硬X線偏光計用 多チャンネルシンチレーショ ン検出器の開発
Contents
1. PMT 26 AN Qa w 4 52. MAPMT MAPMT
3. APD MAPMT 3 3 X
4. X 3 3 4 x 4 MAPMT 20 CsI TI APD MAPMT MAPMT
5. 4 2 1 6 4 1 4 2 2 CsI TI CsI TI 54
6. 4 9 Intrinsic resolution Nal TI Energy resolution 10 100 1000 Energy keV 4 9 2 35 4 3 ADOC Analog Digital Converter ADO Windows PC PHA Pulse Height Analyzer 8CH 557 MODEL 595H 2 1 Am
7. 6 5 mw 10 b15 a10 1 po a10 WW mewe ss on ors 7C 1 01 t1t 6 5 68 6 3 6 3 1 PMT MAPMT R6231 04 1chPMT 137Cs 137 Cs Trigger Out PMT Head Amp TriggerIn DP PC Data LaBrs Ce 6 17 PMT LaBr Ce
8. 5 3 CH 5 1 2 CH 5 6 CH 5 6 CH Am CH CH MAO0079 MA0077 5 8 MAPMT CH 4 MAPMT MAPMT MA0081 46 5 8 40 MAPMT
9. a10 6 7 21 pC 0 6 4 8 56 kHz DP DP 6 15
10. 6 9 6 10 2 2 2 1
11. 5 CsI TI APD 5 10 3 2 3 X
12. 0 2 MAPMT R7600U 00 M4 1 9 mm x 9 mm 18 mm x 18 mm 4 4 18 0 mm 25 7 mm 30 0 mm 4 4 18 mm x 18 mm MAPMT 4 5
13. 3 1 2 e X e CMG CMG 17 10
14. g 7 c x exp 07 c g 1 1 0 7 9 6 x 10 2 2 x 10 c 466 6 1 0 20 C LdN _ N dT A NA 2 5 6 50 6 MMAPMT 6 1 MAPMT MAPMT 4 CH MAPMT 4 16 CH 80068 MAPMT
15. BNO Random Pulse Generator model DB 2 2 8 lt 2 4000 Dynamic Range a10 250Hz 1 1 4000 Dynamic Range a16 250Hz 9 ADC Channels ADC Channels Ratio Ratio ADC Channels ADC Channels Ratio Ratio 0 20 5 Input Charge pC j i j j 0 5 10 25 30 35 0 15 20 Input Charge pC 6 7 250 Hz a10 a16 b09 b13 Discriminator Gate Generator 10 sec
16. Z Z Z 2Z 9 CsI TD MAPMT Peel on wemlrmacg lm nlslsls hu mW mlimlml sh laewrms oun ae IWAmd 5 mem 5 mei ed ol io ao a rm 3 8 w WW 0 4 1 32 4 7
17. 4 MAPMT MAPMT MAPMT MAPMT 30 50
18. z 61 dead time dead time 6 11 2 0 50z 0 1
19. 1 Po 1 1 cosd c2 10 2 3 100 90 7 100 2 5 Klein Nishina cle e 7 7 90 9 9 90 9 90 7 2 4 2 4 2sin29cos27 2 5 11 Scattering Probability 0 5 100 1
20. MAPMT Il 31 MAPMT 1 4 2 4 1
21. 30 mA I 30 mA 5 nsec MAPMT 10 nsec MAPMT Q 30x10 x10x10 3 0 x 10 0 4 1 MAPMT 106 3 0 x 10 16 1 6 x 10 19 3 0 x 10 16 1 3 ns 19 x10 4 2 2 keV 1 4 MeV
22. MAPMT 64 MAPMT 32 51 6 1 MAPMT VME PMT Data Processor DP Linux ADO 32 AD 3 6 2
23. 50 x 40 x 20 cm 23 4 4 1 MAPMT TT TT FOR FATTO TT OTA RTTTTY FT OT A YET TAAYAII TEATYTTYITTIOI TITEEAVTIIITINIITIENTIIDYY 4 5 6 7 8 9 O14 12 13 14 0 16 17 1 4 1 MAPMT R7600 00 M4 MAPMT MAPMT X MAPMT MAPMT R7600U 00 M4 4 1 1 MAPMT R7600U 00 M4 4 2
24. A D 8 bit 10 kHz ADC ch BNO Pulse Generator model PB 4 54 6 2 1 32 6 3 ADO ch 100 Trigger Out a Head Amp TriggerIn PC a Data 6 3
25. 5 7 2 3 CH 2 1 2 4 1 2 1 2 45 MAPMT 1 10 Am 4 1 1
26. II 0 1 1 100 0 II sin e mm 9 1 2 6 2 6 2 6 100 keV 9 90 90 100 1 sin 9cos27 2 7 2sin Qcos2n 2 13 Degree of Linear Polarization 02T 1ookev 500 keV 1 MeV 0 20 40 60 80 100 120 140 160 180 Scattering Angle form Incident Direction deg 2 7 100
27. 22 HV GRD GRD HV GRD HV 10 W
28. ELJEN Fe 1 55 5 4 1 55Ee 5 9 keV 1 5 1 5 5 5 3 1 keV 5 5 1 1p e tAm 59 5 keV 59 5 keV 41 4 7900 10 Ee 800 FF Ns 600 i TUR N Ul UN MI W MM 1 MM 2 Ei 0 3 0 2 0 Eg 0 0 a 5 PP 8 Ea 00 1 0 MAPMT 3CH lp ADC Chann els MAPM 3CH 241A ADC Channels 5 5 830 V 1 3441Am
29. 10 kHz 1 kHz ORTEC ADC 36 MAPMT 1 MAPMT R7600U 00 M4 MA0081 5 1 5 1 1
30. 5 6 Am 1CH CH eo ch Am 1 2 3 4 CH e Am CH 100 CH CH 5 9 2 1 2 47 100 1 7 0 9 100 1 6 0 4 0 2 2 4 1CH 2CH 4CH 3CH 0 2 1 5 11 5 0 3 Am 1 1 100 100 2 5 5 9 CH 100 OH
31. X 4
32. 100 keV 10 keV 27 HV HV 2
33. MAPMT MAPMT CH 10 MAPMT 21 pC
34. 2002 Cute Project 1 2 3 2003 6 1 Oute I 4 Cute I Cute 1 7 Cute 1 7 1 APD 2 2 Cute 1 7 2007 9
35. 4 6 20 MAPMT 1 kQ 1Am MAPMT 4CH 6 21 5 3 NIM 6 6 6 6 NIM
36. 73 117 gsec 0 1 0 18 C PMT NIM MAPMT 4CH NIM 74 A A 1 IFWHIM
37. sec m sec 1 sec 7 sec nr mm sec mnr n m mnT 6 2 mm 77 es 6 3 7 n me 1 nT 6 4 6 10 6 12 7 rn 1 116 9 1 0 sec 8 56 0 07 kHz 62 InpuVOutput Random Ratio In Out eo a lr 0 8 1 1 1 1 1 1 1 1 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 Input Frequency Hz 6 12
38. 6 7 a10 6 7 a10 57 4000 3500 3000 2500 2000 1500 ADC Channels 1000 Ratio Dynamic Range b12 100Hz 8 i 568 8 lt L B 1 eg L li e se 9 a 9 SF gg 1 7 EE EE did OOoo 997 0 a i 1 1 1 6 25 Input Charge pC 6 6 b12 ADC ch 100 Hz 6 3 6 4 21 pC 6 2 3
39. Cute II 3 1 3 X X MAPMT 2 X X
40. ADO ofiset 10 pC 1 2 ch 20 pC 2 5 ch 30 pC 5 0 ch 40 pC 8 5 ch ch b09 10 pC 1512 ch 20 pC 2923 ch 30 pC 4333ch 40 pC 5742 ch 10 pC 0 08 20 pC 0 09 30 pC 0 12 40 pC 0 15 6 4 64 pC dh ch b09 ch ch 9 10 6 4
41. 2 30 0 001 0 001 0 01 0 1 1 0 10 4 6 A B C 1 2 CH CH 2 CH
42. 2 2 9 90 1 31 9 2 3 keV 5 1 2 CH 1 59 5 keV CH MAPMT OH 1 850 V CH 1 5 2 4 1 2 MAPMT G V exY CH a Am Am
43. CsI 4 9 p 9 SS P MA 1 9 9 2 354x 2 354 x A 4 354 x 35 2 A 4 W gy gx VN A5 _ 2 7 2 354 A 354 x 2 A 6 A DG i F 76 0 A 7 A 1 7 z cxz a 0 56 0 08 c 3 42 x 102 1 09 x 10 4 g 0 50 77 2 F L
44. b09 0 1 6 2 5 6 14 Trigger in Trigger out 5 Trigger Out db Data 100 pF 3 Pulser 6 14 65 20 C 20 10 ADO 250 Hz 10 pC 10 20 C 6 2 1800 T T T T Ha Peak Positi
45. 90 Wi 0 180 NW 9 14 2 8 AJB A B A B 7 do do 3o 90 07 aQ dQ 2 907 0 2 9 Sin 2 10 g e sin2 0 2 6 2 6 2 6 9 90 9 90 Modulation Factor
46. 21 pC 6 17 LaBrs Ce LaBrs Ce 63 keV 21 pC 6 18 6 18 662 keV 2 9 0 1 6 19 6 4 69 Counts 600 500 400 300 209 100 F 0 0 250 500 750 1000 1250 1500 1750 2000
47. 6 1 6 5 6 5 6 5 3000 T T T T T Outputchannel 2500 2000 oo 1500 oo Too oo ADC Channles 1
48. 4 10 Pslz 4 10 o c gp z FWHM FWHM 2 354 xgp Tp F 2 354 x 4 11 x 4 11 PMT gp P qc s PMT p 34 gp 7 0p 3 NN a WN 1 2 2 4 13 8
49. 6 2 3 2 1 250Hz 101 awk 52 DP Am b01 6 1 1 a08 a09 2 6 2 4 1 2
50. FEWHM 4 2 4 106 1 MAPMT Oi Am 137Cs 57Co 32 keV 59 5 keV 122 keV 662 keV A 1 70 T T T f E Energy r
51. HV gain HV gain 6 8 54 a 8 40 oe BE 10 5 108 jp en 4 8 io 8 ro T ee amp a amp 10 a 10 Ni i 9 10 19 1 05 1 i 1 1 05 89 4 8 1 Q 085 i Q 0 85 8 08 1 08 0 75 0 75 i 1 1 300 400 700 800 900 300 400 700 800 900 0 0 6 HV V logscale 1CH HV V logscale 2CH HV gain 8 HV gain 8 28 a 8 59 eg gw oD 10 1 i 10 i ga 1 G 1 5 A LS 9 8 10 1 i 8 10 0 c G 2 G LS 0 104 1 10 g A a 1 1 05 1 1 1 3 1 05 1 oo F 09 4 09 i i 0 85 i i 0 85 08 08 0 75 1 0 75 i i i i 300 400 700 800 900 300 400 700 800 900 500 600 80o coo HV V logscale 3CH HV V logscale 4CH 5 7 CH 1 CH 2 OH 3 CH 4 OH 44
52. NaI TI 4 2 3 241Am Am Am Nal TU 410 nm 4 8 33 a 4 8 Am NaI TD 241Am a a 241Am o NaI TI
53. 50 93 2 1 6 125 mV 100 pF C pF xY mV 0 10V pC 6 1 6 1 6 6 ADO ch 6 1 250 Hz 6 7 f z gz 101 101 250 Hz offset 6 3 6 3
54. 30 keV 100 keV X MAPMT MAPMT MAPMT 1 2 keV MAPMT 32 2 keV MAPMT 2 5 21 pC 120 sec MAPMT
55. 10 2 erg RHESSI GRB021206 80 20 X ITNTEGRAL GRB041219 63 30 3 1 2
56. gp 1 F FWHM 2 354 x gt 6 6 ADOC op 9 172 4 5 50 C MAPMT 6 2 6 10 67 6 3
57. PMT R5900U R7600U SERIES http jp hamamatsu com resources products etd pdf R5900U_R7600U_TPMH1291EO02 pdf 78 13 80068 MAPMT 79
58. X 30 keV X X X 3 2 3 2 1 2 10 CMG X 10 3 2 GRB H 22 NN CMG GRB _CMG _ 10 GRB 3 2 18 3 2 2
59. 7 1 6 2 4 6 5 b09 OS RT 10 pC 40 pC 10 pC RI et RDN i 6 13 63 3500 3000 2500 2000
60. 3 53 25220NNNIS IISIOUN ao aor an a0s a 0 1 13 M16 w i a06 as a02 a14 a01 a15 a03 a16 a04 ET EE EE EE Fs om a on on oor oe loos os EE EE EE ous oa vs es ie vee oo 6 2 2 4 ADC ch ADO ch ADC ch MAPMT
61. CH 40 CH 5 1 3 1 MAPMT keV MAPMT 1 1 1 1 241Am 1
62. NI NN ER A MAPMT Nal TDD
63. 3 4 es e e s 21 Satellite BUS CUTE2 DP VA32HDR11 CPU PMT APD 8bit HV 2007 07 04 J Kataoka 3 4 APD MAPMT 2 H8S3048F HV 1 e e
64. Am o NaI TI 3 MeV 1 1 x 10 1 2 3 MAPMT Am 4 2 4 FWHM MAPMT 1
65. 30 keV 100 keV 30 keV 1 30 keV 5 1 3 BGD 100 keV X BGD 100 keV 3 3 3 4
66. o 7 3 MeV MODEL 595H 5 4 5 6 pF kQ used ET am mm 5 4 43 Am 5 6 Am Am CH 850 V 25V 350 V Am 5 7
67. 30 mm 33 g 24 signal GND cs signal out R1 to R3 330kQ R4 to R11 220 kQ R12toR14 51Q R15 1MQ C1toC3 10nF POWER SUPPLY GND 4 2 MAPMT HV 800 V 2 0 x 106 4 3 4 1 4CH MAPMT R7600U 00 M4 5 TOD view Bottom view 4 3 MAPMT CH 25 Cathode 1 1
68. AC DO 4 1 2 MAPMT MAPMT V 1 D 89 2 4 3 D
69. P 100 7 Modulation Factor 100 O 15 M M 2 11 lS M 16 3 3 1 2004 50 x 50 x 40 cm 50 kg 2007 1
70. 37 622 5 1 1 1chPMT 37 EN NO AM 39 NO 0260 eS Ne WS 41 5 2 III 43 5 3 CH 46 EN 2 00 02 23 47 EAN NESCO 49 6 MAPMT 51 6 1 C 52 6 2 NAS SD0SKS IS ee s 53 6 2 1 55 622 2 RC CC 57 6 2 3 58 6 2 4 II 63 625n NR 65 6 2 6 67 8 RD RS Daa 69 6 3 1 _ PMT 69 6 3 2 MAPMT 70 7 73 A 75 A 1 FWHM 75 2 1 2 2
71. 56 6 6 1 58 6 7 4 59 6 8 60 6 9 61 6 10 61 6 11 62 6 12 63 6 13 AA oo 64 6 14 65 6 15 66 6 16 67 6 17 PMT 69 6 18 PMT 137Cs 70 6 19 PMT 137Cs 662ke
72. 7 2 60 11000 f x 01X ss g xX 0 50x 10000 F Input Output 6 9000 soo 7000 eooo J sooo ie 4000 1 1 1 le a sooo g 3 ii 2000 2 cane 1000 a 0 1 1 1 1 1 1 1 1 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 11000 Input Frequency Hz 6 9 1 01z 8500 Hz 2 0 50z 10000 1 x X orn g x 1 0 000117 x a 9000 Input Output random 6 1 a 8000 3 N 6 7ooo 1 1 i gt a 5 CE 6000 se 1 5000 1 1 i 2 po L4000 9 bg a 3000 ee A 2000 1 1 1000 i LS 0 eS 1 1 1 L 1 1 1 1 1 0 1000 2000 3000 4000 5000 6000 7000 8000 9000 10000 Input Frequency Hz 6 10
73. i 4 4 ls D 8 I 4 6 Tr 4 5 7 WW Rh Ta 0 0 46 Qa x 8182 4 6 o o 1 MAPMT R7600U 00 M4 10 4 2 1 5 p 10k 15epO x eg07 8375 x a Ax Vk 4 7 hh AxVik 4 8 4 a 10 10 A 3 gt E 11 5E 4 3375 x 2 V 5 4 9 n 1 x 10z CH MAPMT 1
74. 4 5 MAPMT CH MAPMT 29 MAPMT 2 2 1
75. 9 100 1 2 7 2 7 100 100 2 3 XX X XX IT X 2 8 A B A B A B 2 4
76. 250 Hz 100 pC b09 ADC ch 1500 ch 3000 T T T T T a channels bchannels 2500 2000 1 500 ro ADC Channels 1000 1 500 0 i i i i i i i 0 2 4 6 8 10 12 14 16 Input Channels 6 4 a b ADC ch 55 6 4 a b a 6 b 4 10 MAPMT 40
77. X XX X X X X 2 1 X 9 m c Eo 1 9 1 cos 0 772eC 2 1 500 500 200 120d amp 400 150de 100 300 100 Scattering Photon Energy keV Deposit Photon Energy
78. Z 6 X MAPMT MAPMT 1 APD CsI TD APD OCsI TI Z 54 20 APD
79. AU SMA SS SN 2 SS PMT MAPMT CAm CH 341Am Ss 1 5 5 MAPMT 1 341Am 42 5 6 Am 44 5 7 CH 44 5 8 MAPMT CH 46 5 9 a 48 5 10 IN 0 1 49 5 11 MAPMT SS MA SS SS 50 6 1 MAPMT 2 51 6 2 MAPMT 52 6 3 55 6 4 55 6 5
80. MAPMT 38 IE hm lm 5 1 1chPMT MAPMT 59 5 keV FWHMI 5 1 2 CH MAPMT CH MAPMT 5 1 CH CH Peak khl C FWHM 1CH 440 5 12 49 8 0 6 2cH 581 8 1 8 53 0 0 9 3cH 664 3 1 9 51 3 0 9 4 CH 454 4 1 6 54 6 0 8 5 2 CH 59 5 keV
81. 2 0 04 5 5 49 Ss Ss 1p e 6 1 Allcounts counVsecl 6 x 0 11x 264 9 x 1 1exp 0 096x 8 8 HO ADC hanne L uu se 1 t 0 1 1 1 1 1 1 460 0 10 10 Degree C Degree C 5 11 MAPMT 1 20 C 5 11 20 C
82. 200 15 Peak Channel 1 275 73 200 am soskey eesos 5 3 MAPMT 1 341Am 59 5 keV 7 59 5keV 665 08 15 _ lp e 275 73 200 99 5 1 59 5 keV 2 10 N cx 4 2 N PG Dk plipe 31 9V0 12 0 12 4 5 2 9 ea p lp e amp Ps 1 keV 31 9 4 51 op U536 0 076 keV 5 3 42 1 1 87 0 26 keV 2 3 2 5 9 90
83. X 3
84. ss 5 10 1 5 4 Fe 1 30 10 1 MAPMT 1 5 1 3 55Fe 1000 5 11 5 11 7 g7 5 g 0 11 0 08 5 263 9 1 4 0 C 1 dr P 0 7 50 2
85. 120 psec 10 sec Discriminator Visual Scaler 6 8 Clock Generator 1 kHz 10 sec Visual Scaler Clock Generator 59 Clock Discriminator Visual Generator gt gt Scaler Gate Generator 100 pF Pulser Head Amp DP PC 51 6 8 1 kHz Visual Scaler 0 05 sec
86. 1 BGD OH 1 CH CH XX MAPMT 4 1 2 MAPMT CH OH CH CH
87. IFWHMI 39 w 1104 110 E E 8 8 10 1 103 6 0 1 IN 9 M OE h WN WW MT MNT MW IN i Mi W 10 10 M ii Wl I 1 MAPMT 1CH 6 a MAPMT 2CH S 104 10 10 103L kL 0 Lu Nl 10 E a NN MM MT 10 E Ua IN WW il ly UN ll WW N WW i I 1 oo 45 ee Err 5 400 _ 800 1000 MAPMT 3CH ADC Channels MAPMT 4CH ADC Channels 5 3 CH 21Am ADC Channel Count 1 CH 2CH 3 CH 4 CH 5 3 5 2 CH CH
88. 5 7 350 V 850 V 600 V 850V Di D D D Vo_p D MAPMT HV Ri R 330 k R4 lt Ri 220 k Rg D D D 330 12 EN KR 5 4 30 330 x 3 220x8 100 2 C Cathoed V _ 70 V HV 583 V 5 7 600 V gt a 1 CH 8 54 0 04 8 40 0 08 3 cH 8 28 0 10 om snm 5 5
89. Am CH CH CH CH CH 2 CH CH 20 80 1 V0 8 1 12 4 1 0 96 1 02
90. 1500 ADC Channels ADC Channels 1000 RMB i 15 20 25 Output Channels 6 13 100 ch 6 13 100 ch b08 b09 ADC
91. 1 5 1 3 2 keV 2 1 100 keV 2 50 2 keV 30 keV XX 48 5 5 MAPMT 5 10 me MAPHT ps gt ADC
92. 1 CH PMT ADC Channels 6 18 1chPMT 97Cs NIM 3000 T T T T T T T r 3000 T T T T T T a channels PMT b channels 2500 3 0 3 el 2500 2000 2000 G 4 G OOOO oOOO OOoo oooo oooo oOOo 1500 i 4 4 E150 1 1 a lt 1000F 1000 500 i 6 500 0 0 0 2 12 14 16 0 5 0 15 20 30 35 Output Channels Input 6 19 PMT 137Cs 662keV ADC ch 6 3 2 MAPMT 1chPMT MAPMT 4CH 70 241 Trigger Out Am a MAPMT Head Amp 99erIn DP PC Data 6 200 MAPMT 4 CH
93. 80 mm Csl a 3 3 CsI T 19 2 Cs1 2 9 90 Modulation Factor 9
94. NM 6 6 CH 59 5 keV IFWHM NIM 71 wb MM i WW Mu 6 1 WWW MM uA IM 6 21 A 21Am ADC 1 o Ch Count 1 CH 2 CH 3 CH 4 CH 7 MAPMT MAPMT 2 30 keV 100 keV 2 0 04
95. 1cnhPMT MAPMT 1 1chPMT 1chPMT 1chPMT MAPMT H7195 Am ELJEN 15 x 15 x 45 mm SCH 557 ORTEO MAPMT 37 6
96. MAPMT ADC lk 5 1 8CH ORTEOC 1chPMT MAPMT 8 10 FSS 8 10 E 1 1 Un 7 Ne L M ML ll Mi I ll 6 0 a 40 Mi 0 80 100 0 2 40 60 80 100 PMT Energy keV MAPMT 3CH Energy keV 5 2 1chPMT MAPMT 4Am 5 2 5 2 5 1 MAPMT 1chPMT 4 2 4 2 MAPMT 1chPMT
97. X 2007 7 X X Oute I Cute 1 7 APD Cute Project 3
98. 6 5 66 4000 T T T rz T 4000 LR T T T Dynamic Range b09 250Hz 10deg 6 2 Dynamic Range b09 250Hz 20deg 8 3500 9 eS ADC Channels ADC Channels Ratio Ratio 1 20 25 10 0 25 Input Charge pC Input Charge pC 6 16 10 C 20 C 21 pC 6 16 6 16 50 9 0 50 C FWHM ADC ch
99. 4 CH 1 1 1 1 2 1 3 2 2 1 2 2 2 3 3 3 1 3 2 3 3 3 4 4 2 6 1 26 03 8 ee 6 7 0 8 X 9 9 i ee 13 X 14 17 18 2 NC 18 3 2 2 gt gt 19 3 2 3 XX 19 IISO2DO0S2ASrea 21 21 24 MAPMT 6 24 A411 SO 24 4 1 2 28 X 32 2 FVER 33 9G RE ASO PE 33 42 3 Am 33 4 2 4 FWHM 34 43 2 UADSIOSSNS SANSO OASISA AALS ED SLd 6 36 5 MAPMT
100. keV 0 0 500 20 30 i Energy 2 2 0 0 109 560 00 409 Incident Photon Energy keV A 0 1 cos9 A 2 2 1 Fz 1 cos 2 2 2 3 Klein Nishina 1 sroe le e sin2 2 3 ro 9
101. 3 2 4 2 5 2 6 2 7 2 8 3 1 3 2 3 3 3 4 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8 4 9 5 1 5 2 5 3 5 4 NANA SS AP 82 SL 3 9 100 9 ene ee Sieuees eta Ne TI MAPMT R7600 00 M4 MAPMT AA IS MAPMT CH P oe Re 2 OS SA ASS SS AS SS AD Oo 6 Am
102. 000 1 1 1 30 35 0 0 8 20 Output Channels 6 5 6 4 ADC ch 56 6 2 2 ADO ch ADC 100 Hz 250 Hz 10 sec 6 3 1
103. 20 Scattering Angle deg 0 02 0 ai 0 2 o3 Polarizing Direction 2 4 100 9 90 2 5 9 12 100 keV Degree of Linear Polarization 160 180 1 0 20 Scattering Angle form Incident Direction deg 2 6 9 2 2 X
104. 3 DP A D ADC Gate A D VME PC DP DP SS 6 2 MAPMT DP 1 1 34 1 2 3 34 35 100 6 2
105. V 70 6 20 MAPMT4 CH 71 6 21 4CH Am 72 AL 75 4 1 5 1 2 5 3 5 4 5 5 6 1 6 2 6 3 6 4 6 5 6 6 2 22 29 Ke ae Re SR 1chPMT MAPMT 59 5 keV MAPMT CH 59 5 keV MAPMT 1 2 1Am 59 5 keV OB Se AP Am C1 0 5 C2 IANANYI NX 02 SAND UNS AN no use os SS NIM gt 39 1 1 1 X
106. ei et al Space Science Reviews 82 309 388 1997 M MoszyskiM Kapusta D Wolski M Szawlowski and W Klamra IEEE Trans Nucl Sci 45 1998 472 S McGlynn et al 2007 X PoGO 2006 XX 2005 Performance Evaluation of Phoswich Detector Cell for the Balloon Borne Astronomical Soft Gamma Ray Polarimeter PoGOLite 2006 Cute 1 7 APD 2006 2 1998 2005 2005 H2A
107. esolution f x 341 7 x 60 KO 50 E ao 8 30 E gt oo 5 95 20 10 0 1 1 1 1 1 1 0 100 200 300 400 500 600 700 Energy keV A1 75 4 2 4 2 354 x A 1 x A1 c gp 0p 2 Ce 1 6 s c ADC 1
108. on f x 2 87x 1577 1750 1700 1650 Fes lt CE 1600 ER Se A 1550 1 en 1500 1450 1 1400 1 1 1 1 1 20 10 10 20 0 Degree C 6 15 ADO 6 15 ADO P T g7 5 g 2 87 0 02 5 1557 5 0 2 0 ADO PP 1dP _ PdT 50 C 9 0 10 20 6 16 0 18
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