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exforall/O25/O2554.x4

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exforall/O25/O2564.x4

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ENTRY O2564 20230308 20231027 20231026 O097
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SUBENT O2564001 20230308 20231027 20231026 O097
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BIB 13 33
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TITLE Determination of the 7Be(p,gamma)8B cross section at
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astrophysical energies using a radioactive 7Be ion beam
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AUTHOR (R.Buompane, A.Di Leva, L.Gialanella, A.D'Onofrio,
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M.De Cesare, J.G.Duarte, Z.Fueloep, L.R.Gasques,
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Gy.Gyuerky, L.Morales-Gallegos, F.Marzaioli,
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G.Palumbo, G.Porzio, D.Rapagnani, V.Roca, D.Rogalla,
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M.Romoli, C.Santonastaso, D.Schuermann)
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INSTITUTE (2ITYFSN,2ITYNAP,3HUNDEB,3BZLUSP,2GERBOC)
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(2ITYITY) Centro Italiano Ricerche Aerospaziali, Capua
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REFERENCE (J,PL/B,824,136819,2022)
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#doi:10.1016/j.physletb.2021.136819
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FACILITY (VDGT,2ITYFSN)
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INC-SPECT The effective beam energy Eeff was determined by the
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beam energy Eb and the beam energy loss in the target
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deltaEb, that is determined by the beam ions stopping
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power in the target.
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DETECTOR (MAGSP,TELES) The mass separator ERNA (European Recoil
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mass Separator for Nuclear Astrophysics) filters out
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the beam ions, allowing the direct detection of the
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reaction products ions in a final detector, a two-stage
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deltaE-E telescop.
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REL-REF (I,,D.Rogalla+,J,NIM/A,437,266,1999)
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Recoil separator ERNA
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SAMPLE A windowless hydrogen gas target with a purity better
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than 99.9999%, confined by two thin argon layers.
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METHOD (EDE,ASEP,REC)
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MONITOR (1-H-1(4-BE-7,EL)1-H-1,,DA)
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ERR-ANALYS (ERR-SYS) Yields and cross sections are affected by an
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overall systematic uncertainty of 4%.
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(EN-ERR) The beam energy has a systematic uncertainty
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of 0.06%.
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(ERR-S) Statistical uncertainty
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HISTORY (20230308C) VS
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ENDBIB 33
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COMMON 2 3
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ERR-SYS EN-ERR
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PER-CENT PER-CENT
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4. 0.06
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ENDCOMMON 3
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ENDSUBENT 40
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SUBENT O2564002 20230308 20231027 20231026 O097
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BIB 3 6
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REACTION 1((1-H-1(4-BE-7,G)5-B-8,,SIG)=(4-BE-7(P,G)5-B-8,,SIG))
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2((1-H-1(4-BE-7,G)5-B-8,,SIG,,SFC)=
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(4-BE-7(P,G)5-B-8,,SIG,,SFC))
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FLAG (1.) Measurement 1
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(2.) Measurement 2
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STATUS (TABLE) Table 1 of Phys.Lett.B824(2022)136819
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ENDBIB 6
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NOCOMMON 0 0
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DATA 6 9
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EN-CM DATA 1ERR-S 1DATA 2ERR-S 2FLAG
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KEV MICRO-B MICRO-B B*EV B*EV NO-DIM
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367.2 0.087 0.014 14.7 2.3
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610.5 0.72 0.11 51.2 8.0
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632.2 1.27 0.13 86.1 9.0
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632.2 1.29 0.15 87.2 10.5 1.
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632.5 1.34 0.28 90.9 19.0 2.
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667.2 0.41 0.08 25.9 5.1
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697.8 0.34 0.12 20.0 7.4
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699.8 0.52 0.15 30.7 9.0
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812.2 0.51 0.10 25.3 5.1
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ENDDATA 11
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ENDSUBENT 22
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ENDENTRY 2

exforall/O25/O2565.x4

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ENTRY O2565 20230312 20231027 20231026 O097
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SUBENT O2565001 20230312 20231027 20231026 O097
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BIB 9 23
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TITLE Optimization of 68Ga production at an 18 MeV medical
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cyclotron with solid targets by means of
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cross-section measurement of 66Ga, 67Ga and 68Ga
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AUTHOR (S.Braccini, T.S.Carzaniga, G.Dellepiane,
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P.V.Grundler, P.Scampoli, N.P.van der Meulen,
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D.Wuethrich)
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INSTITUTE (2SWTUBE,2SWTPSI,2ITYNAP)
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REFERENCE (J,ARI,186,110252,2022)
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#doi:10.1016/j.apradiso.2022.110252
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FACILITY (CYCLO,2SWTUBE) IBA Cyclone 18/18
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DETECTOR (HPGE)
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METHOD (EDEG) The beam energy was degraded by means of
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aluminum attenuator discs.
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(ACTIV)
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(GSPEC)
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(BCINT)
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ERR-ANALYS (ERR-T) The following uncertainties contribute to the
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reported cross-section uncertainty:
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(ERR-1) Uncertainty due to flatness of the beam 5%
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(ERR-2) Uncertainty due to beam integration 1%
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(ERR-3) Uncertainty due to detector efficiency 3%
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(ERR-4,,3.) Uncertainty due to target mass
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HISTORY (20230312C) VS
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ENDBIB 23
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COMMON 3 3
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ERR-1 ERR-2 ERR-3
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PER-CENT PER-CENT PER-CENT
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5. 1. 3.
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ENDCOMMON 3
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ENDSUBENT 30
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SUBENT O2565002 20230312 20231027 20231026 O097
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BIB 4 5
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REACTION (30-ZN-0(P,X)31-GA-68,,SIG)
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DECAY-DATA (31-GA-68,67.71MIN,DG,1077.34,0.0322)
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SAMPLE Natural zinc foil of 4 mm in diameter and 10 um in
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thickness.
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STATUS (TABLE) Table 5 of Appl.Radiat.Isot.186(2022)110252
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ENDBIB 5
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NOCOMMON 0 0
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DATA 4 11
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EN EN-ERR DATA ERR-T
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MEV MEV MB MB
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3.8 0.6 14. 1.
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5.1 0.5 46. 3.
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6.5 0.4 81. 8.
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7.7 0.4 101. 7.
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9.7 0.4 134. 9.
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11.5 0.4 163. 10.
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13.0 0.4 136. 10.
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14.5 0.4 92. 6.
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15.8 0.4 57. 5.
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17.1 0.4 39. 4.
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18.2 0.4 26. 3.
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ENDDATA 13
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ENDSUBENT 23
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SUBENT O2565003 20230314 20231027 20231026 O097
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BIB 4 12
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REACTION ((30-ZN-67(P,G)31-GA-68,,SIG,,FCT)+
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(30-ZN-68(P,N)31-GA-68,,SIG,,FCT))
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FCT=target abundance in the sample
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DECAY-DATA (31-GA-68,67.71MIN,DG,1077.34,0.0322)
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SAMPLE Sample enriched in 68Zn, prepared as foil of 4 mm in
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diameter and few tens of um in thickness, with the
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following isotopic composition:
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Isotope: 64Zn 66Zn 67Zn 68Zn 70Zn
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Abundance: 0.0099 0.0081 0.0038 0.9780(20) 0.0002
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(30-ZN-67,ENR=0.0038)
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(30-ZN-68,ENR=0.9780)
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STATUS (TABLE) Table 5 of Appl.Radiat.Isot.186(2022)110252
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ENDBIB 12
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NOCOMMON 0 0
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DATA 4 11
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EN EN-ERR DATA ERR-T
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MEV MEV MB MB
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3.8 0.6 69. 4.
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5.1 0.5 215. 13.
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6.5 0.4 457. 28.
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7.7 0.4 554. 33.
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9.7 0.4 724. 45.
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11.5 0.4 807. 52.
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13.0 0.4 731. 44.
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14.5 0.4 505. 30.
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15.8 0.4 314. 19.
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17.1 0.4 205. 14.
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18.2 0.4 163. 10.
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ENDDATA 13
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ENDSUBENT 30
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SUBENT O2565004 20230314 20231027 20231026 O097
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BIB 5 11
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REACTION (30-ZN-68(P,N)31-GA-68,,SIG)
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DECAY-DATA (31-GA-68,67.71MIN,DG,1077.34,0.0322)
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SAMPLE (30-ZN-68,NAT=0.1845)
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Natural zinc foil of 4 mm in diameter and 10 um in
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thickness.
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(30-ZN-68,ENR=0.9780)
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Sample enriched in 68Zn prepared as foil of 4 mm in
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diameter and few tens of um in thickness.
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FLAG (1.) Measurements with natural Zn sample
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(2.) Measurements with sample enriched in 68Zn
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STATUS (TABLE) Table 6 of Appl.Radiat.Isot.186(2022)110252
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ENDBIB 11
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NOCOMMON 0 0
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DATA 5 22
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EN EN-ERR DATA ERR-T FLAG
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MEV MEV MB MB NO-DIM
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3.8 0.6 74. 6. 1.
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3.8 0.6 71. 4. 2.
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5.1 0.5 249. 18. 1.
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5.1 0.5 220. 13. 2.
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6.5 0.4 439. 43. 1.
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6.5 0.4 467. 29. 2.
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7.7 0.4 547. 37. 1.
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7.7 0.4 566. 34. 2.
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9.7 0.4 725. 48. 1.
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9.7 0.4 741. 46. 2.
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11.5 0.4 881. 56. 1.
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11.5 0.4 825. 53. 2.
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13.0 0.4 739. 54. 1.
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13.0 0.4 748. 45. 2.
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14.5 0.4 497. 34. 1.
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14.5 0.4 516. 30. 2.
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15.8 0.4 309. 25. 1.
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15.8 0.4 322. 20. 2.
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17.1 0.4 214. 20. 1.
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17.1 0.4 209. 14. 2.
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18.2 0.4 142. 16. 1.
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18.2 0.4 166. 10. 2.
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ENDDATA 24
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ENDSUBENT 40
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SUBENT O2565005 20230314 20231027 20231026 O097
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BIB 4 5
135+
REACTION (30-ZN-0(P,X)31-GA-67,,SIG)
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DECAY-DATA (31-GA-67,3.2617D,DG,93.31,0.3881)
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SAMPLE Natural zinc foil of 4 mm in diameter and 10 um in
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thickness.
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STATUS (TABLE) Table 7 of Appl.Radiat.Isot.186(2022)110252
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ENDBIB 5
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NOCOMMON 0 0
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DATA 4 11
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EN EN-ERR DATA ERR-T
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MEV MEV MB MB
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3.8 0.6 5.0 0.5
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5.1 0.5 11. 2.
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6.5 0.4 18. 3.
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7.7 0.4 20. 2.
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9.7 0.4 23. 3.
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11.5 0.4 22. 2.
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13.0 0.4 36. 3.
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14.5 0.4 72. 6.
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15.8 0.4 100. 8.
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17.1 0.4 107. 8.
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18.2 0.4 121. 9.
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ENDDATA 13
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ENDSUBENT 23
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SUBENT O2565006 20230314 20231027 20231026 O097
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BIB 5 23
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REACTION 1((30-ZN-66(P,G)31-GA-67,,SIG,,FCT)+
161+
(30-ZN-67(P,N)31-GA-67,,SIG,,FCT))
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FCT=target abundance in the sample
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2((30-ZN-66(P,G)31-GA-67,,SIG,,FCT)+
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(30-ZN-67(P,N)31-GA-67,,SIG,,FCT)+
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(30-ZN-68(P,2N)31-GA-67,,SIG,,FCT))
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FCT=target abundance in the sample
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DECAY-DATA (31-GA-67,3.2617D,DG,93.31,0.3881)
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SAMPLE Sample enriched in 68Zn, prepared as foil of 4 mm in
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diameter and few tens of um in thickness, with the
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following isotopic composition:
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Isotope: 64Zn 66Zn 67Zn 68Zn 70Zn
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Abundance: 0.0099 0.0081 0.0038 0.9780(20) 0.0002
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(30-ZN-66,ENR=0.0081)
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(30-ZN-67,ENR=0.0038)
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(30-ZN-68,ENR=0.9780)
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COMMENT By compiler: Results reported for the enriched sample
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compiled as sum of contributing reactions considering
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the following reaction thresholds:
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67Ga production: Reaction E threshold
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67Zn+p 1.8 MeV
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68Zn+p 12.16 MeV
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STATUS (TABLE) Table 7 of Appl.Radiat.Isot.186(2022)110252
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ENDBIB 23
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NOCOMMON 0 0
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DATA 6 11
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EN EN-ERR DATA 1ERR-T 1DATA 2ERR-T 2
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MEV MEV MB MB MB MB
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3.8 0.6 0.4 0.1
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5.1 0.5 0.8 0.3
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6.5 0.4 1.9 0.6
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7.7 0.4 2.4 0.8
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9.7 0.4 2.8 0.6
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11.5 0.4 3.1 0.8
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13.0 0.4 104. 8.
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14.5 0.4 326. 23.
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15.8 0.4 489. 35.
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17.1 0.4 546. 41.
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18.2 0.4 625. 43.
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ENDDATA 13
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ENDSUBENT 41
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SUBENT O2565007 20230314 20231027 20231026 O097
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BIB 4 9
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REACTION (30-ZN-67(P,N)31-GA-67,,SIG)
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DECAY-DATA (31-GA-67,3.2617D,DG,93.31,0.3881)
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SAMPLE (30-ZN-67,NAT=0.0404)
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Natural zinc foil of 4 mm in diameter and 10 um in
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thickness.
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(30-ZN-67,ENR=0.0038)
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Sample enriched in 68Zn prepared as foil of 4 mm in
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diameter and few tens of um in thickness.
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STATUS (TABLE) Table 8 of Appl.Radiat.Isot.186(2022)110252
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ENDBIB 9
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NOCOMMON 0 0
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DATA 4 11
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EN EN-ERR DATA ERR-T
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MEV MEV MB MB
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3.8 0.6 125. 12.
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5.1 0.5 276. 39.
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6.5 0.4 435. 63.
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7.7 0.4 490. 57.
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9.7 0.4 580. 72.
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11.5 0.4 549. 62.
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13.0 0.4 422. 38.
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14.5 0.4 264. 32.
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15.8 0.4 183. 25.
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17.1 0.4 107. 13.
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18.2 0.4 72. 22.
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ENDDATA 13
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ENDSUBENT 27
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SUBENT O2565008 20230314 20231027 20231026 O097
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BIB 4 9
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REACTION (30-ZN-68(P,2N)31-GA-67,,SIG)
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DECAY-DATA (31-GA-67,3.2617D,DG,93.31,0.3881)
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SAMPLE (30-ZN-68,NAT=0.1845)
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Natural zinc foil of 4 mm in diameter and 10 um in
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thickness.
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(30-ZN-68,ENR=0.9780)
238+
Sample enriched in 68Zn prepared as foil of 4 mm in
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diameter and few tens of um in thickness.
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STATUS (TABLE) Table 8 of Appl.Radiat.Isot.186(2022)110252
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ENDBIB 9
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NOCOMMON 0 0
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DATA 4 5
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EN EN-ERR DATA ERR-T
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MEV MEV MB MB
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13.0 0.4 105. 8.
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14.5 0.4 333. 23.
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15.8 0.4 499. 35.
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17.1 0.4 558. 42.
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18.2 0.4 638. 44.
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ENDDATA 7
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ENDSUBENT 21
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SUBENT O2565009 20230314 20231027 20231026 O097
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BIB 5 7
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REACTION (30-ZN-0(P,X)31-GA-66,,SIG)
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DECAY-DATA (31-GA-66,9.49HR,DG,1039.220,0.370)
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SAMPLE Natural zinc foil of 4 mm in diameter and 10 um in
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thickness.
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ERR-ANALYS (ERR-5) Uncertainty of the branching ratio of the
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1039 keV gamma-ray 5.4%.
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STATUS (TABLE) Table 9 of Appl.Radiat.Isot.186(2022)110252
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ENDBIB 7
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COMMON 1 3
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ERR-5
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PER-CENT
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5.4
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ENDCOMMON 3
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DATA 4 10
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EN EN-ERR DATA ERR-T
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MEV MEV MB MB
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5.1 0.5 5. 1.
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6.5 0.4 63. 6.
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7.7 0.4 99. 8.
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9.7 0.4 141. 12.
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11.5 0.4 171. 14.
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13.0 0.4 172. 15.
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14.5 0.4 151. 12.
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15.8 0.4 112. 9.
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17.1 0.4 83. 7.
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18.2 0.4 56. 5.
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ENDDATA 12
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ENDSUBENT 28
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SUBENT O2565010 20230314 20231027 20231026 O097
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BIB 6 22
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REACTION 1(30-ZN-66(P,N)31-GA-66,,SIG,,FCT)
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FCT=target abundance in the sample
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2((30-ZN-66(P,N)31-GA-66,,SIG,,FCT)+
288+
(30-ZN-67(P,2N)31-GA-66,,SIG,,FCT))
289+
FCT=target abundance in the sample
290+
DECAY-DATA (31-GA-66,9.49HR,DG,1039.220,0.370)
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SAMPLE Sample enriched in 68Zn, prepared as foil of 4 mm in
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diameter and few tens of um in thickness, with the
293+
following isotopic composition:
294+
Isotope: 64Zn 66Zn 67Zn 68Zn 70Zn
295+
Abundance: 0.0099 0.0081 0.0038 0.9780(20) 0.0002
296+
(30-ZN-66,ENR=0.0081)
297+
(30-ZN-67,ENR=0.0038)
298+
COMMENT By compiler: Results reported for the enriched sample
299+
compiled as sum of contributing reactions considering
300+
the following reaction thresholds:
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66Ga production: Reaction E threshold
302+
67Zn+p 6.05 MeV
303+
68Zn+p 13.2 MeV
304+
ERR-ANALYS (ERR-5) Uncertainty of the branching ratio of the
305+
1039 keV gamma-ray 5.4%.
306+
STATUS (TABLE) Table 9 of Appl.Radiat.Isot.186(2022)110252
307+
ENDBIB 22
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COMMON 1 3
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ERR-5
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PER-CENT
311+
5.4
312+
ENDCOMMON 3
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DATA 6 9
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EN EN-ERR DATA 1ERR-T 1DATA 2ERR-T 2
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MEV MEV MB MB MB MB
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6.5 0.4 2.0 0.3
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7.7 0.4 3.1 0.4
318+
9.7 0.4 4.6 0.9
319+
11.5 0.4 4.9 0.9
320+
13.0 0.4 6. 1.
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14.5 0.4 4.6 0.5
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15.8 0.4 3.8 0.6
323+
17.1 0.4 3.2 0.4
324+
18.2 0.4 2.6 0.3
325+
ENDDATA 11
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ENDSUBENT 42
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ENDENTRY 10

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