ENTRY B0104 20011220 0000B010400000001 SUBENT B0104001 20011220 0000B010400100001 BIB 9 18 B010400100002 TITLE Cross Sections of the Cu-63(P,3N)Zn-61 and the B010400100003 Cu-63(P,P3N)Cu-60 Reactions B010400100004 AUTHOR (H.NOMA, T.HORIGUCHI, Y.YOSHIZAWA, I.FUJIWARA, S.KUME, B010400100005 K.CHIDA, T.MATSUI, S.AMEMIYA, T.KATOH) B010400100006 INSTITUTE (2JPNHIR).Department of Physics B010400100007 REFERENCE (J,JIN,39,1923,1977) B010400100008 FACILITY (ISOCY,2JPNTOK) B010400100009 ERR-ANALYS (DATA-ERR) The Errors Given Correspond to the Error B010400100010 Bars Given in the Figures. No Information is Given B010400100011 About Their Meaning. B010400100012 ADD-RES An Upper Limit of 0.7 Mb at 47 MeV For the Reaction B010400100013 Cu-63(P,4N)Zn-60 was Obtained. B010400100014 STATUS (CURVE) B010400100015 HISTORY (19790427C)Lakw B010400100016 (19940711A) Some Corrections have Been Included by B010400100017 CAJAD B010400100018 (19980916A) Lower Case and Some Little Corrections. B010400100019 (20011010U) Last checking has been done. B010400100020 ENDBIB 18 0 B010400100021 NOCOMMON 0 0 B010400100022 ENDSUBENT 21 0 B010400199999 SUBENT B0104002 20011220 0000B010400200001 BIB 9 51 B010400200002 REACTION 1(29-CU-63(P,3N)30-ZN-61,,SIG,,,EXP) B010400200003 2(29-CU-63(P,3N)30-ZN-61,,SIG,,,EXP) B010400200004 RAD-DET 1(30-ZN-61,B+) B010400200005 2(30-ZN-61,DG) B010400200006 DECAY-DATA (30-ZN-61,1.48MIN,DG,475.,0.161,B+) B010400200007 METHOD 1(BCINT,EXTB,SITA,ASEP,EDEG) B010400200008 The Energy Degradation was Determined Using the B010400200009 Range-Energy Relation Given by H.Bichsel Et Al., B010400200010 Phys.Rev.105,1788(1957). B010400200011 Separation of the Products was Performed by Means of B010400200012 The on-Line Mass Separator 'Isol' at the Institute For B010400200013 Nuclear Study, Tokyo University. B010400200014 Zn-Isotopes Produced were Evaporated from the Target B010400200015 Foil by Heating Up to About 1000 Centigrades. They wereB010400200016 Then Ionized, Magnetically Separated, Collected on a B010400200017 Movable Tape and Measured. Time Between Production and B010400200018 Measurement was About 1 Minute. The Yield of the Mass B010400200019 Separation was Determined by Measuring the Ion Current B010400200020 Of One of the Stable Cu-Isopes. B010400200021 2(BCINT,EXTB,STTA,CHSEP,EDEG) B010400200022 The Energy Degradation was Determined Using the B010400200023 Range-Energy Relation Given by H.Bichsel Et Al., B010400200024 Phys.Rev.105,1788(1957). B010400200025 After Bombardment of 1 Minute the Target was B010400200026 Transferred from the Bombarding Position to a B010400200027 Radiochemical Laboratory by a Pneumatic System in B010400200028 15 Seconds. Chemical Separation was Performed Using B010400200029 Zn-65 Spike As a Yield Monitor. B010400200030 SAMPLE 1Foil of Natrual Cu, Thickness 10 Micrometer. Al-Foils B010400200031 In Front of It Served As Energy Degraders. B010400200032 2Stack Containing Foils of Natural Cu of 5 Micrometer B010400200033 Thickness Which were Mounted on Metal Frames. Al-Foils B010400200034 In Front of the Stack were Used to Degrade the B010400200035 Incident Proton Energy of 52 MeV to the Desired Value. B010400200036 DETECTOR 1(GEMUC) B010400200037 2(GELI) B010400200038 CORRECTION2The Cross Sections were Calculated from the Measured B010400200039 Gamma-Intensities by Correcting For Decay, Gamma-Ray B010400200040 Abundance, Chemical Yield (91 TO 100%) And the Beam B010400200041 Current (FLUCTUATION ABOUT 10%). B010400200042 COMMENT 1Zn-61 was Well Separated from Zn-63. Zn-62 Could not B010400200043 Be Measured Because Its Half-Life (9.15 HOURS) Is Much B010400200044 Longer Than the Collection Time of 1 Minute. B010400200045 STATUS 1(DEP,B0104003) B010400200046 Zn-61 Cross Sections were Deduced from the Zn-61/Zn-63 B010400200047 Ratio Measured with 'Isol' and from the Zn-63 Cross B010400200048 Section Obtained from the Stacked Foil Irradiation. B010400200049 The Latter are not Explicitly Given, But can be DeducedB010400200050 From the Ratio from the Stacked Foil (SEE SUBENTRY B010400200051 B0104003) And the Zn-61 Data from the Stacked Foil B010400200052 Given in B0104002. B010400200053 ENDBIB 51 0 B010400200054 NOCOMMON 0 0 B010400200055 DATA 5 15 B010400200056 EN DATA 1DATA-ERR 1DATA 2DATA-ERR 2 B010400200057 MEV MB MB MB MB B010400200058 30. 1.8 0.57 B010400200059 30.2 1.2 0.25 B010400200060 31.8 1.6 0.25 B010400200061 32.4 3.4 0.32 B010400200062 35.5 4.8 0.72 B010400200063 35.6 5.6 0.52 B010400200064 38.8 5.8 0.74 B010400200065 39.2 7.5 0.74 B010400200066 41.8 4.1 0.83 B010400200067 42.4 4.5 0.4 B010400200068 44.4 5. 0.9 B010400200069 45.4 5.3 0.67 B010400200070 47.2 3.6 0.58 B010400200071 48.6 4.3 0.57 B010400200072 51.5 4.4 0.65 B010400200073 ENDDATA 17 0 B010400200074 ENDSUBENT 73 0 B010400299999 SUBENT B0104003 20011220 0000B010400300001 BIB 9 57 B010400300002 REACTION 1((29-CU-63(P,3N)30-ZN-61,,SIG,,A,EXP)/ B010400300003 (29-CU-0(P,X)30-ZN-63,,SIG,,,EXP)) B010400300004 2((29-CU-63(P,3N)30-ZN-61,,SIG,,A,EXP)/ B010400300005 (29-CU-0(P,X)30-ZN-63,,SIG,,,EXP)) B010400300006 RAD-DET 1(30-ZN-61,B+) B010400300007 (30-ZN-63,B+) B010400300008 2(30-ZN-61,DG) B010400300009 (30-ZN-63,DG) B010400300010 DECAY-DATA (30-ZN-61,1.48MIN,DG,475.,0.161,B+) B010400300011 (30-ZN-63,38.6MIN,DG,669.,0.112,B+) B010400300012 METHOD 1(BCINT,EXTB,SITA,ASEP,EDEG) B010400300013 The Energy Degradation was Determined Using the B010400300014 Range-Energy Relation Given by H.Bichsel Et Al., B010400300015 Phys.Rev.105,1788(1957). B010400300016 Separation of the Products was Performed by Means of B010400300017 The on-Line Mass Separator 'Isol' at the Institute For B010400300018 Nuclear Study, Tokyo University. B010400300019 Zn-Isotopes Produced were Evaporated from the Target B010400300020 Foil by Heating Up to About 1000 Centigrades. They wereB010400300021 Then Ionized, Magnetically Separated, Collected on a B010400300022 Movable Tape and Measured. Time Between Production and B010400300023 Measurement was About 1 Minute. The Yield of the Mass B010400300024 Separation was Determined by Measuring the Ion Current B010400300025 Of One of the Stable Cu-Isopes. B010400300026 2(BCINT,EXTB,STTA,CHSEP,EDEG) B010400300027 The Energy Degradation was Determined Using the B010400300028 Range-Energy Relation Given by H.Bichsel Et Al., B010400300029 Phys.Rev.105,1788(1957). B010400300030 After Bombardment of 1 Minute the Target was B010400300031 Transferred from the Bombarding Position to a B010400300032 Radiochemical Laboratory by a Pneumatic System in B010400300033 15 Seconds. Chemical Separation was Performed Using B010400300034 Zn-65 Spike As a Yield Monitor. B010400300035 This Procedure was Used Only For Zn-61 Determination. B010400300036 Zn-63 was Obviously Measured Separately Without B010400300037 Chemical Separation from a Stack Irradiated For 10 Min.B010400300038 COMMENT 1Zn-61 was Well Separated from Zn-63. Zn-62 Could not B010400300039 Be Measured Because Its Half-Life (9.15 HOURS) Is Much B010400300040 Longer Than the Collection Time of 1 Minute. B010400300041 SAMPLE 1Foil of Natrual Cu, Thickness 10 Micrometer. Al-Foils B010400300042 In Front of It Served As Energy Degraders. B010400300043 2Stack Containing Foils of Natural Cu of 5 Micrometer B010400300044 Thickness Which were Mounted on Metal Frames. Al-Foils B010400300045 In Front of the Stack were Used to Degrade the B010400300046 Incident Proton Energy of 52 MeV to the Desired Value. B010400300047 DETECTOR 1(GEMUC) B010400300048 2(GELI) B010400300049 CORRECTION2The Cross Sections were Calculated from the Measured B010400300050 Gamma-Intensities by Correcting For Decay, Gamma-Ray B010400300051 Abundance, Chemical Yield (91 TO 100%) And the Beam B010400300052 Current (FLUCTUATION ABOUT 10%). B010400300053 STATUS 2(DEP,B0104002) B010400300054 The Ratio was Obviously Obtained from Separate Zn-61 B010400300055 And Zn-63 Cross Sections Measured with the Foil Stack. B010400300056 While Zn-61 Data are Shown in the Paper (SEE SUBENTRY B010400300057 B0104002), Zn-63 Data are not Explicitly Given B010400300058 (COMMENT BY THE COMPILER OF KACHAPAG). B010400300059 ENDBIB 57 0 B010400300060 NOCOMMON 0 0 B010400300061 DATA 5 15 B010400300062 EN DATA 1DATA-ERR 1DATA 2DATA-ERR 2 B010400300063 MEV NO-DIM NO-DIM NO-DIM NO-DIM B010400300064 30.1 0.03 0.013 B010400300065 30.2 0.018 0.0038 B010400300066 31.9 0.028 0.0051 B010400300067 32.6 0.058 0.0095 B010400300068 35.6 0.076 0.019 B010400300069 35.7 0.084 0.0071 B010400300070 39. 0.1 0.0093 B010400300071 39.3 0.13 0.023 B010400300072 42. 0.092 0.018 B010400300073 42.6 0.094 0.014 B010400300074 44.8 0.13 0.028 B010400300075 45.7 0.14 0.029 B010400300076 47.4 0.1 0.019 B010400300077 48.9 0.13 0.028 B010400300078 51.7 0.16 0.043 B010400300079 ENDDATA 17 0 B010400300080 ENDSUBENT 79 0 B010400399999 SUBENT B0104004 20011220 0000B010400400001 BIB 6 13 B010400400002 REACTION (29-CU-63(P,X)29-CU-60,CUM,SIG,,,EXP) B010400400003 RAD-DET (29-CU-60,DG) B010400400004 DECAY-DATA (29-CU-60,24.0MIN,DG,1332.5,0.88) B010400400005 METHOD (BCINT,EXTB,STTA,EDEG) B010400400006 The Energy Degradation was Determined Using the B010400400007 Range-Energy Relation Given by H.Bichsel Et Al., B010400400008 Phys.Rev.105,1788(1957). B010400400009 The Target was Bombarded For 10 Minutes. B010400400010 SAMPLE Stack Containing Foils of Natural Cu of 5 Micrometer B010400400011 Thickness Which were Mounted on Metal Frames. Al-Foils B010400400012 In Front of the Stack were Used to Degrade the B010400400013 Incident Proton Energy of 52 MeV to the Desired Value. B010400400014 DETECTOR (GELI) B010400400015 ENDBIB 13 0 B010400400016 NOCOMMON 0 0 B010400400017 DATA 3 6 B010400400018 EN DATA DATA-ERR B010400400019 MEV MB MB B010400400020 35.6 1. 0.1 B010400400021 39.4 3.6 0.32 B010400400022 42.6 8.3 0.89 B010400400023 45.7 17. 1.5 B010400400024 48.9 28. 2.4 B010400400025 51.5 33. 3.3 B010400400026 ENDDATA 8 0 B010400400027 ENDSUBENT 26 0 B010400499999 ENDENTRY 4 0 B010499999999