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不安定核二次反応のための大型中性子検出器の開発

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14. 140 B Appendix B 22 76 0 44 60 Ti 0 44 Si 27 72 H 0 14 Al 8 13 P 0 12 Fe 5 00 Mn 0 10 Ca 3 63 F
15. VETO A 2 VETO112 D B 9 NEBULA 0 1 ID cm 116 216 194 4 117 217 206 6 118 218 218 8 119 219 231 120 220 243 2 121 221 255 4 122 222 267 6
16. 134 B Appendix B NEBULA VETO 20 Vo VETO B 10 6 20 RIBF 10 0 RIBF B 10 7 20 VETO B10 Lorigin 1041 em B 10 8 Yorigin 3
17. 5 2 27 30000 lo Andi ZL EE S y A os Pi 0 2857E 05 4 25000 NN 20000 8 88 8 15000 ecco 10000 fee ee EE e e n e e e ed 0 0 10 20 30 40
18. 4 NEBULA NEBULA VETO 107 5 3 dN aa Q NEBULA RIBF 2 NEBULA VETO dN dp VETO 51 0000000 5 1 0 5 1 5 1 VETO 51 0 VETO 1GeV 6 5 5 52 5 2 cos 0
19. 1 2 HHH HHH HH HHH 5 130 RIBF 6000 0000 00 20000 RIBE 1000 12 0000000000 00000000 0 00 0000000 0 000 00000 0000000 6 7 1 4 1 5 1 6 1 70
20. cps 100 100 67 cps 87 25 17 1 87 25 25 6 9 6 4 3 NEBULA ADC VETO A VETO B 6 9 5 6 1 ADC VETO A ADC 6 5 3 6 24 2MeV 19 3 x 14cm 8 cos 0 2 6 5 5 32MeV 000000000000000000 630000 VETOHHHHHHHHHHHHHHHHHHHHHHHHHH
21. 5 7 5 8 VETO105 n 1 VETO1 e RIBF VETO 5 9 4 4 B 8 5 9 VETO 12cm 12cm 12cm 5 9 5 9 5 9 5 8 8 0000 VETO105 00000 VETO112HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH HHHHHHHHHHHHHHHHH VETO105H
22. R7724 4 19 3 12 NEBULA VETO VETO VETO VETO lem VETO RARF RIPS 2 VETO 1 1 2 NEBULA VETO 3 5 VETO 1 1 1 lem 0 x32em x190cm H O VETO 373cm 190cm 313 000000001 VETO NEBULA NEBULA
23. B 7 attenuation length 113 VAVSET VAVRND x 0 1 real VAVSET VAVRND x 92 1 1 MODE VAVDEN x 0 1 Vavilov 0 01 lt 12 attenuation length y L Lo B 7 1 L y Lo exp 5 B 7 1 L 1 e A VETO geometric mean B 14 A y Liop Lho tom PMT A y PMT B 14 PMT y L y top Lo exp gt B 7 2
24. 50 6 6 5 5 6 5 5 30mV 65 HHHHHHHHHHHH 651 4 5 652 NEBULA 5 554 3 2 NEBULA 6 5 0 NEBULA NEBULA NEBULA VETO A BC 408 EJ 200 EJ 200 cm 180 10 10 cm 12 180 180 cm 12 12 12 1 R7724 R7724 00 2 R7724 H6559 H7195 6 5 NEBULA 2 1 NEBULA VETO A NEBULA VETO 3 10cmx11cmx1mm 2 i VETO B NEBULA VETO 1cm VETO A 12cm NEBULA VETO lem VETO VETO B 400000 20090 700 RIPSHHHHHHHH 200000000000 r405n 20 0000000000000000000
25. NEBULA 4 1 VETO 311 0000000 ID x 2 y TOF Py 1 2 1 30 1 2 360cm 180cm 24cm 12cm 0 0 x12em x180cm 0 D BC 408 2 UVT 3 18 1 TOF Time Of Flight 2
26. 30 5 mU E ia 6000 5000 4000 3000 2000 E 1000 0 L 1 1 L 1 1 L 1 1 1 1 L T 1 0 20 40 60 80 100 120 140 160 180 azimuthal angle distribution 5 5 D 0 0 VETO H JU VETO 0 pl NEBULA id NEBULA RIBF 2 NEBULA NEBULA 5 4 54 VETO 5 6 ID 10000 ID 20000 5 3 0 p 180 90 VETO 5 6
27. Miotto rot D ASK pa diete in 16 5cm 00000000 ag ie A ieee T api US a atte A at ted E VETO IM Sent A ashe ap ne eo RAGS 1 VETO VETO 2 2 2 000000000000000000000000000 VETO VETO VETO T Ji EJE DEI n ae eee a
28. 108 B Appendix B Straggling prameter 10 plastic concrete B 03 T Energy MeV B 10 vs 14cm 0 2 3 8 B 4 13 2zN 2 B 4 14 2 102 A y y 0 57721 3 A Mean energy loss Bethe Bloch A 4 4 0 Vavilov 0 0 B 4 5 B 4 6 B 4 4 Landau distribution Landau 46 1 755 slog s As 1 PS A e 08 ds exp As sln s ds B 4 15 c ioo c ioo c A 2 A q B 4 16 0000000 Eulers constant
29. 70 p 4 JIS 5210 52 B 3 da 10096 SiO Al203 MgO SOs 96 23 3 3 8 4 0 64 0 1 2 2 0 B 3 52 B 3 A 25 3 2 12 6 2 0 450 0 9 3 53 7 5mm 90 54 B 4 55 790000 lossonignition 000000000000 0000000000000000000000000000000000000 0000000000 10000 000000000
30. L S S Sa S S Si Su S So Sos 5 Sa So So 81 500000000 10 8 107 000 poa 10 2 0000000 1000 00 1 1 U I 1 1 0 HHHHHHHHHHHHHHHH 10 D SO HHHHHHHHHSiHHHHHHHHHHHHHH So HHHHHHHHHHHHHHHH Ti HHHHHHHHHHH 000000000000000 SiHHH Sa 5200 HHHHHHHHHHHHHHHHHHHHHHH 152 O Appendix C DDD C2 0000000000000
31. HHHHHHH 000000000000000000 00000000 000 000 a 1 vU 1 b 2 vU c2 a 100000000 20000000000 gt 0000000000 HHHHHHHHHHHHHHHHHHH 620000000000000000000000000 32 8380000000000000000 00000000000000000000 000 C4 ADCH OchHHHHHH 0OIMeVIHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH HHHHHHHHHHHHHHHHHHH 0 3000000000000000000000000000000 0000000000000000000000000000000000000000000000000000000000000 40 HHHHHHHHHHHHHHHHHHHHHHHHHHH C 4 153 1
32. 110 B Appendix B 13 0 NEBULA Straggling prameter K lt 0 01 vavilov 0 01 lt 22500 A id e ues 10000 20000 ne ete ete eet 8000 17500 A naia 15000 ion nn dat re 5000 L7 E 2000 2500 Ri nn a 0 La ra La 0 0 20 40 60 80 100 0 25 50 100 Histogram 16 Histogram ID Energy loss FL 5cm Energy loss FL idem 5000 3500 3000 4000 2500 3000 2000 1000 1000 500 0 0 50 100 su 100 150 e Histogram ID Histogram ID Energy loss FL 30cm Energy loss 11 1GeV MeV B5 0000000000 B 8 B 5 1
33. 1000 RIBFHHHHHHH 00 NEBULAHHHHHH 210000000000000000 000000000 000 59 B 60 B 61 0 0 5 4 VETO 31 5 3 45000 40000 35000 30000 25000 20000 15000 10000 5000 45000 40000 35000 30000 25000 20000 15000 10000 5000 a La kh 45000 40000 35000 30000 25000 20000 15000
34. 56 6 30000 25000 20000 15000 10000 5000 um 100 200 300 400 500 600 700 800 ADC spectrum Neut raw 30000 df 717659 77013870000 i 25000 20000 15000 10000 5000 100 200 300 400 500 600 700 800 ADC spectrum Neut 6 25 P2 ch 191ch 65 5 NEBULA NEBULA VETO VETO VETO gj NEBULA 6 VETO BQ NEBULA VETO 6 9 6 9 87 NEBULA 25 VETO B VETO BHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH VETO AHHHHH HHHHHHHHHHHHHHHHHHH 00000 B 9HH 00 6 5
35. 4 1 NEBULA 4 2 VETO VETO E e e RIBF 0 4 2 e NEBULA VETO e 4 3 9 4 1 5 4 3 de Y z 0 6 2 VETO z 00 y x 00 VETO y 0 VETO 2 3 8 VETO 0 90 NEBULA 0 4 4 4 4 B VETO D 90000 BHHHH 2090000000000000000 B 1HH 22 4 2 RIBF 4 1 VETO 4 3
36. 2 VETOHHHHHHHHHHHHHHHHHHHHHHHHH 00000000 HHHHHHL 1 00 000 00079000 Voltage Divider 2 SIND Voltage Divider 3 00 000 000 000 4 000 4 4 Uu 000 A200 R7724 430 25 uli A 5 Uti A 6 22 0 A 1 3 12um HH HH 0000000 0 A8 A14 000 SAMURAIHHHHHHHHHHHHHHH 2mHHHHHHHHH 00000 VETOHHH 200 01000 0000000000000000000 2 signal noise ratio 00000 64 AH Appendix A NEBULA R7724 Voltage Divide 0 0 O B Lum QA 00000000000 ULI 51 mm 0001000 46 mm 0000 Short 300 OOOO Long 650 nm 0000 Peak 420 000000 000 No 400K
37. B 10 139 4 Z 31 94 15 2 A 5 3 55 A Z p 0 45 0 9 0 55 B 5 52 10 7 Z A kg m kg m kg m kg m 154 280 694 1157 B 5 B 6 A Z p g cm 29 38 14 08 23 B 6 B 10 3 NEBULA RIBF RIBF B 7 B 7 A Z p B 8 5700 B 8 11 100 B 10 4 NEBULA B 62 VETO HHHHHHHHHHHHH 00000000000000000000000000000000000000000000000000000000000 10000 trace element HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH ppmHHHHHH
38. 5 HH rro ta ae RIBF net tumet te etate eR Rd Mg 1Be 10Be 1000000000000000 4 12 2000000000000000 b c I9 C mp IP tient eth b oc see tea ERE Oe dd 14 21960 180 n Ea00000000000 SAMURAIS RE A ENSE IS E SAMURAI 15 0000000000000000000000 RIBF SAMURAI S OE SAMURAI idee dew A dos di NEBULA 1 NEBULA 1 NEBULA VETO SCIE RATA ER AIRIS 0 1 0 VETO 1 QM VETO NEBULA VETO VETO NEBULA NEBULA J ID ID VETO MTI ca oa da e iii 10 10 11 12 12 17 17 17 18 18 19 19
39. SAMURAI 9 SAMURAI HE Ene tat eer a Ba aT erie as MN 9 Leelee RA dat E 13 VETO ID IP 40 16ch SCALER INPUT VETO ee ee 46 Visual SCALER INPUT VETO A 46 VETO RISE EUM 46 NEBULA N V VETO 49 NEBOLJAT E EL TATO 50 a III 51 SCALER INPUT 55 55 TITO TTT 57 BC408 61 R7724 D a a TP IR NC a 64 RTIA 65 NEBUPAS TIT EIU UE ii bap dtd odes ebd es 67 NISBDDA EET Ka Rh RS uti p 68 VME V792 D8 E T Iaia 69 V775AO OAL s SN ANNA AN 70 V895 Rae none uut S ahead 71 VME8100 20 a oa iras ii OTT 72 SY1527LC ON naa 73 A1535SN aiite 73 N RS
40. 5 6 37 18 16 3 5 14 Y 12 2 5 10 8 1 5 6 1 4 0 5 2 o 8 0 0 50 100 150 0 50 100 150 0 50 100 150 0 50 100 150 Histogram ID 35301 Histogram ID 35302 Histogram ID 35303 Histogram ID 35304 VETO 5 101 Energy loss VETO 5 Energy loss VETO 5 _N C 103 Energy loss VETO 5 N C 104 Energy loss TE 10 160 E 25 50 80 20 60 15 40 10 4 20 o E Mr 0 50 100 150 0 50 100 150 Histogram ID 35305 Histogram ID 35306 Histogram ID 35307 Histogram ID 35308 VETO 5 _N C 105 Energy loss VETO 5 _N C 106 Energy loss VETO 5 _N C 107 Energy loss VETO 5 _N C 108 Energy loss 250 500 E 500 E 400 E 400 150 300 300 100 F 200 200 50 100 100 E o Mrs E o E S 0 50 100 150 0 50 100 150 0 50 100 150 0 50 100 150 Histogram ID 35309 Histogram ID 35310 Histogram ID 35311 Histogram ID 35812 VETO 5 N C 109 Energy loss VETO 5 110 Energy loss VETO 5 _N C 111 Energy loss VETO 5 N C 112 Energy loss 5
41. VIEWS naf 1 S amp O aan ete fette tto to dede eva A AAA ea 128 EsB side VIEW fa e Rd sa querar guste domm C e ute de qe m la a 128 OD View see al rib uus S uod EM S pM ed 129 side VIEW cR See SS e Rd ARES ue qe 129 E F ss LA 130 SE II de vui 130 RIBE mM H REDEEM 132 RIBE HE IJ E 2 4 sasha aca bb RR REP b a A ee 4 133 RIBF topview si amp Qm ESS ta Fg ES 135 RIBF BD sideview ra BAE 2 Yam mas 136 RIBF B9 sideview 1 11 137 HistogramID 17 0 HistogramID 49 DELIO SEINE e me RR 141 RIBF NEBULA B2F topview V Ru Xu a ded huis 142 RIBF NEBULA BD sideview 142 VETO VETO VETO cm ONE T 144 VETO VETO101 P
42. radiant source OR scintillator 6 3 PMT OSC 6 13 E ELE BE ED DE 346 BA4490 ID NEBULA in 62 0000000000000 621 622 3 BA4469 BA3231 NEBULA R7724 6 1 e SHV BNC 6 23 Voltage Divider 0 6 4 ID400 209000 IDHHHHHHHHHHH A3000 0000000000000 C 3HH 63 43 64 Voltage Divider 000000000000000000000000000000000 63 VEIOHHHHHHHH
43. BA Energy loss 107 Wmax 4 5 1 A dE B4DHH x he E B 4 7 da 1GeV H B 9 Straggling prameter 0 025 r r plastic concrete 0 02 1 0 015 4 0 01 H 1 0 005 0 L L 1 0 100 200 300 400 500 Flight length cm B 9 cm vs 1GeV 14em 0 K B 9 B 4 3 Shulek Shulek function Straggling prameter t A 1 2 99 f t deltaz our exp x f1 y cos A1y amp fa y dy B 4 8 max 0 45 fi y y Ci y cos y ySi y B 4 9 foly Ci y sin y 82810 B 4 10 Ay KA KInK B 4 11 Si y sin Ci y cos A A DNA B 4 12
44. 6 14 101HHH b 100 500 6 15 000000 101000 9 00 100 20nsH 10 0 CH1 50mV CH2 1V 00 100 HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHL HHHHHHHHHUHHHHHHHHHHHHHH7yHHHHHHHHHHHHHHHHHHHHHHHHHHHHL O 640000000000 V101 N101 N V mV cps eps eps 12 89 732 6 2 30 87 244 4 8 6 4 NEBULAHHHHHHH 000 N VHHH 000 VETOHHHHHHHHHHHH
45. Appendix C fission n f 2 evapolation 100MeV a 12 000000000000 3 1 1 ci3 0000000000000 C 1 H C n H gt n H 128 n 2 n 2 n C n C gt n 120 7 4 43MeV n 120 gt o Be n4 n 2C He Be n 13 gt p Be n C n4 pd4 n4 7C n cn4 HC n 2 gt d n4 B n y 8 C 1 12C 0000 151 C14 1000000000000 58 L L 000 000 L L 0 HOUU 7 000000000 10 00 00000000 560 51 0 70000000000 50 00000 00 00 000000 0 16 000 000 59090 00000000 00
46. RIBERr EE BE v E RU RR 0 VETOS 0 GeV Sao soda A aa CE e a 0 cos 9 P1 cos VETO D ap apps Eh BE o SR s he a EE 0 VETO 0 HVETO D Pa added de are Dai VETO ID i EU kad a y ah a oc e Re A a Ne Na VETO105 N101 115 fom nt tte tea VETO105 N116 130 i 00 0000 2 D F cm i AN a ic VETO105 1010 115 MeV PMT PMT SO da ter SME Gh VETO105 116 130 MeV PMT PMT zg a ns CE 2 den ed oe ad VETO105 112 105 112 MeV h tm h e ua ee ID MeV 8 1mm 4 5mm 33cps PMT Voltage Divider 00 0000000000000000000000000000000 VETOH Eo tr ene A LI es HR es VETO a ate ae E VETO Visti MEO pP BD sede at EN
47. 1 International Tehnical Advisory Committee 156 21 22 23 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Saint GobainIndustrial Ceramics Inc BC 400 BC 404 BC 408 BC 412 BC 416 Premium Plastic Scintil lators Hamamatsu photonics HAMAMATSU PHOTOMULTIPLIER TUBE R7723 R7724 R7725 http jp hamamatsu com resources products etd pdf R7723_TPMH1315E01 pdf Costruzioni Apparecchiature Elettroniche Nucleari Electronic Instrumentation Technical Information Manual MOD V792 series MOD V792 N series 2009 5 14 Revision n 17 http www caen it getattach php mod V792 amp obj mn amp id 2239 Costruzioni Apparecchiature Elettroniche Nucleari Electronic Instrumentation Technical Information Manual MOD V775 series MOD V775 N series 17 March 2008 Revision 13 http www caen it getattach php mod V775 amp obj mn amp id 1951 Costruzioni Apparecchiature Elettroniche Nucleari Electronic Instrumentation Technical Information Manual MOD V895 series 19 March 2009 Revision n 3
48. 46 6 16ch SCALER chi 0 ch2 1 ch3 2 ch4 3 ch5 4 ch6 5 D ch1 ch2 ch3 ch4 6 C ch5 ch6 7 E ch1 ch2 ch3 ch4 ch5 ch6 8 F ch1 ch2 ch3 ch4 ch5 ch6 9 6 1 16ch SCALER INPUT VETO Visual SCALER D ch1 ch2 ch3 ch4 OVERLAP 1 C ch5 ch6 2 E ch1 ch2 ch3 ch4 ch5 ch6 3 G G Delay THRU Width 100ns 4 6 2 Visual SCALER INPUT VETO PMT psec d M oo chs 4685483 ch 442 7 6 9 ch3 1630 ET 1820 6 8 VETO 6 3 VETO 6 3 VETO AT 1000 ch5 ch6 100 coincidence 5 9 10 8 8 1 E E 0 1 O 0 01 0 001 900 1000 1100 1200 1300 1400 1500 1600 1700 Applied voltage V 6 9 V cps ch5 ch6 ch1 ch2 ch5 ch6 00000 6 48
49. 5 6 35 6000 ro MM T 4000 E MN c E E 2008 Lee iii 1000 n TI 0 10 20 40 50 60 70 80 90 Histogram ID 47 Flight length D F 5 9 D F D F cm 56 HHHHHHHHH 000 5 10 VETO105 4 5 VETO VETO VETO ID 112 VETO 0000000000000000000000000 VETO105HHHHH VETO101HH VETO112HHHHHHHHHHHHHH HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH VETO105HHHHHHHHHHHHHHHHHHH HHH 00000000 B 7HH 10000000 B 4HH 36 5 561 HHHHHHHHHHHH
50. HistogramID 49 142 O BO Appendix 00000000 946 e B 63 RIBFO OOOO NEBULA I t Bl t B2F topview Fr gt EE ZF IC gt lt gt lt b pon era NO SD ho zum el gt we gt lt al La lo m IT T zu arl A WN EA A i ie ASAS ASS 2 e CIA gt d cia DS3 Dg SAL 1053 7 553 N i En a lt KAA 8 O B 64 NEBULA 000000 BD sideview 143 Bil 000000000
51. 6 3 1 HHHHHHHHH VETOHHHHHHHHH1HHHHHHHHHHHHHHHHHHHHHHHHHHHHH 00000 VETOHHHHHHHHHHHHHH 0 00000000000000000 632 HHHHHHHHHHHHHHHHHHHHHHHHHHH 500 55400000 VETOHHHHHHHHH 0 NEBULAHHHHHHHHHHHH HHHHHHH 0 6 6 6 7 VETOHHHHHHHHHHH lt 5 60000000000000000 1 3 14 000 HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH ch1 ca2 0 0 D ch3 ch4 D 003 x 14em D VETOHHHHHHHHHHHHHHHHHHHH ch1 2 34000000 HHHHHHHHHHHH vETODnD 6 50 USCALER 6 1 6 200000000000 000000 6300000000 6 33 00000 chiH6HHHHHHHHHHHHHHHHHH30HHHHHHHHHHHHHHH TDCHHHHHHHHHHH 0 00000000000000000000 HHHHHHHHHHHHHHHHHHHHHHHHHHHHHoH 680000 5 38 x 1072 cps 3 count min 00000 44 SUL LASAA pu dOLS HOLV T YPM a QUAL dogs Sou 11918 1005 TIPI UHL 4219 sue UJDIAA OLHA 11918
52. 50000 E 40000 E 30000 L 20000 E 10000 0 Ki L 1 1 1 1 1 LI 1 1 1 1 1 I L 1 1 il 0 1 2 3 4 5 6 7 8 9 10 HistagnamillD 33 Energy spectrum 5 1 0 0 VETO amp GeV 521 VETOHHHHHHHH 5 2 VETO VETO RIBF 9 0 0 ges 9 0 0 9 0 9 30 35 9 0 9 90 cos 0 9 30 35 522 VETOHHHHHHHHHHHHHHH U 5 2 0 9 0 9 90
53. C 2 m 4466 1 A1 5 ch1 A2 5 ch2 4466 2 A1 5 ch1 A2 4466 3 Al T 500 terminate A2 4466 4 1 4466 7 Al 0 5 ch1 A2 0 5 ch2 4466 8 A1 54 5 ch1 A2 500 terminater 4466 9 A1 54 5 ch1 A2 0 5 ch2 BA4469 54 5 5m 2 m 3231 1 A1 5 ch1 A2 5 ch2 DY 3231 2 A1 5 ch1 A2 5 ch2 DY 500 terminater 3231 3 A1 5 ch1 A2 5 ch2 DY 10 500 terminate 3
54. ID B 67 B 68 90 80 80 80 225 225 m 5 200 200 20 209 60 19 175 60 1 175 50 150 150 50 1 150 40 1 125 40 135 125 100 100 30 1 m 30 30 75 75 75 75 20 50 20 56 50 10 240 25 10 240 25 0 00 0 0 00 0 HIER am MD 90211 woe eram 90317 p 1D 90411 VETO 1 vs Energy loss VETO 2 vs Energy loss VETO 3 vs E nergy loss VETO 4 vs Energy loss 80 80 80 300 300 70 70 300 70 70 250 60 2 250 60 60 250 50 208 200 50 2 200 40 199 isi 40 188 156 30 30 30 30 100 100 100 100 20 20 20 20 10 540 50 10 5 50 0 00 0 0 0 0 0 VETO 1 vs Energy loss eram MD VETO 2 Ys E nergy loss eram MD 90213 moe eram y 90312 VETO 3 vs Energy loss Hist ran ID 90412 VETO 4 vs Energy loss B 67 VETO101H 104 NEBULA NEBULA ID MeV B 12 D H
55. 40 ID MeV VETO 101 101 289401 99 1 30 3 101 102 284 0 1 281 02 101 103 28 7 0 2 28 6 0 2 102 104 285401 282 02 102 105 28 5 40 2 284 02 103 106 28 5 0 2 28 7 0 3 103 107 28 5 0 1 284 02 103 108 29 0 0 2 283 02 104 109 28 4 0 2 281 02 104 110 28 2 0 1 281 02 105 111 284102 283 02 105 112 285401 283 02 105 113 293402 28 9 0 3 106 114 285401 28 702 106 115 288401 28 90 3 101 201 283102 285 02 101 202 28 7 0 2 28 8 0 2 101 203 28 8 0 2 28 6 0 3 102 204 28 7 0 1 28 6 0 2 102 205 28 3 0 2 28 4 0 3 103 206 28 2 0 2 283 02 103 207 29 0 0 2 28 9 0 2 103 208 29 0 0 3 28 9 0 4 104 209 284 0 1 284 02 104 120 292402 29 2 0 4 105 211 28 7 0 2 28 8 0 2 105 212 29 1 0 1 291 0 2 105 213 29 1 0 2 28 8 0 3 106 214 28 7 0 1 288 0 2 106 215 28 7 0 1 28 6 0 2 VETO 5 1 ID
56. 41 60 UU UL ei HHHHHHHHHHHHHH 1200 611 HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH VETOHHHHH 10 0000000000000000000000 2HHHHHHHHHHHHHHHHHHNEBULAHHHHHHH 00 0 00000000000000000000 200000000 612 0000 00000000000000000000000000000000 2 9 00000000000 UU HHHHHHHHHHHUHH 0 61 HHHHHHHHHHHHHHHHHHHHHH 0 620000 0000 6 30000000000000000000000000000000000 0000000 00 000 110 Ilt AA 6 1 HHHHHHHHHHHH 00 8 1mm 0 4 5mm 00000000000 33cps D 0 62 HHHHHHHHHHHHHHHHH 1 Data Acquisition 42
57. Altitude km 10000 15 10 5 3 2 1 0 1000 1 2 8 1 sy 1 Vertical flux 0 1 0 01 0 200 400 600 800 1000 Atmospheric depth g cm B 1 1GeV E gt 1GeV H 41 B Appendix B 102 B2 0000000000000
58. Yin Zin YoutZout 0 lt z 20 a tan lt Nx0 Nwidth 30 side view VNdistance lt y yO Ny0 Nheight tan 0 lt VNdistance Ndepth 0 lt z 20 b tan lt Nx0 Nwidth VNdistance lt y yO Ny0 tan 0 x VNdistance Ndepth 0 2 Nwidth B 29 A B top view Tin x Tout Tin Zin Tout Zout gt FL d cos0 Nheight sin 8 sin y B 8 1 B 8 2 B 8 3 B 8 4 B 8 5 118 B Appendix B y yO Ny0 Nheight tan 0 b y y0 Ny0 tan 0 c b a Nheight tan 0 d c sing Nheight tan 0 sin A C Nwidth b B 32 A C side view B 31 A C top view Vin 0 lt z 20 a tan lt Nx0 Nwidth Zin VNdistance lt y yO Ny0 Nheight tan 0 lt VNdistance Ndepth Yout Ny0 y y0 btan 0 lt Ny0 Nheight Zout VNdistance lt Nx0 Nwidth x 20 tan y lt VNdistance Ndepth FL d cos0 Nx0 Nwidth x x0 tan y
59. 12 020 000 23 5 NEBULA SAMURAI D 0 2 6 2 7 plan view Zr Am Pit wall 100 Beamline Triplet Q a 50 Beam line NY RI beam detectors ENNA 50 S WAN NAN KN e N 100 A VSS S ae 150 AIZ 1 7 3 0 73GeV c 2 2GeV c L li 5m 0m 5m 10m 15m 2 6 SAMURAI top view 15 side view Z7 4m roof wall Beamline Triplet Q e 9 Beam line RI beam detectors 550 base Pit 5m 0m 5m 10m 15m 2 7 SAMURAI side view 15 2 4 13 24 00000000000 2 3 2109 0 62 4 mrad 15 0 5 20 70 10MeV
60. vi A 12 A 13 A 14 A 15 A 16 A 17 A 18 A 19 A 20 A 21 A 22 A 23 A 24 A 26 A 27 A 28 A 29 A 30 A 31 A 32 A 33 A 34 A 35 A 36 A 37 B 1 B 2 B 3 B 4 B 5 B 6 B 7 B 8 B 9
61. 3 cps ch5 ch6 chl ch2Gh5GCh6 S sg GE 102 1 20ns 1 103 1 20ns 1 eb ak Aaa ene 104 1 20ns 1 500mV wx 101 a 1 5ns 1 CH1 50mV CH21V 101 b 1 5ns 1 CH1 50mV CH21V 101 c 1 20ns 1 DIV VETO VETO VETO R7724 VETO A H6559 VETO H7195 VETO A top view 10cm J TJ E E eoe mt e VETO j VETO B 0 0 0 0000000 B top view VETO e aan AL LAVA e a E E VETO B side view VETO B VETO B ADC P2 ch 191650000 ADC D MeV EJ200 0 0 21 See wa ali E E AE VETO R7724 Voltage R7724 D2 NN MA R7724 vA OASIS S S pA Mead R7724 a NEBULA 000000000 0000000000000000 widthidepth TJ E Za eset A NEBULA ID ID
62. VAVRND x G115 integer i real x y kappa beta2 VAVRND CALL VAVSET kappa beta2 1 do i 1 1000 CALL mtcalc x y VAVRND x enddo
63. 5 3 3 VETO 180 5 400 D p 90 RIBF
64. VETO 1 2 51 000000 0 A 13 2 1 0 A 14 L 1500 A 16 L FAX A 12 17 A 19 2 L 0 A 20 A5 HHHHHHHH 93 H 13 00 16 5cm 0000000 0000000 00 0 0000000000000 6 0000000000 0000000000 00000000000000000000000000000000000070 5 20090 700 RIPSHHHHHHHH 405800 2000000000000000000000000000000000 HHHHHHHHHHHHHHHHHHHHHHHHRIPSHHHHHHHHHHHH NEBULAHHHHHHHHHHHHHHHHHHH HHHHHHHHHHNEBOLAHHHHHHHHHHHHHHHHHHHHHHHHHHHH 94 AH Appendix A NEBULA 17 0000000 0000000000000 000 18 000000 L 00000000000000 000000 0 20 0 HHHHHHHHHHHH 0 000060 000000000 A19 00000 000000000000000 52 VETOHHHH
65. 5 2 cos 6 5 2 26 5
66. 24 m E B J 1 2 0 0 X lt Xo 4 4 6052X Co a X1 X Xo lt X lt X B 4 3 4 6052 X Co X gt X1 X log10 89 Co a m Xi Xo 63 6 3 20 0 1610 3 24 2 49 0 1464 B 2 C 0 422375 0 03040437 4 0 000381065 9 x 10 91 3 8501905 2 0 16679895 3 0 001579559 9 x 10 913 B 4 4 n py Wise 1 2m c Wmax B 4 5 1 2s 1 7 52 s me m B 4 1 stopping power B 7 B 7 E NEW 1 2 2 20 0 20 KeV g cm 196 B 4 2 Straggling prameter B 4 1 000000000000 HHHHHHHHHHHH HHHHHHHHHHHH HHHHHHHHHHHH Minimum Ionizing Particles 00000000 3000MeVHHHHHHHHHHHHHHHHHHHHH MIP O HHHHHHHHHHHHHHHHHHHHHHHHHHHHHH HHHHHHHHHH HHHHHHHHHHHHHHHHHH HHHH HHHHHHHHHHHHHHHHHHH E
67. vs LACH ruant e A as dad 108 1GeV 00 0000 110 1GeV IMeV Els a 111 Straggling prameter Straggling prameter Pb di MY ERE 111 PMT 113 rom 114 TOMATO C L aQ ch bb bod dii obs 114 SNL LA uuu ai 114 from tou Uso ob a A E ee EO ae dad RN 115 from CO B i ttt d euch DA Le A ee eB ua tete 115 FOMO LO E A ke Lu S ee ee a ee ee eG b h S h dur pts 115 torbiere doe Rp bbb qoe Bee ee ee SS der aly 115 tron Dto 3Bs aa eee 346 BAe BER eee SS E A NAE 115 from Dito Ci a ERI EERE PA PRE Oe Sene 115 rom te Bes eed hat e hale NS de LL A hese were be le 116 from Do Errore CE Ra dee I A ee 116 Fom Eto B a Ate 2 5 116 Troni iru se e Meat o dene ox e o de dex S P 116 from Edo Werne REE Z Z Dae dito he RRR Eo ee ae 116 AS BAOD VIEW satura Ltda dele ee ee eere REESE qe YD a 117 A B sideview 04 M Xx ue 5 cte a A ote st 117 a our
68. B 5 111 4000 3500 3000 2500 2000 1500 1000 500 B 12 3000 ropero E 2500 E BR LUIS CITY i a 1500 toro bee dees 1000 A 500 BMB C 200 300 400 2 600 800 1000 Do Histogram ID Histogram ID Energy loss FL 100cm gt Energy loss 1GeV MeV x10 3500 3000 2500 2000 1500 1000 500 0 1 1 1 L L L 0 0 02 0 04 0 06 0 08 0 1 0 12 0 14 struegling parameter distribution B 13 Straggling prameter Straggling prameter Appendix B A R E Ep E most probable energy loss R B 6 Cern library B 6 1 6110 YO exp A e7 2 Cernlibrary
69. RIBF 0 20 0000000000 21 00000 Invariant mas method
70. B 2 1 B 2 2 B 2 3 42 0 Iv cos 0 B 2 1 p cos B 2 2 Iv pu p rm logy Pu e log o pu cs logio pp B 2 3 Pu GeV B 2 3 B 1 C1 C2 C3 C4 C5 0 00253 0 2455 1 288 0 2555 0 0209 B l 9 09 75 B 2 B 3 41 gt Pu dN dp cm s sr GeV c 100 1000 Pu GeV c 9 0 10 75 B 2 B 2 3 B2 0000000000000 103 0 2 Tron TTTTTITI e 0 1 ait ran Je Y tr i 0 05 Y o 4 ve o 4 o 1 T o 0 02
71. A 4 HV channel 87 ID ID ID ID mV mV mV mV U101 3683 768 D101 3953 640 U201 4213 720 D201 4124 680 U102 3923 620 D102 3954 604 U202 4226 604 D202 4234 572 U103 3966 596 D103 3995 544 U203 4170 568 D203 3910 564 U104 3993 528 D104 3970 522 U204 3335 564 D204 4210 560 U105 3951 520 D105 3948 514 U205 4021 560 D205 4099 560 U106 3251 510 D106 2217 508 U206 3943 548 D206 4211 544 U107 3959 492 D107 3929 480 U207 2252 544 D207 4019 524 U108 3817 474 D108 4012 474 U208 4025 520 D208 3832 508 U109 3675 470 D109 3961 468 U209 4014 500 D209 3703 500 U110 2608 454 D110 2715 450 U210 3221 496 D210 4044 484 U111 3992 442 D111 3952 440 U211 3869 468 D211 4098 468 U112 2770 432 D112 3998 432 U212 2869 460 D212 4093 460 U113 3903 430 D113 2729 428 U213 4146 456 D213 3772 456 U114 3380 422 D114 3916 412 U214 4001 452 D214 4163 448 U115 3676 410 D115 3411 404 U215 2229 444 D215 4551 424 U116 3643 404 D116 2616 400 U216 4206 424 D216 2290 420 U117 3917 398 D117 3927 396 U217 2847 420 D217 4274 416 U118 3360 3
72. 2500 A 14 SUHNER SHV 31 A 1 NEBULA 75 500 750 500 750 DC 4GHz DC 1GHz 50 103 50 10 2500 2500 A 15 SUHNER BNC 32 Construction Material Detail Diameter Centre conductor Copper Tin plated Strand 19 0 9 mm Dielectric PE Polyethylene 2 95 mm Outer conductor Copper Tin plated Braid 96 3 6 mm Jacket PVC Polyvinyl Chloride RAL 9005 bk 4 95 mm 0 15 Print HUBER SUHNER RG 58 C U 50 Ohm PA no Electrical Data Impedance 50 A 2 Max operating frequency 1 GHz Capacitance 100 7 pF m Velocity of signal propagation 66 Signal delay 5 03 ns m Insulation resistance Min screening effectiveness Max operating voltage Test voltage gt 1 108 MOm gt 38 dB up to 1 GHz 2 5 kVrms at sea level 5 kVrms 50 Hz 1 min Mechanical Data Weight Min bending radius repeated for max 50 bendings 3 7 kg 100 m static 25 mm 50 mm Environmental Data Temperature range Installation temperature A
73. 10 SY1527LC SY1527LC HV channel HV channel H C BA4469 BA3231 Q 10 11 RIBF HHHHHH IHHHHHH HHHHHHHHHHHHHH RARF RIKEN Accelerator Research Facility 00000000 RIBF Radio Isotope Beam Factory 1 2 4 20070 0000000 0 1 00 RIBF 00000 03000000000000 Ro SRC 000 8100000 BigRIPS 3 4 00000 HHHHHHHHHHHL HHHUHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHL 00900 100000 100MeVHHHHHHHHHHHH 50HHHHHHHHHHHRIBFHHHHH 2500 HHHHHHHHHHHHHH 100000 350MeVHHHHHHHHHHH
74. 6V 15A 12V 4A 24V 2A 6V 0 2 12V 0 1 24V 0 1 20mV 3mV p p 6V 18 12V 5A 24V 2 5A op 40 C 70 0 STATUS ON 80 C A 20 RPN 005 153 482 6 W x 221 H x 589 D 37 A 1 NEBULA 79 Logic Functions Logical AND OR Majority logic and Fan in Fan out All functions have leading edge inhibit for the updating outputs and bin gate inhibiting for both updating and overlap outputs Continuous Repetition Rate Updating Greater than 150 MHz throughput rate typically 160 MHz with output width set at minimum Overlap Greater than 300 MHz throughput rate typically 325 MHz Double Pulse Resolution Updating Less than 6 5nSec typically 6 2nSec with output width set at minimum Overlap Less than 3 3nSec typically 3 1nSec Input to Ouput Delay Updating Less than 8 5nSec Overlap Less than 5 0nSec Multiple Pulsing None One and only one output pulse regardless of input pulse amplitude or duration Power Supply Requirements 6 Volts Q 400 mA 12 Volts 165 mA 24 Volts 60 mA
75. 2 2 SAMURAI 9 2 2 SAMURAI SAMURAI Superconducting Analyzer for Multi particle from Radioactive Isotopebeam 15 16 fragment RIBF PHASE II D 2 5 RIBF SAMURAI eH e Field Integral 7Tm 1 700 rms A 100 80cm 5 0 180 0 2 4 2 1 SAMURAI 22 SAMURAI 2m 6 8m H x4 6m O x3m 3T 3 6MAT 28MJ 200t m 650t 2 1 SAMURAI 15 16 p p p p p pN d d d 2 3 47 2 2 SAMURAI 15 2009 10 2011 SAMURAI 2011 1 RIBF 0 0 0 PHASE I Y 2HHHHHHHHPHASE IHHHHHHHIRCH IRCH SRCHHHHHHHH BigRIPS ZeroDegree 0 2000000000000000000000 00000 SHARAQ 00000 0 SAMURAI SCRIT Rare SLOWRIQG 00000000 2100000000000000000 10 020 0000000000000 u uil HHHHHHHHHHHHHHSAMURATHHHHHHHHHHHHHHHHHHHH UUL uui 000 000 00 00 NEBULA NEutron detection system for Breakup of Unstable Nuclei with Large Acceptance J
76. CAEN CAEN CAEN CAEN CAEN CAEN CAEN GE Fanuc Intelligent Platforms Technoland Technoland Phillips Scientific V792AC V775AC V895 VME8100 03 SY1527LC A1532 A1932N SHV24 24chRadial52 618 3 N RS413 N TM605 RIS 0780 RIS 0300 16ch 500ns RG174 U Cable Delay with Attenuatur BOX 16ch 500ns VME ECL DELAY 80ch BNC QLA EIA 5U RPN 005 153 REPIC RPN 330 Quad Majority Model 756 RPV 130 A 4 NEBULA 14 14 26 N A A 0 68 A Appendix A NEBULA BNC BNC HUBER SUHNER RG58C U 8M 672 BNC BNC HUBER SUHNER RG58C U 6M 336 SHV SHV HUBER SUHNER RG59B U 10M 336 17 16 lemo HUBER SUHNER RG174 U 16 24 QLA QLA HUBER SUHNER RG174 U 1M 336 optical cable
77. multi neutron coincidence events 2 3 DU 5 HHUHHHHHHHH 3 1 NEBULA LH 1 DU l 15
78. 99 A6 100000000000 4s LHHHH 10000000000000000 3 20000 1000000000000000 00000000 00 00000000 00 A 62 00000000 BUUUG 00000000 0 A 36 H 0 HUNE 37 00000000000 0000000000 0000 PMTHHHHHHHHHHHHHHHHHHHH 0 370 100 A Appendix A NEBULA 101 Appendix B Cosmic ray B 1
79. A12 000000 R7724 64 0 9 ns 2 1 ns WHM 2 5 ns 210 cm 425 nm H 5 23 x 10 em3 C 4 74 x 1022 cm3 C H 1 1 104 3 37 x 1029 cm3 1 032 g cc 1 58 67 C 7 8 x 107 60901 20 C 95 20 C 60 C A 1 BC408 21 62 A Appendi A NEBULA BC 408 100 90 80 5 70 O 60 5 50 2 40 5 30 0 20 10 360 380 400 420 440 460 480 500 520 Wavelength nm Premium Plastic Scintillators Range of Atomic Parlicles in Response to At
80. 25 1986 2000 1966 JASS5 32 1957 1957 1964 1961 A Homes I 3 1984 26 1973 1962 Overview of the RIBF Project TAC 05 2005 159
81. 000 000 00 00 15 HHHHHHHHHHH 0 16 00000000 Be 000 BeHHHH 10 1 7 00000000 000 BeHHHH 2 HHHHHHHHHHHHHHH HHHHHHHHHHHHHHH HHHHHHHHHH2008HHHHHHHHH RIBEHHHH iN hg 00000000000 00000060 000000 NeHHHHHHHHHHHHHH 540 70DmbHHHHHHHHHHHHHHHHHHHHHHHH 0000000000000000 3 0000000000000000000 890 0000000000000 0000000 199600000 000000 000000 0000000 81 5 10 000000 3 0000000 HHH 4000000 0000000000 230000 5 count dayHHHH 8182000000000 5 eount sec 00000000 p 10 00000000000000000 000000000 3 0000 CHHHHHHHHHHHHHHHHHHHHHHH 9000000000 RIBFHHHHHHH 345MeVH U0 000000000 Pag PdHHHHHHHHH H21HH 00 4 Day One Campaign RIBFHHHHHHHHHHHHHHHH HHH 5 RIPS RIKEN Projectile Fragment Separator 00000 80 AMeVH 9710000 18 0000000000000
82. 0000000 10 000 21 00 000000 E678 21C 0000000 30 50 C 0000 80 0 50 C HHHHH HH HHHHH 2000 V HHHH 500 V HHHHHH HHHHHH 0 2 mA HHH 1750 V O R7724 0 0 22 A 1 NEBULA 65 Min Typ Max 2856K 60 uA Im 90 uA 420nm 26 96 000 CS 5 58H 10 5 85 mA W 00 2856K 30 A lm 300 A lm 2 8 x 10 A W 3 30 x 10 30 6 nA 40 nA Tr 2 1 ns 29 T T S 1 2 ns 000 000 2 00 60 mA 5 90 mA A 3 R7724 25 20122 52 1 FACEPLATE PHOTO CATHODE 112 12 21 PIN BASE 5 A 5 R77240 000 HH 22 6
83. 24 A22 0000000000 25 wdith depth A 10 2 3 VETOGOO VETO A 26 VETO A 27 0000000 6 1 3 346002 VETO 10 94 840 40 Matta 84 84 A 28 A 29 A 30 A 31 ID A 11 NEBULAH 1 VETO ID 38 ID ID A 3 ID 83 ID width mm depth mm top middle bottom top middle bottom 101 120 3 120 9 120 5 120 6 116 5 117 7 117 2 117 1 102 120 7 120 6 120 6 120 6 1182 118 2 117 6 118 0 103 120 5 120 7 120 7 120 6 1184 119 7 118 7 118 9 104 120 6 120 7 120 7 120 7 118 0 118 2 117 7 118 0 105 120 6 120 6 120 6 120 6 118 3 118 8 118 0 118 4 106 120 7 120 5 120 5 120 6 117 0 116 8 116 8 116 9 107 1186 119 2 118 6 118 8 1202 1203 120 2 120 2 108 120 7 120 7 120 7 120 7 118 7 1187 118 5 118 6 109 120 7 120 7 120 8 120 7 116 7 117 2 116 5 116 8 110 120 5 120 6 120 5 120 5 121 0 121 0 121 0 121 0 111 120 9 1207 120 6 120 7 1188 118 117 8 118 3 112 1183 118 0 118 0 118 1 120 5 120 1 120 4 120 3 113 120 5 120 5 120 5 120 5 119 0 118 8 118 8 118 9 114 120 5 120 6 120
84. 30 VETO NEBULA 59 NEBU LA NEBULA SAMU RAI 61 Appendix A NEBULA NEBULAHHHHHHHH NEBULA A11 000000000000 BC 408 10 BC408 1 1 21
85. 4 3 23 neutron counter VETO top view cosmic ray beam side view beam 0 50 25
86. B 57 VETO neutron counter cosmic ray B 57 RIBF RIBF z Y 2 9 CT 9 0 B 58 2 Torigin B 10 1 Vorigin B 10 2 2 z B 10 3 6 0 10 4 10 5 neutron counter VETO cosmic ray B 58 RIBF origin Vorigin z Y origin Yorigin NEBULA RIBF
87. 3 1 3 2 3 3 NEBULA ID 4 1 4 2 4 3 5 1 5 2 5 3 5 4 5 9 5 6 6 1 6 2 6 3 6 4 6 5 VETO NEBULA 12 13 15 15 20 20 21 21 21 21 25 25 25 28 30 32 35 Appendix A NEBULA A 2 A 3 A 4 A 5 A 6 Appendix B B 1 B 2 B 3 B 4 B 5 B 6 B 7 B 8 B 9 B 10 B 11 B 12 Appendix C C 1 C 2 C 3 C 4 NEBULA Cosmic TAY sign de E e RS Random number generator
88. 26 35 37 38 39 6 9 6 10 6 11 6 12 6 13 6 14 6 15 6 16 6 17 6 18 6 19 6 20 6 21 6 22 6 23 6 24 A 2 A 3 A 4 A 5 A 6 A 8 A 9 A 10 A 11
89. EBUL RIBF Day two campaign BigRIPS ZDS DAQ Linux NEBULA Matta Tuff from University of York NEBULA VETO
90. NEBULA VETO VETO B
91. 7 VETO 5 12 0 5 1 5 13 5 13 00000 5 5HHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH 000000000000000000000000000000000000000000000000000000000000000 HHHHHHHHHHHHHHHHHHHHHHH
92. 25 30 Straggling prameter B 4 6
93. 0 1 800 00000000000 0 000 U 1 8 0 0 1 8 b y HHHHH 00000 00000 00000000000 Dun 00000 0 O D 1 8 c 000 0 000 0 D 000000 HHH 1000000 0 000000 0 0000 0 0 000 12 0000000000 3 gt 1 dm 113 278 04 7 23 18 55 RI RI RI RI eom y 013000 b 0000000000000000000000 RIBF OOOO 00000 U 2 00000000 Me rH 000 000
94. G110 48 RANLAN x B 5 1 B 4 16 integer i real x y RA do i 1 1000 enddo NLAN CALL mtcalc x y RANLAN x Makefile 1ma thlib RANLAN x 0 1 real mtcalc x 0 1 B 6 2 Vavilov O G115 G116 Cernlibrary x rand lt 0 01 Vavilov G115 49 G116 50 G116 G116
95. 29 7000 6000 5000 4000 3000 2000 1000 3000 2500 2000 1500 1000 500 e FTTT TTTT TT TT TT TOM TUT 20 40 60 80 100 120 140 160 180 P Histogram 2 azimuthal angle distribution FTTTTTTTTTTTTTTTTTTTTTTTTTT 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 Eee 20 40 60 80 100 120 140 160 180 HistogramID 32 azimuthal angle distribution 5 4 U VETO VETO 0 0 180 VETO 0 5 4HH 0
96. 58 18000 16000 14000 12000 10000 8000 6000 4000 2000 20 40 60 80 ADC spectrum Neut cal 100 120 HistegamlID 135 6 24 ADC MeV e 2MeV e 32MeV QU HHHUHHHHHHH RIBF
97. Delay Delay amp HV HV 5 1527 Delay amp Delay amp Delay amp Delay amp Delay amp Delay amp Delay amp Del Delay amp en elayi elay elayi elay elayi elay elayi elay elayi 0 3 7 NEBULAHHHHHHH 5000000000 TT TTT CT O OO ODO 000 030 00000000000 3 2 2000 2000000000000 Neutron Counter VETO 3 3 380 NEBULAQ IDHHHHHHHHHHHHHHHHHHH VETOHHHHH IDHHHHHHHHHHH 3 8 NEBULAQ ID 000 IDHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH 00800 00 00000000000000000 1000000000000000 60000000000000 300000000000 100000000 VETOHHHH 1220000000000 10000000000 0000000000000000000000000000000 00000000000 BNCHHHHHHHHHHHHHHHH 40 21
98. for SBS620 Model 15 103 5m A 5 NEBULA A 1 NEBULA 69 Packaging 1 unit wide 6U VME module version AA requires the V430 backplane Inputs 32 channels 50 Ohm impedance negative polarity DC coupling Input range 0 400 pC if Sliding Scale is used FSR is reduced from 4095 to 3840 counts Resolution 12 bit Gain 100 fC count Max tolerated 15 mV positive voltage input Reflections 596 with 2 ns fall time input signals Input offset 2 mV RMS Noise 0 5 counts typical Integral non linearity 0 196 of FSR 23840 counts from 596 to 9596 of FSR Interchannel gain uniformity 4 Interchannel Isolation gt 60 dB Power rejection 0 002 count mV 5V 0 01 count mV 5V 0 0046 count mV 12V 0 0012 count mV 12V Fast clear time 600 ns Gate timing the Gate signal must precede the analog input by gt 15 ns Conversion time 5 7 us for all channels Zero suppression Treshold values programmable in 16 ADC counts steps over the entire FSR 2 ADC counts steps over 1 8 of FSR GATE COM input NIM signal high impedance temporal window for current integration Control inputs active high differential ECL input signals GATE temporal window for current integration R
99. 200ns 3APIN 10ns 2 1 8 2 9 16 gt 1 16 00 250 2 NIM 2 NIM 2 NIM Multi E 4mA 1Coincidence 50 Q SUM 1 50 0 6V 0 3A 6V 2 3A 12V 5mA 12V 25mA NIM 1 A 12 N RS 413 29 2 1 500 NIM 5ns 100 MHz 5ns 1 NIM 20 40 NIM 32mA 6V 50mA 6V 1 13A NIM 1 A 13 N TM 605 30 50 0 DC 300 Hz gt 105MO
100. Polarity Output Voltage 0 3 5 kV Max Output Current 3 mA Voltage Set Monitor Resolution 500 mV Current Set Monitor Resolution 500 nA VMAX hardware 0 3 5 kV common for all the board channels VMAX hardware accuracy 2 of FSR VMAX software 0 3 5 kV settable for each channel VMAX software resolution 1V 1 500 Volt sec 1 Volt sec step Ramp Up Down Voltage Ripple 20 mV typical max 30mV Voltage Monitor vs Output Voltage Accuracy typical 0 396 0 5 V max 0 3 2 V I Voltage Set vs Voltage Monitor Accuracy typical 0 396 0 5 V max 0 3 2 V I Current Monitor vs Output Current Accuracy typical 2 1 uA max 2 5 pA Current Set vs Current Monitor Accuracy typical 3 1 uA max 3 5 uA Maximum output power 8 W per channel software safety limit 310 W Q full power Power consumption A 11 A1535SN 28 74 A Appendix A NEBULA 16 1100 ECL 160
101. 6 5 55 16ch SCALER Visual SCALER ch1 0 ch2 1 ch3 2 ch4 3 Coincidence A ch1 ch2 4 1 Coincidence ch3 ch4 5 2 Coincidence C ch1 ch2 ch3 ch4 6 3 Coincidence D ch1 ch2 ch3 ch4 7 G G Delay THRU Width 100ns 8 G G Delay THRU Width LASTCH 9 6 7 SCALER INPUT 653 ADC VETO B ADC 6 5 4 ADC 5 200ch 6 5 4 0000 6 8 VETO A VETO B count cps count cps VETO 161025615 518 154498 1 8 85032992 273 25042086 296 VETO 1454779 4 7 6950 0 082 S 311041 84665 hour 86 4 23 5 6 8 00000000 400
102. 7 In beam y spectroscopy y 3 1 RARF RIPS 14 90 8C 1 C 180 1 180 misc Esc Pal En M M Bsc En Pn 2 1 1 M Evel Ere misc a ma 2 1 2 190 Sa Sn masc Mn masc 2 1 3 Sn Ex Ex Ex Fret Sn 2 1 4 Es E a 0 88 1 MeV E 1 46 10 MeV 020 0000000000000 2 1 0000000 0000000 mb MeV do d mb MeV Counts 120 keV Relative energy MeV 022 0000000000000 04 00000000000
103. Energy loss couette A eee dei Dai delle Ba et ed Cern library attenuation lengths adidas re k k a Re ee Ta Flight length lt 2 i a A ee EOS p puya ILLE VETO 59 61 61 81 82 85 92 98 101 101 102 104 104 110 112 113 114 131 132 143 143 149 149 152 152 152 155 000 1 1 1 2 1 3 1 4 1 5 1 6 1 7 1 8 2 1 2 2 2 3 2 4 2 5 2 6 2 7 3 1 3 2 3 3 3 4 3 5 3 6 3 7 3 8 4 1
104. 40 C 85 C 20 C 60 C 16 RG 58 C U 33 76 A Appendix A NEBULA Construction Material Detail Diameter Centre conductor Steel Copper plated Wire 0 58 mm Dielectric PE Polyethylene 3 64 mm Braid 93 96 4 5 mm Outer conductor Copper Tin plated PVC II non migration 9005 bk 6 1 mm 0 15 Jacket Print HUBER SUHNER RG 59 B U 75 Ohm PA no Electrical Data Impedance 75 1 5 Max operating frequency 3 GHz Capacitance 67 6 pF m Velocity of signal propagation 6676 5 07 ns m Signal delay Insulation resistance Min screening effectiveness Max operating voltage Test voltage gt 1 108 MOm gt 40 dB up to 3 GHz 3 kVrms at sea level 6 kVrms 50 Hz 1 min Mechanical Data Weight Min bending radius 5 kg 100 m static 35 mm repeated for max 50 bendings 60 mm Environmental Data Temperature range Installation temperature 40 C 85 C 20 C 60 C AT RG 59 34 77 A 1 NEBULA Construction Material Detail Diameter Centre conductor Steel Copper plated Strand 07 0 48 mm Dielectric PE Polyethylene 1 48 mm Braid 87 96 2 mm Outer conductor Copper Tin plated PVC Polyvinyl Chloride RAL 9005 bk 2 55 mm 0 1 Jacket Print HUBER SUHNER RG 174 U
105. B Appendix B L Y bottom Lo exp 3
106. W R Leo Techniques for Nuclear and Particle Physics Experiments Springer 1994 H Bichsel Straggling in thin silicon detectors Reviews of Modern Physics 60 663 1988 L Landau J Physics USSR 8 201 1944 P V Vavilov Ionaiztion Losses of High Energy Heavy Particles Sov Phys JETP 5 749 1957 K S Kolbig G110 Landau Distribution http wwwasdoc web cern ch wwwasdoc shortwrupsdir g110 top htm1 A Rotondi et al 7 G115 Approximate Vavilov Distribution and its Inverse http dollywood itp tuwien ac at cernlib shortwrupsdir g115 top html A Rotondi et G116 Vavilov Density and Distribution Functions http wwwasdoc web cern ch wwwasdoc shortwrupsdir gi16 top html
107. 65000000000000000 200 180 160 140 120 100 80 60 40 20 0 0 50 100 150 200 250 300 350 400 Histogram ID 28 position distribution 0 50 100 150 200 250 300 350 400 Histogram 38 position distribution B 65 00 0 0 000000 00 000000 zlemlHH HHHHH 0 ylem B 122 H 66 000 VETO101HHHHHHHHHHHHHHHH B 66HHHHHHH VETO 12000000000 HHHHHHHHHHHHHHHHHHHHHH VETOHHHHHHHHHHHHHHHHHHHHHHHHHHH HHHHHHHHHHHH 3 7mHHH NEBULAHHHHHHH B 66HHHHHHHHHHHHHHHHHHHH HHH VETOHHHHHHHHHHHHHHH HHHH VETOHHHHHHHHHHHHHHHHHHHHHHHHHH B 12 HH HH 145 6000 5000 4000 3000 2000 1000 deeds cepe eg ee LESE porri 2 4 6 8 10 12 14 16 18 20 Histogram ID 60130 VETO 1 vs Energy loss 4500 4000 3500 3000 2500 2000 1500 1000 500 0 2 4 6 8 10 12 Histogram ID 69910 VETO vs Energy loss B 66 VETO VETO101 PMT PMT MeV
108. Co a LJ Ez 000000000 106 B Appendix B The stopping power dE dx 102 T T T T E NEW Bethe Bloch 10 S J 10 n 1 107 ur 109 10 103 104 105 105 Energy Me B 7 B 4 1 E NEW 2 0 B 8 Most probable energy loss Mean energy loss Mean energy loss Bethe Bloch Relative probability Straggling prameter amp B 4 6 0 12 Energy loss distribution 0 1 0 08 0 06 0 04 0 02 Most probable energy loss Mean energy loss 10 15 20 Energy loss B 8
109. HHHHHHHHHH 00000000 0 423000000000 VETOHHHHHHHHHHHH 0 24 VETOHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH 0000000 0 4 250 0 0000 VETOHHHHHHH VETOHHHHHHHHHHHHHH 2HHHHHHHHHHHVETOHHHHHHHHHH 0000000000 0 250 0 0 0000000000000000000000000 gra 0000000000 0 22 00 0000 HHHHHHHH HHH 26 2 OOOO VETOHHHHHHHHHHHHHHHHH 28 2900000000000000000000 A5 HHHHHHHH 95 A22 HHHHH 1 0000 VETOHHHH VETOHHHHHHHHHHHHHHHH 2 HHHH HHHHHHHHHHHHHHHHHHHHHHHHHH 000 20000000000 2 0000000000 La 5 RAR HHHHHHHHHHHHHHUHHHHUHHHHHH 00000000000000000 WAR A21 VET
110. ggg0000000000000000000 L 1 Wahid a 3 L 1 PCT TIPP PMT Cad ET ETE D Et E ccs re e e Ceu et dom E SPP A 1GeV gt 1 Vo eis ANN NO 0 0 ta td oet et et nit S 41 0 0 A Iu utat aes randpooo0000000000 000000000 Mersenne twister OODODODODO B 4 1 E_NEW 2 KE XT EE ss ee RASS eee EN cm vs OEC B 10 B 11 B 12 B 13 B 14 B 15 B 16 B 17 B 18 B 19 B 20 B 21 B 22 B 23 B 24 B 25 B 26 B 27 B 28 B 29 B 30 B 31 B 32 B 33 B 34 B 35 B 36 B 37 B 38 B 39 B 40 B 41 B 42 B 43 B 44 B 45 B 46 B 47 B 48 B 49 B 50
111. A 30 A 31 VETO l 00 98 AH Appendix A NEBULA A6 100000000000 HHHHHH1IHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH 0020000000000000000000000 6 1 00 0 000000000 000000000000000000000000 U 32 0 QUO H 32 po 0000000000000000000 0 33 000 60000 0000000000000 HHHHHHHHHHHHHHHHHHHHHHH 12cm 00000000000000 DOOM HHHHHHHHHHHH 00000000000000000 0 33 0 gt 123m00000 00 0 4240 210800000000 000 00000000000 00000000000 0000000000000 LHHHHHHHHHHHHHHH HHHHUHHHHHHHHHHHUHHHUHHHUHH
112. Oo E E Lm r3 lt DI DI ogo Es DI 1 4 N Du ES tg DI DI lt L3 Z ED gt 3 Sr O Poor E DI 5 1S Eg E e 1 st IAEA 643 0000 Cl 1219 1 8 nm p TE r3 roo 1 I ooo DI oo pj rj L DI ol DI em L 1 o y EXC E L3 4 n Ow ES LI e pedum op z D e LM 1 E 4d 4 20ns 1 103070 6 11 20 50
113. B 7 3 L u GM w top x L Y bottom _ kc NP ES B 7 4 y B O00000 Flight length D 4 3 FL 2 y 2 0 FL 81 00000000 VETO VETO NEBULA VETO B 15 from A to B B 16 from A to C B 17 from A to E B 8 Flight length B 18 fron A to F B 21 fron C to F B 19 from C to B B 22 from D to B B 20 from C to E B 23 from D to C Appendix B B 24 from D to E B 25 from D to F B 26 from E to B B 27 from E to C B 28 from E to F B 8 Flight length B82 00000000000
114. _ y 5 0 01 o Ee S Eis o d lt 0 005 4 ha o 4 N he 4 Cal 0 002 L LLLLLI L LLLLLI L LLLLLI 1 10 100 1000 Py GeV o B3 HHHHHHHHHHHHHHHHHHHHH 41 0 8 0 0 9 75 Spectrum of muons 10 0 003 4 10 0 0025 RE 0 002 0 0015 10 0 001 10 0 0005 10 12 1014 1 4 zenith angle rad Wh 0 10 10 0 10 Energy GeV 4 000000000000 104 BO AppedxB HHHHHHHH JJ Random number generator HHHHHHLH 000 HHHHHHHHHHHHH forran rand 0 D 2147483648 HHHHHHHHHHHHHHHHHHHHHHHH 8 50 0 00 00000000000 000000 Mersenne twister 43 6 HH 0000000 219987 10 5 rand 6 10 8 9 Histogram ID B 5 randHHHHHHHHHHHHH 0000 000 B 4 Energy loss B 4 1 Bethe Bloch fomula 00 20000 15000 10000 3 6 Mersenne twister 4 3 7 10 8 9 Histogram ID B 6 Mersenne tw
115. 5 4000 41 2000 5 000 A 1 5HHH 31 NEBULAHHHHH 17 bM g sa TA gt O 3 1 NEBULAHHH 1HHHHH HHHHHHHH 3 2 NEBULAHHH 100000 VETOHHH HUUHHUHHUHHHUHUHUUHUUHUHUHHHUHH 0000000 3 3 NEBULA VETOHHHHHHHHHHHH 18 030 00000000000 320 ee 120 i gt 50 a az 1 a d dec 5 E E of I gt 4 5 is y 8 p 3 4 0 00000000 100000 0 VETOHHHHH 100000 17 H 3 5 0000000000 HH HHHHHHHHHHHHHHH 00 0000000000000 00000 31 NEBULAHHHHH 19 4200 600 540 036 NEBULAHHHHHHHHHH 00000000 VETOHHHHHHHHHHHHHHHHHHHHHH HHVETOHHHH 000 0000000000 00000
116. http www caen it getattach php mod V895 amp obj mn amp id 2208 Costruzioni Apparecchiature Elettroniche Nucleari Electronic Instrumentation Technical Information Manual MOD VMES100 21 March 2008 Revision n 1 http www caen it getattach php mod VME8100 amp obj mn amp id 2052 Costruzioni Apparecchiature Elettroniche Nucleari Electronic Instrumentation Technical Information Manual MOD SY 1527 20 March 2008 Revision n 15 http www caen it getattach php mod SY1527LC amp obj mn amp id 1954 Costruzioni Apparecchiature Elettroniche Nucleari Electronic Instrumentation Technical Information Manual MOD SY 1527 14 January 2010 Revision n 3 http www caen it getattach php mod A1535S amp obj mn amp id 2365 Technoland N RS 413 V2 16CH 2 Fold Coincidence http www tcnland co jp nim nrs413v2 htm Technoland 605 2CH 20 OUT Fanout http www tcnland co jp nim ntm605 htm http www repic co jp contents products huber seihin conecta shv html http www repic co jp contents products huber seihin conecta bnc html HUBER SUHNER HUBER SUHNER DATA SHEET Coaxial Cable RG_58_C U 7 http www repic co jp contents products huber seihin rf pdf rg58cu pdf HUBER SUHNER HUBER SUHNER DATA SHEET Coaxial Cable RG 59 B U http www repic co jp contents products huber seihin rf pdf rg59bu pdf HUBER SUHNER HUBER SUHNER DATA SHEET Coaxial Cable R
117. 6 Volts 250 mA 12 Volts 0 mA 24 Volts 35 mA 115 VAC 60 mA Note All currents are within NIM specification limits permitting a full powered bin to be operated without overloading Operating Temperature 0 oC to 70 oC ambient Packaging Standard single width NIM module in accordance with TID 20893 and Section ND 524 Quality Control Standard 36 hour cycled burn in with switched power cycles A 21 Quad Majority Logic Unit NIM MODEL 756 38 A Appendix A NEBULA 80 VME bus A16 SYSTEM BUS DATA INPUT IN 1 8 Negative NIM50 Q FAST INPUT FAST IN 1 2 Negative NIM 500 BUSY OUTPUT BUSY1 3 Negative NIM 50 Q BUSY 1 FAST IN 1 INTERRUPT SIG LED BUSY 2 FAST IN 2 INTERRUPT SIG LED INPUT LED BUSY IN 1 8 DATA OUTPUT OUTPUT REGISTER 1 8 7 Negative NIM 50 Q IN 1 8 SETUP 14 3nS SETUP TIME FAST IN 1 2 SETUP 2 7nS INTERRUPT THROUGH TIME 5 7nS DATA OUT TIME 19 0nS SIZE VMEHH 233 4 W x 160 D POWER SU
118. 64 641 DO Ep al m p 1 n 1 oog o jd pos a Ep jd oco 1 O m DI E i gt aisyah i Es m DI m Soo 1 a Em NT i pong n E Han DI gt o H a DI y E 2010 52 ceo mus n So g i am OVS 3 el E El 205 A Fos DI El O L3 ps r3 A 1 ES qa Ou
119. VETO VETO ID MeV 146 B Appendix B 123 HHHHHHHHHH
120. 2009 00000000000 0 00000000 00000 000 0000 06 10773 00 00 0000 2010 03 26 RIBF Radio Isotope Beam Factory 2007 RIBF NEBULA 1 1 152 2 1 2 2 2 3 2 4 SAMURA REN Rede BOR aE EEE d SAMURAL OSH E eR TENN de
121. COA gt lt ce 2 57a S7a H B 60 000000 RIBFHHHHHHH BD sideview HHHHHHHHHHHHHHHHHHHHHHHH B 10 0000000 00000 137 BW150a 13200 10800 13200 13200 8500 13200 72100 B 61 00 RIBEHHH B9 sideview 138 B Appendix B 102 HHHHHH
122. gt FL g 0 VNdistance Ndepth Nx0 x 20 tan sin cos 0 B 8 42 Nx0 z 20 tan b VNdistance 4 Ndepth c b a VNdistance Ndepth Nx0 x x0 tany B 8 43 VNdistance Ndepth Nx0 x x0 tan o sin o D B VNdistance Des Ndepth Nwidth y y B 43 D B top view rt erre B 44 D B side view Tin Nx0 lt x x0 VNdistance tan p lt Nx0 Nwidth B 8 44 Yin Ny0 lt y y0 VNdistance tan 9 lt Ny0 Nheight B 8 45 B 8 Flight length 125 Tout 0 lt z 20 b tan lt Nx0 Nwidth B 8 46 Zout VNdistance lt y yO Ny0 tan 0 x VNdistance Ndepth B 8 47 gt FL d cos0 y y0 Ny0 tan 0 VNdistance sin p cos 0 B 8 48 a VNdistance b y y0 Ny0 tan 0 c b a y y0 Ny0 tan 0 VNdistance B 8 49 d c sing y y0 Ny0 tan 0 VNdistance sin o D C VNdistance Nwidth gt Ndepth y B 45 D C top view B 46 D C side view Tin 0 lt x x0 VNdistance tan lt Nx0 Nwidth B 8 50 126 B Appendix B Yout Zout Yout Zout Ny0 y y0 VNdistancetan 0 lt Ny0 Nheight Ny0 lt y y0 btan 0
123. utr a O he RR eth 2 118 ASC side VIEW A BA Bit terme uu www dem IER Ss ifa eot rs 118 A Eitop view xo eae Z Z A eee oe ee eee ee beter DL 119 O View acu q L Qk Dee RN 119 AESOP RA neo Uu SR eee DD A uos e 120 A E side VIEW ee 120 CAB top View DE 121 C B side view 121 CE top View ie E a aye ys 122 CE side View fs xm GS Eme etti 122 C P top view sit OS e si ede eee 128 CAE SIAE VIEW x 2 ai Ro m E e Be E e BO AA E E 128 D BetOp view na uu Be te a a Bs ee a ad Ee ee 124 I2 Beside views oho nente Qu loud Ao a uo Y REC PUN amu gee 2 A 124 D G Op VIEW ex IS 125 D C side view a Leh eee 125 DEE TOD VIEW MG e o de eder eod dedi di e AS 127 D B side Views 127 DP top view 264 4 22 we eoim P amp ba bog RE e ded ho EH S dud 127 DF sideview or BESS EEG e 127 viii B 51 B 52 B 53
124. y y0 Ny0 Nheight tan 0 sin y cos 0 B 8 6 B 8 7 B 8 8 B 8 9 B 8 10 B 8 11 B 8 Flight length 119 y 0 Ny0 Nheight tan 0 b Nx0 Nwidth x z0 tan c b a Nx0 Nwidth x 20 tan p y yO Ny0 Nheight tan 0 B 8 12 d c sing Nx0 Nwidth x z0 tan p y y0 Ny0 Nheight tan 0 sin A E Nwidth Aci top view B 34 A E side view Tin 0 lt z 20 a tan y lt Nx0 Nwidth B 8 13 Zin VNdistance y yO Ny0 Nheight tan 0 lt VNdistance Ndepth B 8 14 Yout Ny0 y y0 btan 0 lt Ny0 Nheight B 8 15 Zout VNdistance lt Nx0 x z0 tan o lt VNdistance Ndepth B 8 16 gt FL d cos0 Nx0 2 x0 tan y 0 Ny0 Nheight tan 0 sin p cos 0 B 8 17 120 B Appendix B a y y0 Ny0 Nheight tan 0 b 0 z 20 tan p c b a Nx0 z 20 tan y y y0 Ny0 Nheight tan 0 B 8 18 c sing Nx0 x 20 tanq y yO Ny0 Nheight tan 0 sin A F VNdistance Nwidth Ndepth Ndepth y z0 VNdis
125. 2 ADC counts steps over 1 8 of FSR GATE COMMON input Two LEMO 00 bridged connectors NIM signal high impedance Common Start Stop signal Control inputs active high differential ECL input signals RST resets PEAK sections MEB status and control registers VETO inhibits the conversion of the peaks FCLR FAST CLEAR of TAC sections COM Common Start Stop signal Control outputs differential ECL output signals DRDY indicates the presence of data BUSY board full resetting converting or in MEMORY TEST mode VME interface A24 A32 Geographical Addressing Multicast commands D16 D32 BLT21 MBLT64 CBLT32 CBLT64 V775AC 24 A 1 NEBULA 71 Packaging GU high 1U wide VME unit Inputs Channels 16 inputs negative polarity DC coupling Inputs impedance 50 Ohm Threshold range 1 mV to 255 mV 1 mV step Max input frequency 140 MHz Updating mode 80 MHz Non Updating mode Max input voltage 5 V Reflections 496 for input pulses of 2 ns rise time Double Pulse Resolution 7 ns Updating mode 12 ns Non Updating mode Test Input NIM signal high impedance Min FWHM 5 nsMax frequency 60 MHz Veto Input NIM signal high impedance Min FWHM 15 ns Outputs 16 ECL outputs with a fan out of two Output width 5 ns to 40 ns Output Rise Fall
126. 20 4 2 4 3 44 5 1 5 2 5 3 5 4 5 5 5 6 5 7 5 8 5 9 5 10 5 11 5 12 5 13 6 1 6 2 6 3 6 4 6 5 6 6 6 7 6 8
127. su001 INO 8 001 1005 8106 YIPIM gt 106 PIM SU0G suog So eue suog I TIPU AUOE 1083141 LIOSI T 19 919 dao 8408 HTDLAA 193311 9 Typ 9p LNd SUI LINA LINd ZW LINd TU LINd 6 3 VETO 45 PMT ch2 PMT ch5 PMT ch6 PMT ch1 6 6 VETO ch1 3 11 5cm VETO ch2 4 6 7 VETO 634 00000000000 PMT ch5 6 ch1 2 5 6 800V 1700V 50V cps 0 SCALER 4 800V 900V ch1 2 y 122 cm 6 9
128. 0 0 001 102 1 1 1 1 1 Z N 1 CD Z L1 DI O 1 DI O gt a DI im E i O 1 oO N CD 1 O B Gus Z cT jp 1 Si gt em 8 1 5 1 1 El 1 1 1 49 64 NEBULAHHHHHHHH A 2048 CHI DC TABON 1 CH2 0 955 ub 6 12 000000 104000 00 100 20ssn D D 100 500mV 0 6 13 000 101 100 5ns 100 CH1 50mV CH2 1V Web12 21 5 20ms CHI DC 32 50mV Feb12 22 16 ci fi LEA d 2 HOLDOPF 4 HO 0 0 OFFSET 2 CH1 14 00mV CH2 1 650mV f 410 126 Hz
129. 1 T i n a k 4 1 x B 4 Energy loss 109 lt 0 01 Cern library 4 B 4 5 Vavilov Vavilov distribution K Vavilov 47 Vavilov 2 1 As 2 PP L f s n 8 ds B 4 17 TI 2 2 2 8 8 8 f s 8 B exp s in in B 4 18 EG f ta ehe B 4 19 0 1 8 9 B 4 20 Vavilov von Pa 4
130. 123 223 279 8 124 224 292 125 225 304 2 126 226 316 4 127 227 328 6 128 228 340 8 129 229 353 130 230 365 2 VETO 112 349 2 B 9 A 2 12 0000000000000 121 B 65 VETO B 65 VETO VETO 2m x 40 70 100 1 VETO 1 x 40 70 100 VETO A 26 VETO VETO 2 144 D BO AppendixB VETOHHHHHHHHHHHHHHHHHHHHB 65HHHH VETOHHHHHHHHHHHHHHHHH HHHHHHHHHHHHHHHHHHHHHHHHHHUUHHHHUUHHHHUHUHHHHHUHHHHHHHHHHL HHHVETOHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH HHHHUHHHHUHHHHHHHHHHL
131. 413 e NN 74 N TM 605 BO pa bae a aio POTERE 74 SUHNER SHV MMC 74 SUHNER BNC 75 A 16 A 17 A 18 A 19 A 20 A 21 A 22 A 23 A 24 A 25 A 26 A 27 A 28 A 29 30 A 31 A 32 A 33 B 1 B 2 B 3 B 4 B 5 B 6 B 7 B 8 B 9 C 1 C 2 C 3 RG 58 C U RG 59 B U RG_174_ U 35 16ch 500ns VME ECL DELAY PRV 90 RPN 005 153 37 Quad Majority L RPV 130 ogic Unit NIM MODEL 756 width VETO VETO
132. 5 120 5 1180 117 1 117 0 117 4 115 120 5 120 4 120 8 120 6 118 1 117 7 117 8 117 9 116 120 9 1213 121 5 121 2 120 9 121 1 121 1 121 0 117 120 5 1207 120 5 120 6 117 7 117 7 117 3 117 6 118 120 5 1207 120 8 120 7 1199 118 4 118 8 119 0 119 120 5 120 7 120 7 120 6 118 5 119 1 118 3 118 6 120 120 6 120 5 120 5 120 5 1191 118 8 118 1 118 7 121 120 5 120 5 120 6 120 5 118 0 1177 118 2 118 0 122 120 8 120 4 120 7 120 6 118 3 118 6 118 5 118 6 123 1186 119 2 118 6 118 8 120 4 120 4 120 4 120 4 124 120 7 120 8 121 2 120 9 118 0 118 2 119 1 118 4 125 120 5 120 6 120 5 120 5 117 8 118 6 117 7 118 0 126 120 7 120 6 120 5 120 6 117 2 118 117 0 117 5 127 120 7 120 7 120 7 120 7 118 6 119 1 119 3 119 0 128 118 4 118 0 118 3 118 2 1204 120 9 120 5 120 6 129 120 5 120 8 120 8 120 7 117 9 118 6 117 9 118 1 130 120 7 120 9 120 6 120 7 120 7 120 1 119 4 120 1 A 25 width depth A 10 84 Appendix A NEBULA A 26 VETO A 9 ID side up em downlcml
133. 8 0 20 40 6 80 Hin stogram ID 5113 Histogram ID 5114 Histogram ID 511 VETO 5_N C 113 Flight length VETO 5 N C L 4 Flight length VETO 5 Flight length 5 7 0000000 VETO105 101 0 11500 HHHHH 00 0000 34 zs E 180 E 225 E E 20 160 E 200 E E 175 E 175 E 50 150 E 120 E 125 us E 100 E 100 100 so 75 75 60 50 50 40 25 25 20 0 0 0 0 20 40 60 80 0 20 40 60 80 0 20 40 60 80 0 2 40 60 80 Histogram ID 5116 Histogram ID 511 Histogram ID 5118 Histogram ID 5119 VETO 5_N C 116 Flight length VETO 5 N C 117 Flight length VETO 5 _N C 118 Flight length VETO 5 1 9 Flight length E F 70 60 E T E 100 60 E 50 E so 50 E 40 3 sr A E 30 60 E 30 E 40 20 40 20 20 20 10 10 0 0 0 0 0 20 4 60 80 0 20 4 60 m 0 20 40 60 0 2 40 60 Histogram ID 5120 Histogram ID Histogram ID Histogram ID VETO 5 N C 120 Flight length VETO 5 N C 121 Flight length VETO 5 _N C 122 Flight length VETO 5_N C 123 Flight length E 25 50 H 35 30 E 20 40 E E E 25 30 E 5E 3j P 15 E 10 E 10 10 E 5 0 0 0 0 20 40 60 80 0 20 40 60 80 0 20 40 60 80 0 20 40 60 80 Histogram ID
134. NEUT 104 D 02 0009 NEUT 204 U 04 0015 NEUT 204 D 06 0021 NEUT 105 U 00 0004 NEUT 105 D 02 0010 NEUT 205 U 04 0016 NEUT 205 D 06 0022 NEUT 106 U 00 0005 NEUT 106 D 02 0011 NEUT 206 U 04 0017 NEUT 206 D 06 0023 NEUT 107 U 00 0006 NEUT 107 D 02 0012 NEUT 207 U 04 0018 NEUT 207 D 08 0000 NEUT 108 U 00 0007 NEUT 108 D 02 0013 NEUT 208 U 04 0019 NEUT 208 D 08 0001 NEUT 109 U 00 0008 NEUT 109 D 02 0014 NEUT 209 U 04 0020 NEUT 209 D 08 0002 NEUT 110 U 00 0009 NEUT 110 D 02 0015 NEUT 210 U 04 0021 NEUT 210 D 08 0003 NEUT 111 U 00 0010 NEUT 111 D 02 0016 NEUT 211 U 04 0022 NEUT 211 D 08 0004 NEUT 112 U 00 0011 NEUT 112 D 02 0017 NEUT 212 U 04 0023 NEUT 212 D 08 0005 NEUT 113 U 00 0012 NEUT 113 D 02 0018 NEUT 213 U 06 0000 NEUT 213 D 08 0006 NEUT 114 U 00 0013 NEUT 114 D 02 0019 NEUT 214 U 06 0001 NEUT 214 D 08 0007 NEUT 115 U 00 0014 NEUT 115 D 02 0020 NEUT 215 U 06 0002 NEUT 215 D 08 0008 NEUT 116 U 00 0015 NEUT 116 D 02 0021 NEUT 216 U 06 0003 NEUT 216 D 08 0009 NEUT 117 U 00 0016 NEUT 117 D 02 0022 NEUT 217 U 06 0004 NEUT 217 D 08 0010 NEUT 118 U 00 0017 NEUT 118 D 02 0023 NEUT 218 U 06 0005 NEUT 218 D 08 0011 NEUT 119 U 00 0018 NEUT 119 D 04 0000 NEUT 219 U 06 0006 NEUT 219 D 08 0012 NEUT 120 U 00 0019 NEUT 120 D 04 0001 NEUT 220 U 06 0
135. Su e 80 70 60 50 40 30 20 80 70 60 40 30 20 B 68 105 112 ID MeV NEBULA NEBULA 149 Appendix C C1 00000000 cii 900000000000 lear reaction 58 59 n A n A elastic scattering n n 2 shape elastic scattering
136. Time 3 ns Input output delay 18 ns Majority output NIM logic signal 50 ohm impedance Or output NIM logic signal 50 ohm impedance Current Sum output 1 mA per hit high impedance 25 A 8 V895 72 A Appendix A NEBULA Mechanics 8U bin for 6U x 160 mm VME cards 21 slots 2U space for fan tray Backplane VME64 J1 J2 VME64X J1 J2 J1 J0 J2 Automatic daisy chain CBLT compliant Mains input Auto range 92 264 Vac 50 60 Hz inrush current 16 A 230 Vac power fact gt 0 98 Output Power gt 1 kW Maximum Total Output Power 1200 W 100 Vac 2530 W 211 Vac Fuse External 16 A type B C Output power 110 220 A 4 5 V 20 40A Q 12 V 110 220 43 3 V Isolation CE acc to EN 61010 Load Regulation lt 10 mV for 0 100 load change 5 V lt 10 mV for 0 100 load change Q 3 3 V lt 15 mV for 0 100 load change 12 V Efficiency 75 8596 230 Vac configuration dependent Noise and ripple backplane connector 45 V 10 mVpp 1 mVrms Typ 4 0 mVpp 0 5 mVrms 3 3 lt 10 mVpp 1 mVrms Typ 6 0 mVpp 1 0 mVrms 12 V 10 mVpp 2 mVrms 8 0 mVpp 1 5 mVrms Interface RS 232 USB 2 0 CAN bus Ethernet Temperature sensors Power Supply Control nr 1 FAN Unit nr 1 Backplane nr 8 optional Over Voltage Trip Off whe
137. compound elastic scattering inelastic scattering n n n ny n 2n neutron capture n y y MeV n p n d n a n t n ap 07
138. lt Ny0 Nheight VNdistance lt Nx0 Nwidth x 20 tan y lt VNdistance Ndepth FL d cos 0 Nx0 Nwidth x x0 tan y VNdistance sin cos 0 a VNdistance b Nx0 Nwidth x z0 tan c b a Nx0 Nwidth x 20 tan o VNdistance c sing Nx0 Nwidth x x0 tan VNdistance sin Nx0 lt x x0 VNdistance tan lt Nx0 Nwidth Ny0 lt y y0 VNdistance tan 0 lt Ny0 Nheight Ny0 lt y y0 btan 0 lt Ny0 Nheight VNdistance lt Nx0 x x0 tan o lt VNdistance Ndepth FL d 0 Nx0 2 20 tan o VNdistance sin cos 0 a VNdistance b Nx0 z z0 tan o c b a Nx0 x 20 tan y VNdistance d c sing Nx0 x 20 tan y VNdistance sin B 8 51 B 8 52 B 8 53 B 8 54 B 8 55 B 8 56 B 8 57 B 8 58 B 8 59 B 8 Flight length 127 Nwidth 2 20 lt B 47 D E top view 48 D E side view Nwidth x Ndepth 10 0 VNdistance B 49 D F top view B 50 D F side view 128 B Appendix B D F Tin 0 lt x 20 VNdistance tan lt Nx0 Nwidth B 8 60 Vin Ny0 y
139. lt y y0 VNdistance Ndepth tan 0 lt Ny0 Nheight B 8 81 gt FL d 0 VNdistance Ndepth Nx0 Nwidth x x0 tan y sin 0 B 8 82 Nx0 Nwidth x 20 tan b VNdistance 4 Ndepth c b a VNdistance Ndepth Nx0 Nwidth x 20 tan B 8 83 d c sing VNdistance Ndepth Nx0 Nwidth x 20 tan p sin p B 9 Jy Jy 50 p sin B 9 1 0 lt 2 dQ sin 7 90 cos 0 90 Rossi 1 25 51 VETO V width Vheigh ges dz I 0 0 0 32 1 9 2v 2 ay f d090 cos 0 sin 0 0 0 0 0 0 32 1 9 27 90 E 0 9 2 18 67 cps B 9 2 B 9 1 sin 0 cos Jn 206 cos 040 B 9 3 0 lt 2 0 1 m x 0 1 m Jpalm 132 B Appendix B 0 1 0 1 27 2 Jpalm 4080 cos 0 sin 0 0 0 0 0 1 0 1 0 1 27 90 TTE 1 4 eps B 10 00000000000000 B 10 1 000000 B 9 4 RIBF VETO
140. t 0 2781 06 284 4 2000 em 1500 1000 o o ol 500 eB u 0 riiil 80 90 100 110 120 Histogram ID 104 ADC ch4 Neut right C 3 155 0000 10 11 12 13 14 15 16 17 18 19 20 H Sakurai RI Beam Factory Project at RIKEN Nuclear Physics 805 526 2008 Y Yano The RIKEN RI Beam Factory Project A status report Nuclear Instruments and Methods in Physics Research B 261 1009 2007 T Kubo et al Status and Overview of Superconducting Radioactive Isotope Beam Separator BigRIPS at RIKEN Applied Superconductivity IEEE Transactions on Applied Superconductivity 17 1069 2007 T Kubo In flight RI beam separator BigRIPS at RIKEN and elsewhere in Japan Nuclear Instruments and Methods in Physics Research Section B 204 97 2003 ORI 2006 I Tanihata al Revelation of thick neutron skins in nuclei Physics Letters B 289 261 1992 I Tanihata et al Measurements of Interaction Cross Sections and Nuclear Radii in the Light p Shell Region Physical review letters 55 2676 1985 T Nakamura et Halo Structure of the Island of Inversion Nucleus Ne Physical review letters 103 262501 2009 a 201
141. y0 VNdistancetan 0 lt Ny0 Nheight B 8 61 Tout 0 lt x x0 Ndepth VNdistance tan lt Nx0 Nwidth B 8 62 Yout Ny0 y y0 VNdistance Ndepth tan 0 lt Ny0 Nheight B 8 63 gt FL Ndepth sin 0 B 8 64 E B VNdistance m Ndepth Nwidth ne y B 51 E B top view Meco B 52 E B side view Yin Ny0 y y0 atan 0 lt Ny0 Nheight B 8 65 Zin VNdistance lt Nx0 Nwidth x 20 tan y lt VNdistance Ndepth B 8 66 B 8 Flight length 129 Tout 0 lt z 0 b tanq lt Nx0 Nwidth B 8 67 Zout VNdistance lt y yO Ny0 tan 0 x VNdistance Ndepth B 8 68 gt FL d cos0 y yO Ny0 tan 0 Nx0 Nwidth x x0 tan y sin cos 0 B 8 69 Nx0 Nwidth x 20 tan b y y0 Ny0 tan0 c b a y y0 Ny0 tan 0 Nx0 Nwidth x 20 tan d c sing y y0 Ny0 tan 0 Nx0 Nwidth x 20 tan p sin y B 8 70 E C VNdistance Ndepth B 53 E C top view A B 54 E C side view Ny0 y yO atan 0 lt Ny0 Nheight B 8 71 130 B Appendix B Zin VNdistance lt Nx0 Nwidth x 20 tan y lt VNdistance
142. 0 T Kubo et aL The RIKEN radioactive beam facility Nuclear Instruments and Methods in Physics Research Section B 70 309 1992 H Sakurai et al Production and identification of new neutron rich nuclei Ne and Mg in the reaction 80A MeV 5 Ti 81Ta Physical review C 54 53 1996 T Ohnishi et al Identification of New Isotopes 25 4 and 26 Produced by In Flight Fission of 345 MeV nucleon 2380 First Results from the RIKEN RI Beam Factory Journal of the Physical Society of Japan 77 083201 2008 P Doornenbal et al Spectroscopy of Ne and the Island of Inversion Physical review letters 103 032501 2009 Y Satou et al Unbound excited states in 19 1 C Physics Letters 660 320 2008 T Kobayashi Large Acceptance Multi Particle Spectrometer SAMURAI TAC 05 2005 K Yoneda et al Current status of SAMURAI RIKEN Acellerator Progress Report 42 26 2009 SAMURAI 2008 CI 2009 http be nucl ap titech ac jp tanaka ci pdf 2008 http be nucl ap titech ac jp tanaka report pdf Ne N 16 2010
143. 0 0 0 0 50 100 150 Histogram ID 35112 VETO 5 N C 112 Energy loss 0 VETO 5 _N C 112 Energy loss 50 100 150 Histogram ID 35112 1200 1000 800 600 400 200 40 60 80 VETO 5 N C 112 Energy loss 100 120 140 160 Histogram ID 35112 5 12 VETO105 112 VETO105 112 MeV 30 5 30 5 before calibration before calibration 30 calibration EE 30 after calibration gt gt 295 i 3 295 gt H H H gt en i i 9 on 5 28 5 A 5 28 5 m m 21 5 27 5 100 102 104 106 108 110 112 114 116 200 202 204 206 208 210 212 214 216 Neutron counter ID Neutron counter ID 5 13 ID MeV
144. 0 08 Na 2 83 S 0 05 K 2 59 0 04 Mg 2 09 0 03 B 7 57 A 7 plg cm 23 87 11 75 2 8 B 8 A DOD Z 15 180 1000 NEBULA 0 90 NEBULA B 62 0 9 D 2 180 B 10 5 RIBF Hl DB U C LU RIBF 42 NEBULA RIBF NEBULA B 59 B 60 B 61 RIBF 1 1 RARF NEBULA VETO RARF RIBF 1 1 0 NEBULA 0 RIBF D 11 5 3 0 NEBULA VETO RIBF NEBULA B 63 B 64 NEBULA RARF RIBF B 10 141 90 80 70 60 50 40 30 20 10 5000 4000 3000 2000 1000 Histogram ID Muon intensity phi theta 0 50 100 150 Histogram ID 49 azimuthal angle distribution 0 50 100 150 Histogram ID Muon intensity phi theta 250 200 150 100 B 62 HistogramID 17 p
145. 00 E E 400 400 E 350 1 250 ed 250 Mi 200 200 b 150 200 E 150 E 100 100 E 100 E E so MEE o Eris o 0 50 100 150 0 50 100 150 0 50 100 150 Histogram ID 35313 Histogram ID 35314 Histogram ID 35315 VETO 5 NC H3 Energy loss VETO 5 _N C 114 Energy loss VETO 5 _N C 115 Energy loss 5 10 VETO105 101 115 MeV PMT PMT 38 5 zs E 160 200 140 100 1 70 175 120 80 60 150 100 i 50 125 80 40 100 x 75 E 40 30 E da PE 2 E E 25 E 2 E 10 E 0 E Eee 0 Eno A EPONE N o E KAB all o KA Ala kuh s nia 0 50 100 150 0 50 100 150 0 50 100 150 0 50 100 150 Histogram ID 35316 Histogram ID 35317 Histogram ID 35318 Histogram ID 35
146. 00 0000 VETO HHHHHHHHH 10emHHHHHHHHHHH VETO B 00000070 VETO Bp 15emHHHHHHHHH 0 6200000000000 10emHHHHHHHHH 00 00 NEBULA 6 19 HHHHHHHHHHHHHHHHHHH VETO B HHHHHHHH 0000 VETO BHHHHHH 000000 0 000000000000000 6 5 53 180cm PMT ch3 Neutron counter PMT ch4 PMT ch1 2 PMT ch2 VETO B 72 5cm 11cm 6 20 VETO B top view VETO B 11cm a 72 5cm PMT ch3 10cm PMT ch4 7 2cm Neutron counter 6 21 VETO B side view i VETO B VETO B 54 LASAH FU dO LS u HOLVT PIA T
147. 000 000000000 65 0000000000000 51 HHH3HHHHHHHHHHHHHHHHHHH2HHHHHHHHHHHHH HHHHHHHHHH 6 22 PMT HV V VETO A VETO chl 1550 1557 ch2 1550 1551 ch3 1550 ch4 1400 1365 66HHHHHHH VETO A HHHH 000000000000 0000 VETO 00000 VETO 000 10cemHHHHHHHH 0 6 21 0 NEBULA O 000 6 17 00000000000000 VETO HHHHHH 0 0 R7724 D VETO 000 00070 H6559 VETO H7195 92 060 00000 180cm PMT ch3 Neutron counter PMT ch4 10cm om om 6 18 HHHHHHHHHHHHHHHHHHH VETO A top view 000000
148. 000 3 0000 MgHHHHHHHHHHHHHH 00000 MgHHHHHHH 4000 3000000000 1 2 000 000 5 c E N Z c FU gt 774 b b 00 0000 0000 N 2200 O island of inversion 9 0 0 0 13 RIBE 0000000000000 0000000000000 DO D u 0 0 HHH 0000000000 00000000 000000 FeHHHHHHHHHHHHHH cnn
149. 000 A 1 1HHH 3 Ultra Violet Transmitting 0 00000 9 0000000000000000 UVTHHHHHHHHHHHHHHH 16
150. 0000000 5 4 VETO p 0 90 5 3 2 000000 5 5 5 5
151. 007 NEUT 220 D 08 0013 NEUT 121 U 00 0020 NEUT 121 D 04 0002 NEUT 221 U 06 0008 NEUT 221 D 08 0014 NEUT 122 U 00 0021 NEUT 122 D 04 0003 NEUT 222 U 06 0009 NEUT 222 D 08 0015 NEUT 123 U 00 0022 NEUT 123 D 04 0004 NEUT 223 U 06 0010 NEUT 223 D 08 0016 NEUT 124 U 00 0023 NEUT 124 D 04 0005 NEUT 224 U 06 0011 NEUT 224 D 08 0017 NEUT 125 U 02 0000 NEUT 125 D 04 0006 NEUT 225 U 06 0012 NEUT 225 D 08 0018 NEUT 126 U 02 0001 NEUT 126 D 04 0007 NEUT 226 U 06 0013 NEUT 226 D 08 0019 NEUT 127 U 02 0002 NEUT 127 D 04 0008 NEUT 227 U 06 0014 NEUT 227 D 08 0020 NEUT 128 U 02 0003 NEUT 128 D 04 0009 NEUT 228 U 06 0015 NEUT 228 D 08 0021 NEUT 129 U 02 0004 NEUT 129 D 04 0010 NEUT 229 U 06 0016 NEUT 229 D 08 0022 NEUT 130 U 02 0005 NEUT 130 D 04 0011 NEUT 230 U 06 0017 NEUT 230 D 08 0023 A 32 SY1527LC HV channel NEUT A 4 HV channel 91 channel name ch VETO 101 U 10 0000 VETO 102 U 10 0001 VETO 103 U 10 0002 VETO 104 U 10 0003 VETO 105 U 10 0004 VETO 106 U 10 0005 VETO 107 U 10 0006 VETO 108 U 10 0007 VETO 109 U 10 0008 VETO 110 U 10 0009 VETO 111 U 10 0010 VETO 112 U 10 0011 VETO 101 D 10 0012 102 10 0013 VETO 103 D 10 0014 VETO 104 D 10 0015 VETO
152. 10000 5000 0 S LAMAN LANA MAA TTT ETT TT 10 20 30 Histogram ID 70102 VETO 1 vs Number of muons 0 10 20 30 Histogram ID 70202 VETO 2 vs Number of muons 10 Histogram ID 70502 VETO 5 vs Number of muons 30 RR rr paa orar 1 20 45000 40000 35000 30000 25000 20000 15000 10000 5000 0 10 20 30 Histogram ID 70602 VETO 6 vs Number of muons 45000 E ET iioii E 40000 35000 35000 30000 E 30000 25000 25000 2000 20000 15000 E 15000 10000 10000 5000 E 5000 Bari dos 0 0 10 20 30 0 10 20 30 Histogram ID 70302 Histogram ID 70402 VETO 3 vs Number of muons VETO 4 vs Number of muons E 45000 900 40000 40000 E 35000 35000 E 30000 30000 as000 E 25000 20000 20000 15000 E 15000 10000 10000 5000 E 5000 o lA y Ei 0 10 20 30 0 10 20 30 Histogram ID 70702 VETO 7 vs Number of muons Histogram ID 70802 VETO 8 vs Number of muons 5 6 45000 55000 40000 E M00 35000 35000 E 30000 30000 E E 25 E 25000 E WE 20000 20000 15000 15000 E 10000 10000 E 5000 E 5000 E giri cli o Fee Las os 0 10 20 30 0 10 20 30 Histogram ID 70902 Histogram ID 71002 VETO 9 vs Number of muons VETOIO vs N
153. 101 left 8 2 8 2 right 40 2 40 3 102 left 39 2 39 6 right 71 7 71 7 103 left 70 4 70 3 right 102 4 102 6 104 left 101 1 101 6 right 133 2 133 5 105 left 132 2 132 3 right 164 4 164 4 106 left 163 4 163 5 right 195 6 195 9 107 left 194 3 194 5 right 226 5 226 5 108 left 225 5 225 6 right 257 2 257 3 109 left 256 2 256 2 right 288 3 288 4 110 left 287 3 287 5 right 319 2 319 3 111 left 318 2 318 2 right 350 350 3 VETO VETO ID ID cm 101 101 22 101 106 34 8 106 115 19 5 106 130 32 3 107 115 21 107 130 34 A 27 VETO A 4 HV channel 85 Neutron Counter beam ANI A 10 width depth 0 0 Neutron Counter VETO NEBULAHHHHHHH D 000 IDHHHHHHHHHHHHHHHHHHHHHHHHHHHHHHH 4 channel 000000 SY1527LCH 00 HV channel 0 A 32 330 0 0 0 0 0 0 channel name 0 SY1527LC HHHHHHHHHHHHH 2000000000000000000 VETON IDHHHH HH ch SY1527LC 000000000 A1535SN 49 00000000 ch400 zz yyyyHHHHHHHH zh 8SY1527LCH
154. 105 D 10 0016 VETO 106 D 10 0017 VETO 107 D 10 0018 VETO 108 D 10 0019 VETO 109 D 10 0020 VETO 110 D 10 0021 VETO 111 D 10 0022 VETO 112 D 10 0023 A 33 SY1527LC HV channel VETO 92 A Appendix A NEBULA A5 00000000
155. 2 12 2 102 103 12 3 103 104 12 3 104 105 12 3 105 106 12 2 106 107 12 2 107 108 12 4 108 109 12 3 109 110 12 3 110 111 12 3 111 112 12 2 112 113 12 4 113 114 12 4 114 115 12 2
156. 20 tan b y y0 Ny0 tan 0 c b a y y0 Ny0 tan 0 Nx0 z 20 tan y d c sing y y0 Ny0 tan 0 Nx0 x 20 tan sin B 8 30 C E VNdistance Ndepth V Ndistance y B 39 C Etopview e 54 B 40 C E side view Vin Ny0 y y0 atan lt Ny0 Nheight B 8 31 Zin VNdistance lt Nx0 x z0 tan o lt VNdistance Ndepth B 8 32 Yout 0 y y0 btan lt Ny0 Nheight B 8 33 B 8 Flight length 123 Zout VNdistance lt Nx0 Nwidth x 20 tan y lt VNdistance Ndepth B 8 34 gt FL Nwidth cos cos 0 B 8 35 0 x x0 tan p b 0 Nwidth z z0 tan B 8 36 Nwidth cos B 8 37 C F VNdistance Ndepth y B 41 C F top view B 42 C F side view Yin Ny0 lt y y0 atan 0 lt Ny0 Nheight B 8 38 Zin VNdistance lt Nx0 x x0 tan o lt VNdistance Ndepth B 8 39 Tout 0 lt x x0 Ndepth VNdistance tan y lt Nx0 Nwidth B 8 40 124 B Appendix B out Ny0 lt y y0 VNdistance Ndepth tan 0 lt Ny0 Nheight B 8 41
157. 21 Vavilov Vavilov 0 gt oo Cern library Vavilov B 4 6 Gaussian distribution Vavilov K f x x exp 5 B 4 22 2 2 22 7 Z og mc 048 0 1569 MeV B 4 23 1 29 Rog B 4 24 B 11 B 11 FL 00000000 6 100 00000000 B 6 2HH
158. 231 4 A1 1 1 ch1 A2 54 5 50 terminate DY 500 terminater 3231 5 A1 1 1 ch1 A2 54 5 50 terminate DY 54 5 500 terminate 3231 6 A1 1 1 ch1 A2 54 5 50 terminate DY 500 terminater 3231 7 A1 1 1 ch1 A2 0 3 500 terminate DY C 3 BA3231 154 Appendix C 2 x10 x ndf 4 2500 1 0 292 2000 Hiiti fiiia 1500 ni nn 1000 500 eee Er n 0 80 90 100 110 120 Histogram ID 101 102 ADC ch1 VETO left x 3500 Feat OMEIEMS 2 io Constant 0 3782E 06 7013 F Mean 100 1 0 5248E 03 3000 Sigma JW 0 6179 0 3477 03 2500 epe 2000 1500 Hee 1000 4 5 500 Ka o lerici ados 80 90 100 110 120 Histogram ID 103 ADC ch3 Neut left x10 3000 403 6 0 6821E 03 2500 i 4967 03 2000 n 1500 Mee 1000 0 1 1 500 5 5 0 111 80 90 100 110 120 Histogram ID 102 ADC ch2 VETO right x10 0232864057 3 2500 1 llk
159. 2m NEBULA PTO 70 SABEN 2 3 SAMURAI 5 BO rb TES v p p 2p ete proton detector heavy preton fragment Pol d polarimeter Q Triplet H He target d gt beam dump 2 4 SAMURAI 000 000 85 000 2 2 SAMURAI 11 THE BENI F BigRIPS Le Tc Wil E 10m ZeroDegree Spectrometer P 2 5 RIBF LJ II U 00000 SAMURAI
160. 404 4334 308 VU105 4030 272 VD105 3986 272 VU305 4154 296 VU405 4332 296 VU106 3277 262 VD106 3624 249 VU306 4409 264 VU406 4305 292 VU107 2466 232 VD107 4045 222 VU307 4505 264 VU407 4559 268 VU108 2212 221 VD108 2255 218 VU308 4516 260 VU408 4463 230 VU109 4018 216 VD109 4024 214 VU309 4161 244 VU409 4433 226 VU110 3593 212 VD110 3677 209 VU310 4342 212 VU410 4306 222 VU111 4007 179 VD111 3681 171 VU311 4449 184 VU411 4310 194 VU112 3311 156 VD112 2470 142 VU312 4499 168 VU412 4308 192 VU201 4162 324 VD201 4223 324 VD301 4489 344 VD401 3949 348 VU202 4217 316 VD202 2524 308 VD302 4357 332 VD402 4508 320 VU203 2598 304 VD203 2458 300 VD303 4394 320 VD403 4042 312 VU204 4011 300 VD204 2280 300 VD304 4509 300 VD404 4041 302 VU205 4287 288 VD205 2505 288 VD305 4355 276 VD405 4473 294 VU206 4222 288 VD206 4289 264 VD306 4155 264 VD406 4267 286 VU207 2762 256 VD207 3479 248 VD307 4183 264 VD407 3778 248 VU208 2541 248 VD208 4285 244 VD308 4389 244 VD408 4566 230 VU209 4153 244 VD209 2274 240 VD309 4460 230 VD409 4297 224 VU210 4165 236 VD210 4549 232 VD310 4340 192 VD410 4431 210 VU211 3563 228 VD211 4194 224 VD311 4387 168 VD411 4026 192 VU212 2506 224 VD212 4547 212 VD412 4338 144 A 28 VETO 100 40 300 Matta 400 2 1 0003 A1535SN 06 0012 SY1527LC 4 A1535SN 7
161. 427 4339 374 17328 4504 384 D328 4414 380 U428 4560 372 D428 4292 372 U329 4345 376 D329 4489 360 U429 4379 368 D429 4581 366 U330 4488 360 D330 4150 356 U430 4366 362 D430 4077 352 A 30 300 400 A 4 HV channel 89 A 31 ID mV 0001 2503 208 0002 3567 208 0003 4010 208 0004 4182 192 0005 4152 188 0006 2472 184 0007 4189 176 0008 4225 176 0009 3965 148 0010 4191 144 4490 10 4490 90 Appendix A NEBULA channel name ch channel name ch channel name ch channel name ch NEUT 101 U 00 0000 NEUT 101 D 02 0006 NEUT 201 U 04 0012 NEUT 201 D 06 0018 NEUT 102 U 00 0001 NEUT 102 D 02 0007 NEUT 202 U 04 0013 NEUT 202 D 06 0019 NEUT 103 U 00 0002 NEUT 103 D 02 0008 NEUT 203 U 04 0014 NEUT 203 D 06 0020 NEUT 104 U 00 0003
162. 50 60 70 80 90 HistogramID 1 zenith angle distribution 7000 6000 50 4000 3000 2000 1000 E 0 ci s L L 0 10 20 30 40 50 60 70 80 90 Histogram ID 31 zenith angle distribution 5 2 0 0 cos 0 Pl cos20 VETO H VETO D 0 Omnin VETO 0 5 3 21 185 x tan 0min 5 2 1 0 t 2l 6 5 5 2 2 in arctan 6 2 min 185 5 2 D 0 9 90 VETO 28 53 180cm 5 3 VETO 5 4 0 5 4 0 531 000000
163. 50 Ohm PA no Electrical Data Impedance 500 2 Max operating frequency 1 GHz Capacitance 100 7 pF m Velocity of signal propagation 66 5 03 ns m Signal delay Insulation resistance Min screening effectiveness Max operating voltage Test voltage gt 1 108 MOm gt 40 dB up to 1 GHz 1 5 kVrms at sea level 3 kVrms 50 Hz 1 min Mechanical Data 1 12 kg 100 m Weight Min bending radius static 15 mm repeated for max 50 bendings 25 mm Environmental Data Temperature range 40 C 85 C Installation temperature 20 C 60 C A 18 RG 174 U 35 INPUT ECL 1000 ns OUTPUT ECL 1000 DELAY TIME 200ns 10ns 200ns STABILITY 100ppm C PACKAGING VME6U POWER SUPPLY 5V 1A 36 A 19 16ch 500ns VME ECL DELAY PRV 90 78 A Appendix A NEBULA ACIOOV 100
164. 512 Histogram ID 5125 Histogram ID 5126 Histogram ID 5127 VETO 5 N C 124 Flight length VETO 5 N C D25 Flight length VETO 5_N C 126 Flight length VETO 5 N C 127 Flight length 25 E 3 20 E 16 E E E me 175 E ME 15 E mc 10 125 gt 10 E 10 E 8E 6 E 15 E 6 E E s 4 E 25 B 2 h 2 0 0 0 0 20 40 60 80 Histogram ID 5128 VETO 5 _N C 128 Flight length 0 20 40 60 80 Histogram ID 5129 VETO 5 _N C 129 Flight length 0 20 40 Histogram ID 5130 VETO 5 N C I3 60 80 0 Flight length 5 8 VETO105 N116 130 cm
165. 520 cm B 10 9 VETO RIBF 6 8 HHH slab HHHHHHHHHHHHHHHHH 00000000 B 8HH 0000000000000000000000000000000000000000000000000000000000000 0 HHHHHHHHHH HHHHHHHHHHHH 10 00000000000000 135 am gw OO e des Wi BWiss Ws so WIS woo 0 5 RIBFHHHHHH HH B2F topview 136 O BO Appendix B 00000000 Es RD La SI ict La E UE CIA A A 555 1 ps Pp 105 7 57 57 57 BW135 C9A C6 P d iem C8 x C6 57 WG1 Wboo Wal D
166. 6 AH Appendix A NEBULA GAIN TPMHBO797EA 10 TPMHBO796EA 0 CATHODE RADIANT SENSITIVITY 109 QUANTUM 105 EFFICIENCY 44 QUANTUM EFFICIENCY 95 0 1 CATHODE RADIANT SENSITIVITY mA W x Y A x 1 o u 300 400 500 600 700 800 500 700 1000 1500 2000 WAVELENGTH nm SUPPLY VOLTAGE V R7724 22 A6 R7724HHHHHHHH 22 0 000000000000 22 DAS 0000000000000000 00000000000 A 1 NEBULA e 19 e 180cm 19 A15 00000000 A 5 QDC TDC Discriminator VME crate HV supplier main frame HV supplier HV supplier VME crate controller coincidence Logic FI FO NIM 4ch latch TDC calibrator Cable Delay ECL DELAY BNC QLA NIM NIM cooling fan 2U NIM Logic Unit VME I O
167. 819 VETO 5 _N C 116 Energy loss VETO 5 Energy loss VETO 5 _N C 118 Energy loss VETO 5 _N C 119 Energy loss E 50 E 60 E E E 30 50 40 E 40 30 25 20 30 20 15 20 _ 5 15 20 10 10 10 H 5 5 0 x t o 0 0 50 150 0 50 150 0 50 100 150 0 50 100 150 Histogram ID 35320 Histogram ID 35321 Histogram ID 35322 Histogram ID 35323 VETO 5 N C 120 Energy loss VETO 5 Energy loss VETO 5 _N C 122 Energy loss VETO 5 N C 123 Energy loss 25 E 20 E E 16 18 mr 16 15 F 12 I 8 E H E B 4 1 5 4 2 2 0 0 0 0 50 100 150 0 50 100 150 0 50 100 150 0 50 100 150 Histogram ID 35324 Histogram ID 35325 Histogram ID 35326 Histogram ID 35327 VETO 5 N C 124 Energy loss VETO 5 _N C 125 Energy loss VETO 5 N C 126 Energy loss VETO 5 N C 127 Energy loss 12 F r 10 y 10 E E eE 8 E 5c E a 4 2 2 2 i i Lu i 0 50 100 150 0 50 100 150 0 50 100 150 Histogram ID 35328 Histogram ID 35329 Histogram ID 35330 VETO 5 N C 128 Energy loss VETO 5 N C 129 Energy loss VETO 5 _N C 130 Energy loss 5 11 VETO105 116 130 MeV PMT PMT 39 500 1200 1000 400 800 300 600 200 400 200 10
168. 92 D118 3983 382 U218 4205 412 D218 4008 408 U119 3955 378 D119 2594 372 U219 4032 404 D219 2326 396 U120 2600 362 D120 3235 362 U220 4553 388 D220 4214 388 U121 4145 362 D121 2546 358 U221 3357 388 D221 4002 376 U122 3413 356 D122 3609 352 U222 2463 376 D222 4208 372 U123 3627 352 D123 3495 350 U223 4003 368 D223 4132 364 U124 2521 348 D124 3629 346 U224 4136 364 D224 4207 364 U125 3758 342 D125 2542 342 U225 2465 364 D225 3577 364 U126 3732 340 D126 3259 338 U226 4147 356 D226 4279 352 U127 4149 336 D127 2471 330 U227 4545 348 D227 2523 348 U128 3944 328 D128 3980 322 U228 4023 340 D228 4227 336 U129 3361 322 D129 2769 316 U229 4043 332 D229 4102 332 U130 4040 314 D130 4027 312 U230 2508 328 D230 3336 324 29 100 40 88 A Appendix A NEBULA ID ID ID ID mV mV mV mV U301 4139 1096 D301 4399 892 U401 4435 1060 D401 4376 896 U302 4458 880 D302 4356 856 U402 4380 856 D402 4374 812 U303 3859 852 D303 4410 832 U403 4313 788 D403 4430 616
169. B 54 B 55 B 56 B 57 B 58 B 59 B 60 B 61 B 62 B 63 B 64 B 65 B 66 B 67 B 68 C 1 C 2 C 3
170. G_174_ U 7 http www repic co jp contents products huber seihin rf pdf rg174u pdf REPIC http www repic co jp contents products repic seihin rpv_090 html e http www repic co jp contents products repic pdf rpn 005 153 pdf Phillips Scientific Quad Majority Logic Unit NIM MODEL 756 http www repic co jp contents products phill pdf 756ds pdf 157 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 REPIC Kii di http www repic co jp contents products repic seihin rpv_130 html NEBULA 60 VETO24 PMT gain 2009 http be nucl ap titech ac jp tanaka nebula_gain pdf W M Yao et al Journal of Physics G Nuclear and Particle Physics 33 2006 D Reyna A simple Parameterization of the Cosmic Ray Muon Momentum Spectra at the surface as a Function of Zenith Angle arXiv hep ph 0604145 2006 M Matsumoto et al Mersenne Twister A 623 dimensionally equidistributed uniform pseudorandom num ber generato ACM Trans on Modeling and Computer Simulation 8 3 1998
171. H HH HHHHHHHHHHHHHHHHHHHHH 00H15HHHHA1535SNH 10000 200000000000 SY1527LC 0000 0000 A1535SN 00 00120000 02000000000000000000000 yyy0 000000 15358 0 000000012 20000000000000 1 1 00000 1 2 000100 user admin 0 0000000000000000000000000 4 A15358N 000000000000000000000000000000000000000000000000000000000 1 PASSIVE INTERLOCK 00000 5090000000000 2 8IGNAL INTERLOCK 00000 5 V 3 4mA 00000 0 000000000000000000000000000000000000000000000000000 86 A Appendix NEBULA ID ID ID ID mV mV mV mV VU101 3412 312 VD101 2764 310 VU301 4491 348 VU401 4530 352 VU102 3359 296 VD102 2509 294 VU302 4396 332 VU402 4554 322 VU103 3925 286 VD103 3999 284 VU303 4468 328 VU403 4131 318 VU104 2513 284 VD104 2767 278 VU304 4378 320 VU
172. H HH 147 80 28 200 fai 2 200 175 70 ju 200 159 60 i 175 1 50 150 1 125 125 100 40 40 125 100 100 100 30 15 30 30 75 78 50 20 84 240 25 10 230 00 0 0 0 0 istog ram 90511 pm ram 90611 istog ram MD Hist ram 2 90811 VETO 5 vs Energy loss VETO 6 vs Energy loss VETO 7 vs Energy loss VETO 8 vs Energy loss 80 80 80 300 300 300 70 70 5 250 5 259 60 248 250 260 200 50 260 200 pe dl 19 150 30 30 30 100 100 100 100 20 20 20 500 50 10 540 50 00 0 0 00 0 istog ram 90512 istog ram 2 90612 MD 90712 p ram 2 90812 VETO 5 vs Energy loss VETO 6 vs Energy loss VETO 7 vs Energy loss VETO 8 vs Energy loss 80 80 239 225 225 200 20 70 2 2 175 m m 175 ss E 125 125 1 40 40 100 100 100 100 30 30 0 75 75 75 500 50 20 sg 50 240 25 10 240 25 00 0 0 00 0 istog ram 90911 A 1D eni isto Tam eni VETO 9 vs Energy loss VETO10 vs Energy loss VETO11 vs Energy loss VETO12 vs Energy loss 80 80 80 300 309 300 70 5 250 2 250 60 2 20 200 50 260 200 40 5 188 150 19 150 30 30 30 100 100 100 100 20 20 20 5 5 50 10 20 00 0 0 0 0 0 istog ram 90912 eram MD 91012 isto eram T en listo eram E 91212 VETO 9 vs Energy loss VETO10 vs Energy loss VETO11 vs Energy loss VETO12 vs Energy loss 5 na
173. HHHHHHHHHH 01200 0000 10 cpsHHHHHHHHHHH 1 1 RIBFOOOO b 0000 00 0000 RIBF 00 000000 1 fRC fixed frequency Ring Cyclotron HHHHHHHHHHHHHHHH IRC Intermediate stage Ring Cyclotron HHHHHHHHHHHHH 3 SRC Superconducting Ring Cyclotron 0000000000000 O fRC SRC AVF RRC SRC 6x1012 MeV o 8 OHO Ar Kr fRC IRC Bi U A T AN RRC IRC mm 1 40 80 120 160 200 240
174. HHHHHHHHHHHHHHHHHHHHHHHHHHHH 55 HHHHHHH 33 6 E 6 16 E 5 H 5 12 4 4 10 3 8 2 2 4 1 1 A 0 0 0 0 20 60 80 0 20 40 60 80 20 4 60 80 0 2 EJ 60 80 ID 5101 Histogram ID 5102 Histogram ID 5103 ID 5104 VETO 5_N C 101 Flight length VETO 5 102 Flight length VETO 5_N C 103 Flight length VETO 5 N 104 Flight length 90 180 25 80 160 40 70 140 20 60 120 15 39 50 100 z 40 80 19 30 60 10 20 40 10 20 0 0 0 0 0 20 60 80 0 20 40 60 8 2 4 60 EN 0 20 4 6 8 ID 5105 Histogram ID 5106 Histogram ID Histogram ID 5108 VETO 5 _N C 105 Flight length VETO 5 N C 106 Flight length vErOs_NC107 Flight length VETO 5 _N C 108 Flight length 300 600 E 1000 E E soo E 250 SW 200 a E 600 E F 500 E 600 150 bii 400 100 200 300 40 1 50 100 200 10 BEER 0 0 0 0 0 20 60 80 0 20 40 60 80 20 40 60 8 20 4 6 8 Histo ram ID 5109 Histogram ID 5110 Histogram ID 5111 Histogram ID 5112 VETO 5 _N C 109 Flight length VETO 5 _N C 1i0 Flight length VETO 5_N C I 1 Flight length VETO 5_N C 112 Flight length E 500 E 350 E 600 E E W E 400 E 500 250 400 E 300 200 300 200 150 200 100 100 100 50 0 0 0 00 60 80 0 20 40 60
175. HVLS 642 eaq 1035 soy mdmo uid a 11818 SUOOL UPIM OISA suog UPIM Aerop sUooI VIT amp ejop su001 So eue Aerop supe Su0q YIPIM PU EY ANUNG 193311 SUOG PIM suos PPIM PD LINA ey LNd 6 22 49 LINd TW LNd sug 108 193311 GU o
176. MT PMT MeV VETO VETO ID MeV i 145 VETOIOI 104 ID MeV NEBULA NEBULA DE VETO105H 112 ID MeV NEBULA NEBULA feces e USE AA SO E REESE 147 denen EE ES Se eue p s s ta a Re M S 151 a 1 b 2 v v gt 1121000000000 152 III 154 000 2 1 2 2 2 3 5 1 6 1 6 2 6 3 6 4 6 5 6 6 6 7 6 8 6 9 A 1 A 2 A 3 A 4 A 5 A 6 A 8 A 9 A 10 A 11 A 12 A 13 A 14 A 15
177. Ndepth B 8 72 Yout Ny0 y y0 btan 0 lt Ny0 Nheight B 8 73 Zout VNdistance lt Nx0 z x0 tan o lt VNdistance Ndepth B 8 74 FL cos 0 Nwidth cos o cos 0 B 8 75 0 Nwidth x x0 tan b Nx0 z x0 tan p B 8 76 Nwidth B 8 77 E F VNdistance Nwidth Ndepth lt y B 55 E F top view B 56 E F side view Yin 0 lt y y0 atan 0 lt Ny0 Nheight B 8 78 B 9 VETO 131 Zin VNdistance lt Nx0 Nwidth x x0 tan y lt VNdistance Ndepth B 8 79 Tout Nx0 lt x x0 Ndepth VNdistance tan y lt Nx0 Nwidth B 8 80 Yout Ny0
178. OHHHHHHHHHHHHH 17 VETOHHHHHHHHHHHHHHHH D HHUHHUHHUHHHHHHHHHHHUHHHUL 23 00 00000000 000000000 96 Appendix A NEBULA F gt x2 PMT 25 000 VETOHHHHHHHHHHH HHHH VETOHHHHHHHHHHHHHHHHHH HHHHHHHHUHUHHUUUHHUHHHHHHHHHHHHHHHHL 4 27 000 VETOHHHHHHHH 0 00 4 26 0000000 00000000 HHHHHHHHHHHHHHHHHHHHHH2HHHHHHHHHHHHHHHHHHHHHHHHHHHHH 000000 0 3190 97 A 28 00 00 00 00 A 29 VETO
179. PPLY 5V 1 9A A 22 RPV 130 39 A2 0000 81 2 00000 A21 000000000 0 A 9 A 23 o Su T 1 la 3600 575 053 E t il A 9 NEBULA 0 0 0 u ut OU ID top cm bottom cm cm 101 11 1 11 4 11 2 102 23 3 23 6 23 4 103 35 6 35 8 35 7 104 47 9 48 1 48 0 105 60 1 60 4 60 2 106 72 4 72 5 72 4 107 84 6 84 6 84 6 108 96 9 97 0 96 9 109 109 1 109 3 109 2 110 121 3 121 6 121 4 111 133 7 133 7 133 7 112 145 9 145 9 145 9 113 158 3 158 2 158 2 114 170 7 170 5 170 6 115 182 9 182 7 182 8 82 A Appendix A NEBULA ID cm 101 10
180. ST resets QAC sections MEB status and control registers VETO inhibits the conversion of the QAC signals FCLR FAST CLEAR of QAC sections Control outputs differential ECL output signals DRDY indicates the presence of data BUSY board full resetting converting or in MEMORY TEST mode VME interface A24 A32 Geographical Addressing Multicast commands D16 D32 BLT32 MBLT64 CBLT32 CBLT64 23 A 6 VME V792 70 A Appendix A NEBULA Packaging 1 unit wide 6U VME module version AA requires the V430 backplane Inputs 32 ECL inputs 110 Ohm impedance Resolution 12 bit Full Scale Range VME programmable from 140 to 1200 ns if sliding Scale is used FSR is reduced from 4095 to 3840 counts LSB VME programmable from 35 to 300 ps RMS Noise 0 8 counts typical 2 counts maximum Integral non linearity 0 196 of FSR measured from 596 to 9596 of 3840 counts Differential non linearity 1 measured from 5 to 95 of 3840 counts Interchannel Isolation gt 66 dB Power rejection 0 01 count mV 5V 0 02 count mV 5V 0 005 count mV 12V 0 001 count mV 12V Fast clear time 600 ns Conversion time 5 7 us for all channels Minimum Start Stop delay Common Start mode 14 ns Common Stop mode 4 ns Zero suppression Threshold values programmable in 16 ADC counts steps over the entire FSR
181. U304 4348 792 D304 4238 780 U404 4440 674 D404 4565 668 U305 4253 772 D305 4092 770 U405 4580 662 D405 4444 648 U306 4415 756 D306 4418 152 U406 4360 646 D406 3931 642 U307 4454 748 D307 4358 744 U407 4364 610 D407 4134 600 0308 4426 44 D308 4169 696 U408 4327 596 D408 4103 576 U309 4411 688 D309 4412 684 U409 4472 562 D409 4271 560 U310 4456 676 D310 4263 672 0410 4561 552 D410 4280 550 U311 4493 664 D311 4453 664 U411 4537 550 D411 4122 542 17312 3889 660 D312 4405 650 U412 4006 540 D412 4074 528 U313 4471 592 D313 4501 582 U413 4382 522 D413 4555 520 U314 4521 568 D314 4425 564 U414 3199 516 D414 4079 516 U315 4343 564 D315 4352 564 U415 4538 516 D415 4254 514 U316 4406 552 D316 4344 544 0416 4323 506 D416 4071 494 U317 4354 544 D317 4480 524 U417 4312 494 D417 4485 494 U318 4395 524 D318 4427 508 U418 4372 486 D418 4462 486 U319 4469 500 D319 4464 488 U419 2272 478 D419 4020 464 U320 4496 480 D320 4467 476 U420 4562 460 D420 4486 458 U321 3868 468 D321 4466 468 U421 4519 450 D421 4432 448 U322 4494 456 D322 4515 456 U422 2998 446 D422 2163 444 U323 4034 452 D323 4512 452 U423 4465 442 D423 4362 440 U324 4479 440 D324 4492 432 U424 4365 432 D424 2624 430 U325 4514 420 D325 4371 412 U425 4221 424 D425 4369 414 U326 4475 408 D326 4497 392 U426 4532 408 D426 4299 388 U327 4422 392 D327 4438 384 U427 4461 380 D
182. ister Q O0 000000 00000 0000000000 HHHHHHHHHHHHHH Mean energy loss Bethe Bloch 00 B 4 1 HHHHHHHH 440 dE a 2me y vW max 5 C 2n Nar Mec PAB In B 282 27 B 4 1 2n 2 0 1535MeVcm g B 4 2 O 2 817 x 10 Pcm 000000 6 022 10230171 0000000000 00000 BA Energy loss 105
183. n the output voltage Protection gt 103 12096 programmable of set voltage Under Voltage Trip Off when the output voltage Protection lt 80 97 programmable of set voltage Over Current Protection Trip Off when the current gt programmable Iset value Over Temperature Trip Off when temperature of a single Power Supply block gt 90 C Protection Signaled temperature FAN Unit gt 50 C temperature Power Supply Control gt 65 C Operation 0 50 C without derating Cooling Airflow 540 m h at maximum fan speed Firmware VMES100 firmware can be upgraded via Ethernet 26 A 9 8100 73 A 1 NEBULA Packaging 19inch wide 8U high Euro mechanics rack Depth 720 mm Weight Mainframe 24 kg Mod A1532 3 2 kg Power requirements Voltage range 100 230 V Frequency 50 60 Hz Power 3400 W Max number of boards per crate 16 Max number of power supply units per crate 3 Primary power supply output Mod A 1531 12V 8A 5 V 20 A Power supply unit output Mod A 1532 48 V 15 6 Max output power 2250 W From 0 dry atmosphere to 40 C Operating temperature Storage temperature From 20 C dry atmosphere to 50 C A 10 SY1527LC 27 A1535SN Negative
184. omic Particles Premium Plastic Scintillators 100 10 5 2 8 5 E F E 1 L 3 Eo 9 6 0 1 a S de L 0 01 20 40 60 80 100 120 140 160 0 01 0 1 1 10 100 Energy MeV Energy MeV A 1 EJ200 000 0 00 00 0 000 21 A 1 NEBULA 63
185. tance lt 35 A F top view B 36 A F side view Tin 0 lt x 20 a tan y lt Nx0 Nwidth B 8 19 Zin VNdistance lt y yO Ny0 Nheight tan 0 lt VNdistance Ndepth B 8 20 Tout 0 lt x 20 Ndepth VNdistance tan y lt Nx0 Nwidth B 8 21 Yout Ny0 y y0 btan0 Ny0 Nheight B 8 22 B 8 Flight length 121 FL 0 Ndepth VNdistance y y0 Ny0 Nheight tan 0 sin cos 0 B 8 23 y y0 Ny0 Nheight tan 0 b Ndepth VNdistance c b a Ndepth VNdistance y yO Ny0 Nheight tan 0 d c sing Ndepth VNdistance y y0 Ny0 Nheight tan 0 sin y B 8 24 C B VNdistance Um Ndepth 9 Ndepth 9 y x0 U VNdistance 37 top view Me B 38 C B side view Yin Ny0 lt y y0 atan 0 lt Ny0 Nheight 8 25 Zin VNdistance lt Nx0 x z0 tan o lt VNdistance Ndepth B 8 26 Tout 0 lt x x0 b tan lt Nx0 Nwidth B 8 27 Zout VNdistance lt y yO Ny0 tan0 lt VNdistance Ndepth B 8 28 122 B Appendix B gt FL 0 y y0 Ny0 tan 0 Nx0 x 20 tan sin cos 0 B 8 29 0 z
186. umber of muons E 45000 45000 E E 40000 40000 E E 35000 35000 E E 30000 3000 25000 25000 20000 20000 E 15000 15000 E 10000 10000 E 5000 5000 E ein i Fisici usi 0 1 10 20 30 Histogram ID 71101 5 VETO11 vs Number of muons 1 10 20 30 Histogram ID 71202 VETO12 vs Number of muons VETO ID 32 55 HHHHHHH

不安定核二次反応のための大型中性子検出器の開発

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不安定核二次反応のための 大型中性子検出器の開発

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不安定核二次反応のための大型中性子検出器の開発