 x E M kun 1 meum al
163. 74 x 10 Sv Bq 1 200Bq X 7 4 X 10 Sv Bq 1 5 X 10 Sv 1 5 Sv 1 2 2011 3 H 17 1 131 300 Bq 200Bq 1 2 131 600 Bq 134 200 Bq 137 200 Bq 1 131 2 2 X 10 Sv Bq 134 19x10 SvBq YVA 137 1 3 X 10 Sv Bq 600 Bq X 2 2 X 10 Sv Bq 200 Bq X 1 9 x 10 Sv Bq 200 Bq X 1 3 x 10 Sv Bq 20 Sv 3
164. 4 AEB 35 1m u SWh
165. 29 3 2 0 0 2 e 4 0 0 01 2 4 0
166. K 5 1 5mSv 1msv 5mSv Uy 24 4 5 1 ImSvy
167. K 40 0 01296 K 40 1461keV K 40 K40 E 44 Q4 0Bq
168. Sv Sv 6 61 m BERE 3 1 a b GM c
169. Cs 134 2 57 E 58 0 1 u Sh GM cpm u Sh GM
170. X BECAS ERAI XE S8 OO ERE GM u SWh GM Nal TI Cs 137 662keV cpm u Sv h
171. Cs 137 1 0 X 1 0 1 0 ORE Nal TI 0 1 u Sh GM Si 32 GM 0 1 u SVh 100mSvh Si GM
172. 1 3 Sv 4 131 131 137 Cs 137 4 1 1 2 X 1 2
173. x 2 3 2 45 E 46 gd 0150 R E Boise Uu Sv 7 h CsI SE ES S H Sv MO 3 Ge TAURI Nal 27 2
174. 1 000 kBq m X 0 00214 Sv h kBq m 2214 Sv h 0 04 Sv h 2 14 0 04 2 18 Sv h Bq Bq x Sv Bq p Sv 50 70 1
175. b c Si 2 GM GM 3 GM 1 gt
176. 2 4 1 1 X2 3 P22 4 P22
177. X go 8 mo COE e d 7 7 1 2 X
178. 0 0927 35 36 I l8 WE 22 131 0 065 364 134 0 249 605 796 137 0 0927 662 1m 1MBq i Sv h bases 0 0927 pi Sh MBq X m 1 m 2 m 2 22 u Sv h 1
179. 30 10Bq kg 0 4 FWHM ES 7 5 FWHM 70 2 70 3 BEBE 83 E 84 4 6 9 PC
180. Nai CTL Berthold Technologies L82045 KeV CPS Bq Bq Kg Bq Kg Cs134 796 802 0 13 7 162 2 92 18 07 7 37 7 82 Cs137 662 0 46 22 085 59 55 77 14 11 6 22 K40 1461 0 01 N D N D 98 2 l o Cs134 Cs137 0 10 73 84 Bq Kg 6s 73 J 5 22 Cs 7 fo 0 09 0 08 0 07 0 06 0 05 CDS Lug 0 02 LR 0 01 0 00 RR a 1 1 800 1000 1200 1400 1600 1800 2000 Channel 3 Ge Ge k M Measurement line 0 Denta 0 13 L Marinelli 1 0 L Search 1 Library datNLIBRAB Group 4 Spectrum file name C VAKWINNGAMMANSPANBUFFERO SPA Date of measuring 2013 2 15 12 19 Keep back background of 2012 11 6 Energy calibration from 2012 11 8 N Locat Energy Intens Error Nuclide Activity peak keV Bqg kg Ci kg 1 0 730 85 238 46 9 45E 03 62 8 2 0 1970 58 642 73 3 06E 03 91 3 3 0 4479 29 1461 20 1 75E 02 34 1 K 40 8 12E 01 2 19E 09 Measurement time 3597 0 sec Volume weight 0 138 kg Geometry 1 Denta 0 130 Ashing coefficient multiplier 1 00E 00 Raw weight 1 00E 00 Cinder 1 00E 00 Nuclide T 1 2 A
181. AkWin Activity Protocol EH AkWin Printer 85 E 86 Nal 1 n Measurement Totall 3600 Start PC J Gamma LB2045 ND 2 gf 3 Measurement A Total Start Z PC Gamma LB2045
182. Trajectory Direction Forward Duration 12h Vertical Motion Calculation Method Model Vertical Velocity Meteorology 0000Z 08 Mar 2011 GDAS1 A3H 12H01 3 60km 9 1 3 DE 3 1 3 B 3 2 3 15 0 12
183. lt gt 62 2 a b 1 3 c
184. o 1H 6 E ism AOR E
185. 1137Cs Total fission yield 6 2 3 2 AN1 Cs 137 2 5 min 55min 12 4min 21h 5 3d 133Sb 133mTe 133Te 133 133Xe 2 3 133mTe 133Te 133 gt 133Xe 96 nr 29b 7 0 Total fission yield 6 79 10 45 4 4 x108 AB 15 Cs 133 Cs 134 2 Cs 137 131 2 Ba Sr 90 Sr Y 4Zr Zr AB 16 3 a A 99 100 1017 102 1 Es Fm Md No Lr gt U mh 0 eo 39k Cs 6s1 4d105s25p5 Cesium lodine 132 9 126 9 133Cs 134Cs 135Cs 137Cs 127 129 131 28 44 113 7 671 184 3 1 88 1 93g cm3 4 93g cm3 AX3
186. 141 03E Meters AGL 1 was produced by a not a NOAA product eb Job ID 351 049 Job Start Wec May 18 133747 UTC 2011 Source 1 lat 37 42139 lon 141 helght so i o Forward Duration 2 i on Calculation Method fel Vertical Velocity ogy 0000Z 08 Mar 2011 GDAS1 160 A3H 14 3 10 NOAA HYSPLIT MODEL Forward trajectories starting at 1200 UTC 14 Mar 11 GDAS Meteorological Data 15BH12Bj JT 15H 9B JT 15H 6RFJT 15H Olss JT 14 21 JT Source at 37 42 N 141 03 E 15 3 JT D Ld 1 y L 1 EI 1 1 L 1 1 Meters AGL 18 12 18 3 14 21 00 JT 3 00 JT 15 00 JT 21 00 JT 333 00JT This is not a NOAA product It was by a web user Job ID 334349 Thu Jan 3 02 59 48 UTC 2013 Source 1 lat 37 42139 lon 141 03311 height 50m AGL Traj Direction Duration Vi on Calculation Method Model Vertical Velocity Meteorology 0000Z 08 Mar 2011 GDAS1 12 I S
187. 2 fip Sv c
188. 76mm 3 X 3 Nal TI 1 000 4 lt 6Bq kg Y 10 Ge 15 Q9 D ui Sh Bq kg 3 Ge
189. 37Mow TT 0 500 1000 keV AEQ37 Ge 100Bq kg 2 1 50Bq kg 50Bq kg 50Bq kg x E ER 50Bq kg T me iade
190. Cs 134 Cs 134 Cs 137 u Sv h cps u Sv h A ce UT 1 1 id ica AB 34
191. ct Bg kg Ci kg Contr Rel error 0 95 1 K 40 999years 8 12E 01 2 19E 09 100 0 5 1 B DELIS Intensity 2 0 imp sec Calculation minimal detectable activity rat err 50 p 0 95 Nuclide Act Bq kg Ci kg 1 CS 134 1 24E 00 3 36E 11 2 CS 137 1 36E 00 3 69E 11 3 K 40 4 32E 01 1 17E 09 MDA Ge A z 7 AMA Buffer0 spa SEG 63 PC MCB 129 Dev 0 ax 17 0 00 Rate cps Live time 3597 Realtime 3599 0 00 K 40 0 00 A L Energy keV Left 1 Right 8192 90 ABC gt R 2012 3 25
192. eta e titu co NE HP ENS ccu 29 Bu URS IN 60 3 62 Rr ror MEME 2 URBIS SESS 8 bw dsny EMEN LN EREDA HO 64 4 66 EE 66 EN rl PE qd mQ 68 4 DD RU CHICO BEA NS tote D 5 i 70 MOD ENNES UNENEE D a 70 PARE Teta EN EDE 2 n T 71 3 79 4 REHIRRTUTRON 81 11 14 HEBR 24 Bq
193. fo ur onm zt 1m LCTE 14
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