59CU 59ZN EC DECAY 1981HO19,1984AR12 18NDS 201808
59CU H TYP=FUL$AUT=M. Shamsuzzoha Basunia$CIT=NDS 151, 1 (2018)$
59CU2 H CUT=1-Apr-2018$
59CU C Others: 1981AR13, 2014Ru08, 2017RuZX.
59CU C 1981HO19: production: 58NI(3HE,2N), E=25 MEV. Measured EP and I(p) for
59CU2C B-delayed protons, EG, IG, p(T); GE(LI) and SI detectors, 98% 58NI
59CU3C target.
59CU C 1984AR12, 1981AR13: production and identification: 58NI(3HE,2N), E AP
59CU2C 20 MEV, mass separation. Measured EB, EG, IG, B(T), I(B-delayed
59CU3C protons); high purity Ge detectors and SI(AU) DE-E telescope; FWHM=15
59CU4C KEV for delayed protons.
59CU CL E For bound levels: from EG. For unbound levels (E>3418):
59CU2CL from EP(lab) (1981HO19) and SP=3418.6 4 (2017Wa10). Data from
59CU3CL 1981Ho19 are in excellent agreement with those from 58NI(P,G)
59CU4CL and 58NI(3HE,DP) studies.
59CU CL J From Adopted Levels.
59CU CG E,RI From 1984AR12.
59CU CG M,MR From adopted gammas.
59CU CE E Measured E(B+)(max)=8100 100 (1981AR13,1984AR12).
59CU CE TI For bound levels: from IG imbalance. For unbound levels:
59CU2CE from measured proton intensities of 1981HO19 renormalized so total
59CU3CE I(p)=0.10% 3 (adopted value) combined with WIDTHP/WIDTH, assuming
59CU4CE WIDTHP/WIDTH=1, except when data are available from
59CU5CE 58NI(3HE,DP) (1976GA19).
59CU CL E(A) Level not reported in 58NI(3HE,DP) reaction (1976GA19).
59CU CL E(D) Correspondence of this level to the 5923 level of 1976GA19
59CU2CL is not certain.
59CU CL E(E) From 1984AR12 (fig. 4); IB quoted as 0.003%. Source of data
59CU2CL unclear, so evaluator has indicated existence of level as tentative.
59CU DG CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
59CU N 1.0 1.0 1.0
59CU CN NR from I(491G)/IB(total)=4.8% 6
59CU2CN (measured in planar HPGe detector which detected both B and G) and
59CU3CN I(B+-p)=0.10% 3 (1984AR12) and intensity imbalance at 491 and 914
59CU4CN levels. Other I(491G): 5% 2 (1981HO19) from measured
59CU5CN intensity relative to G+- radiation
59CU6CN (allowing 10% correction for annihilation in flight).
59CU PN 3
59ZN P 0.0 3/2- 178.6 MS 18 9142.8 6
59CU L 0.0 3/2- 81.5 S 5
59CU E 94 3 0.108 4 3.698 15 94.1 30
59CUS E EAV=3846.04$CK=0.0010139 3$CL=0.0001103$CM+=1.9254E-5 5
59CU L 491.4 1 1/2-
59CU E 4.8 6 0.0066 8 4.86 6 4.8 6
59CUS E EAV=3603.58$CK=0.0012194 3$CL=0.0001327$CM+=2.3157E-5 6
59CU G 491.4 1 4.8 6 M1(+E2) 0.37 LT 0.001086
59CUS G KC=0.00097 5$LC=9.6E-5 6$MC=1.36E-5 8
59CUS G NC=4.12E-7 21
59CU L 914.2 1 5/2-
59CU E 1.1 2 0.0018 3 5.39 8 1.1 2
59CUS E EAV=3395.26$CK=0.0014431 4$CL=0.0001571$CM+=2.7409E-5 7
59CU G 423 0.2 LT ?
59CU CG RI after correction for I(423G) from daughter (59CU) EC decay.
59CU2CG Existence of transition uncertain.
59CU G 914.2 1 1.1 2 M1+E2 -0.21 2 2.71E-4
59CUS G KC=0.000243 4$LC=2.40E-5 4$MC=3.38E-6 5
59CUS G NC=1.037E-7 15
59CU L 4347 10(1/2)-
59CU CL $EP(lab)=913 KEV 10 and ^I(p)=7 |* 10{+-5} {I3} (1981Ho19).
59CU E 0.011 5 0.000125 6.09 20 0.011 5
59CUS E EAV=1721.1 49$CK=0.00975 8$CL=0.001062 9$CM+=0.0001854 1
59CU CE TI$Using WIDTHP/WIDTH=0.27 2 (1976GA19) and I(p)=0.0030% 13
59CU2CE (1981Ho19-normalized).
59CU L 4500 5 (1/2)-
59CU CL $EP(lab)=1063 KEV 5 and ^I(p)=14 |* 10{+-5} {I5} (1981Ho19).
59CU E 0.019 7 0.000249 5.77 16 0.019 7
59CUS E EAV=1647.6 25$CK=0.01101 5$CL=0.001200 5$CM+=0.0002095 9
59CU CE TI$Using WIDTHP/WIDTH=0.31 3 (1976GA19) and I(p)=0.0060% 21
59CU2CE (1981Ho19-normalized).
59CU L 4704 10 1/2-,3/2-
59CU CL $EP(lab)=1264 KEV 10 and ^I(p)=4 |* 10{+-5} {I3} (1981Ho19).
59CU E 0.0029 22 4.E-5 3 6.5 4 0.0029 22
59CUS E EAV=1549.8 48$CK=0.01307 12$CL=0.001425 13$CM+=0.0002486 2
59CU CE TI$Using WIDTHP/WIDTH=0.59 3 (1976GA19) and I(p)=0.0017% 13
59CU2CE (1981Ho19-normalized).
59CU L 4773 10 3/2-
59CU CL $EP(lab)=1331 KEV 10 and ^I(p)=4 |* 10{+-5} {I3} (1981Ho19).
59CU E 0.0026 20 4.E-5 3 6.5 4 0.0026 20
59CUS E EAV=1516.9 48$CK=0.01388 13$CL=0.001513 14$CM+=0.0002641 2
59CU CE TI$Using WIDTHP/WIDTH=0.65 4 (1976GA19) and I(p)=0.0017% 13
59CU2CE (1981Ho19-normalized).
59CU L 4818 5 3/2-
59CU CL $EP(lab)=1376 KEV 5 and ^I(p)=23 |* 10{+-5} {I7} (1981Ho19).
59CU E 0.014 4 0.000237 5.72 13 0.014 4
59CUS E EAV=1495.4 24$CK=0.01444 7$CL=0.001575 8$CM+=0.0002748 1
59CU CE TI$Using WIDTHP/WIDTH=0.69 3 (1976GA19) and I(p)=0.0098% 30
59CU2CE (1981Ho19-normalized).
59CU L 5227 5 1/2-
59CU CL $EP(lab)=1778 KEV 5 and ^I(p)=45 |* 10{+-5} {I13} (1981Ho19).
59CU E 0.032 9 0.0007922 5.09 12 0.033 9
59CUS E EAV=1300.8 24$CK=0.02131 11$CL=0.002325 12$CM+=0.0004058 2
59CU CE TI$Using WIDTHP/WIDTH=0.59 2 (1976GA19) and I(p)=0.0019% 6
59CU2CE (1981Ho19-normalized).
59CU L 5267 5 3/2-
59CU CL $EP(lab)=1817 KEV 5 and ^I(p)=26 |* 10{+-5} {I8} (1981Ho19).
59CU E 0.011 3 0.000288 5.54 12 0.011 3
59CUS E EAV=1281.8 24$CK=0.02221 12$CL=0.002422 13$CM+=0.0004228 2
59CU CE TI$Assuming WIDTHP/WIDTH=1 and I(p)=0.011% 3 (1981Ho19-normalized).
59CU L 5308 5 (1/2)-
59CU CL $EP(lab)=1857 KEV 5 and ^I(p)=17 |* 10{+-5} {I6} (1981Ho19).
59CU E 0.007 3 0.000207 5.68 16 0.0075 27
59CUS E EAV=1262.4 24$CK=0.02317 13$CL=0.002527 14$CM+=0.0004412 2
59CU CE TI$Using WIDTHP/WIDTH=0.97 3 (1976GA19) and I(p)=0.0073% 26
59CU2CE (1981Ho19-normalized).
59CU L 5479 5 A
59CU CL $EP(lab)=2025 KEV 5 and ^I(p)=16 |* 10{+-5} {I5} (1981Ho19).
59CU E 0.0066 20 0.000217 5.60 14 0.0068 21
59CUS E EAV=1181.6 24$CK=0.02785 16$CL=0.003039 17$CM+=0.000530 3
59CU CE TI$Assuming WIDTHP/WIDTH=1 and I(p)=0.0068% 21 (1981Ho19-normalized).
59CU L 5544 5 1/2-,3/2-,5/2- A
59CU CL $EP(lab)=2089 KEV 5 and ^I(p)=28 |* 10{+-5} {I9} (1981Ho19).
59CU E 0.012 4 0.0004114 5.31 15 0.012 4
59CUS E EAV=1151.0 24$CK=0.02996 18$CL=0.003269 19$CM+=0.000571 4
59CU CE TI$Assuming WIDTHP/WIDTH=1 and I(p)=0.012% 4 (1981Ho19-normalized).
59CU L 5638 10 (3/2,5/2)-
59CU CL $EP(lab)=2182 KEV 10 and ^I(p)=11 |* 10{+-5} {I4} (1981Ho19).
59CU E 0.0045 16 0.000186 5.65 16 0.0047 17
59CUS E EAV=1106.8 47$CK=0.0334 4$CL=0.00364 5$CM+=0.000636 8
59CU CE TI$Assuming WIDTHP/WIDTH=1 and I(p)=0.0047% 17 (1981Ho19-normalized).
59CU L 5653 10 5/2-
59CU CL $EP(lab)=2197 KEV 10 and ^I(p)=10 |* 10{+-5} {I4} (1981Ho19).
59CU E 0.0042 17 0.000177 5.66 18 0.0044 18
59CUS E EAV=1099.8 47$CK=0.0340 4$CL=0.00371 5$CM+=0.000648 8
59CU CE TI$Using WIDTHP/WIDTH=0.98 4 (1976GA19) and I(p)=0.0043% 17
59CU2CE (1981Ho19-normalized).
59CU L 5707 10 5/2-
59CU CL $EP(lab)=2250 KEV 10 and ^I(p)=8 |* 10{+-5} {I3} (1981Ho19).
59CU E 0.0035 12 0.000155 5.71 16 0.0036 13
59CUS E EAV=1074.5 47$CK=0.0363 5$CL=0.00396 5$CM+=0.000691 9
59CU CE TI$Using WIDTHP/WIDTH=0.96 6 (1976GA19) and I(p)=0.0034% 13
59CU2CE (1981Ho19-normalized).
59CU L 5870 15 3/2-,5/2-
59CU CL $EP(lab)=2410 KEV 15 and ^I(p)=16 |* 10{+-5} {I6} (1981Ho19).
59CU E 0.0066 25 0.0003513 5.30 17 0.0069 26
59CUS E EAV=998.3 70$CK=0.0444 9$CL=0.00485 10$CM+=0.000847 17
59CU CE TI$Using WIDTHP/WIDTH=0.98 2 (1976GA19) and I(p)=0.0068% 26
59CU2CE (1981Ho19-normalized).
59CU L 5916 15 1/2-,3/2- D
59CU CL $EP(lab)=2455 KEV 15 and ^I(p)=5 |* 10{+-5} {I2} (1981Ho19).
59CU E 0.0020 9 0.000115 5.78 19 0.0021 9
59CUS E EAV=976.8 70$CK=0.0472 10$CL=0.00515 11$CM+=0.000899 18
59CU CE TI$Assuming WIDTHP/WIDTH=1 and I(p)=0.0021% 9 (1981Ho19-normalized).
59CU L 6460 15 E ?
59CU CL E$Uncertainty estimated by evaluator from data in 1981Ho19. EP(lab)
59CU2CL not listed in 1984Ar12.
59CU E 0.003 0.0004 5.1 0.003 ?
59CUS E EAV=725.8 69$CK=0.105 3$CL=0.0115 3$CM+=0.00201 5
59CU CE TI$From 1984Ar12