83Y 83ZR EC DECAY 1992BU10,1987RA06 15NDS 201503
83Y H TYP=FUL$AUT=E.A. MCCUTCHAN$CIT=NDS 125, 201 (2015)$CUT=31-Dec-2014$
83Y c 1992Bu10, 1987Ra06: {+83}Zr activity produced in the
83Y 2c {+nat}Mo({+3}He,X) reaction with E({+3}He)=280 MeV followed by mass
83Y 3c separation. Measured E|g, I|g, |g|g, |g|g(t), |b|g coin,
83Y c 1982De36: {+83}Zr activity produced in the {+54}Fe({+32}S,2pn)
83Y 2c reaction with E({+32}S)=100-160 MeV followed by separation in a |b
83Y 3c recoil time of flight mass spectrometer. Measured E|b, I|b, E|g, I|g,
83Y 4c x-rays, |b|g, |g|g, |g-x-ray coincidences, |g(t) using a Ge(Li)
83Y 5c detector, a thick plastic scintillator, and an x-ray detector.
83Y c Others: 1982Li17, 1981SaZO
83Y c A total energy release of 6300 keV {I300} is calculated for this
83Y 2c decay scheme using the RADLST code, in good agreement with the Q
83Y 3c value of 6294 keV {I20}.
83Y cE TI$Derived from an intensity imbalance at each level.
83Y cG E,RI$From 1992Bu10, except where noted.
83Y cG E(d)$From 1982De36.
83Y cG RI(D)$I|g deduced from |g|g coincidence data.
83Y cG E(n),RI(m)$From 1987Ra06. Authors do not provide uncertainties.
83Y 2cG However, since 1992Bu10 are from the same set up and similar authors,
83Y 3cG the evaluator assumes the uncertainties are comparable and takes
83Y 4cG |DE|g=0.3 keV and |DI|g=10%.
83Y cL $1992Bu10 and 1987Ra06 report a level at 483.9 keV deexcited by a
83Y 2cL 324.6-keV |g ray to the 97.1 level, obviously a mistake. |g|g-coin
83Y 3cL data in 1987Ra06 show the 324.6 and 97.1 |g rays to be in
83Y 4cL coincidence. Therefore, the 324.6 |g ray deexcites the 422.0 level.
83Y cL E$From a least-squares fit to E|g, by evaluator.
83Y cL J$From the Adopted Levels.
83Y cL T$From the Adopted Levels, except where noted.
83Y D CC$FROM BrIcc v2.3 (29-Mar-2013) 2008Ki07, "Frozen Orbitals" appr.
83ZR P 0.0 (1/2-) 42 S 2 6294 20
83Y N 0.076 8 1.0 1.0
83Y cN NR$deduced from decay scheme assuming |SI(|g+ce)(to g.s.)=100%.
83Y 2cN Ground state feeding is not expected with |DJ=4, |D|p=yes.
83Y PN 3
83Y G 1132.8 3 1 AP
83Y X G FLAG=d
83Y L 0.0 9/2+ 7.08 M 8
83Y L 62.02 24 3/2- 2.85 M 2
83Y G 62.1 3 5.5 6 E3 90.8 25
83Y F G FLAG=nm
83Y S G KC=45.6 11$LC=37.7 12$MC=6.71 22$NC=0.763 24$OC=0.00557 13
83Y cG RI$corrected for T{-1/2}=2.8-min isomer decay.
83Y cG $|a(K)exp=73 {I18}, ce(K)/(ce(L)+ce(M)+ce(N))exp=1.06 {I37}
83Y 2cG (1987Ra06).
83Y cG M$from |a(K)exp and subshell ratio.
83Y E 59 6 0.84 9 5.3 1 60 6
83Y S E EAV=2414.8 97$CK=0.01227 14$CL=0.001443 17$CM+=0.000319 4
83Y L 97.1 3 5/2+ 9.8 NS 10
83Y cL T$from delayed coincidence of 234|g-97|g (centroid shift) in 1987Ra06.
83Y G 97.1 3 21.4 21 E2 1.185 22
83Y F G FLAG=nm
83Y S G KC=0.983 18$LC=0.169 4$MC=0.0291 6$NC=0.00360 7$OC=0.000145 3
83Y cG $|a(K)exp=1.00 {I25}, |a(L+...)exp=0.31 {I8} (1987Ra06).
83Y cG M$from |a(K)exp
83Y E 1.6 5 0.053 168.67 13 1.7 5 1U
83Y S E EAV=2395.9 96$CK=0.0272 4$CL=0.00321 4$CM+=0.000712 9
83Y L 117.58 24 (1/2-)
83Y G 55.55 4 100 5 M1 0.957
83Y F G FLAG=d
83Y S G KC=0.840 12$LC=0.0981 14$MC=0.01681 24$NC=0.00225 4$OC=0.0001513 22
83Y cG $|a(K)exp=1.2 {I3}, |a(L+...)exp=0.13 {I3} (1987Ra06); |a(exp)=1.1
83Y 2cG {I2} (1982De36).
83Y cG RI$|DI|g estimated by evaluator.
83Y cG M$from ce data. |d<0.2 from |a(exp).
83Y E 8.2 180.12 3 6.14 10 8.3 18
83Y S E EAV=2387.9 97$CK=0.01266 15$CL=0.001489 17$CM+=0.000330 4
83Y L 144.88 24 7/2+
83Y G 144.8 3 4.7 5 M1 0.0660
83Y F G FLAG=nm
83Y S G KC=0.0581 9$LC=0.00664 10$MC=0.001137 18$NC=0.0001524 23$
83Y S G OC=1.044E-5 16
83Y cG $|a(exp)=0.074 {I29} (1992Bu10)
83Y cG M$from |a(exp)
83Y E 0.30 8 0.0044 127.58 12 0.30 8
83Y S E EAV=2374.7 97$CK=0.01286 15$CL=0.001512 18$CM+=0.000335 4
83Y L 167.03 24 5/2-
83Y G 70.0 3 1.1 1
83Y F G FLAG=Dnm
83Y G 105.01 4 85 9 M1 0.1585
83Y F G FLAG=dm
83Y S G KC=0.1393 20$LC=0.01606 23$MC=0.00275 4$NC=0.000368 6$OC=2.51E-5 4
83Y cG $|a(K)exp=0.5 {I1}, |a(L+...)exp=0.017 {I4} (1987Ra06); |a(exp)=0.9
83Y 2cG {I6} (1982De36)
83Y cG RI$other: 76 {I3} (1982De06)
83Y cG M$from ce data in 1987Ra06. |a(exp) from 1982De36 suggests E2,
83Y 2cG however, uncertainty on the measurement is large.
83Y E 1.5 130.022 196.9 4 1.5 13
83Y S E EAV=2364.0 97$CK=0.01302 15$CL=0.001532 18$CM+=0.000339 4
83Y L 331.60 25 (5/2+)
83Y G 164.5 3 1 LT ?
83Y F G FLAG=nm
83Y G 186.7 3 1 LT
83Y F G FLAG=nm
83Y G 234.5 3 12.6 13 M1 0.0186
83Y F G FLAG=nm
83Y S G KC=0.01640 24$LC=0.00185 3$MC=0.000316 5$NC=4.25E-5 7$OC=2.93E-6 5
83Y cG $|a(exp)=0.020 {I6} (1992Bu10)
83Y cG M$from |a(exp)
83Y E 0.58 160.022 6 8.99 13 0.60 17 1U
83Y S E EAV=2284.1 96$CK=0.0313 4$CL=0.00370 5$CM+=0.000820 11
83Y L 421.80 24 (3/2-)
83Y G 254.76 4 50 5 M1 0.01506
83Y F G FLAG=dm
83Y S G KC=0.01328 19$LC=0.001492 21$MC=0.000255 4$NC=3.43E-5 5$OC=2.37E-6 4
83Y cG $|a(exp)=0.015 {I3} (1992Bu10)
83Y cG RI$other: 63 {I3} (1982De06)
83Y cG M$from |a(exp).
83Y G 304.21 4 54 5 M1(+E2) 0.015 5
83Y F G FLAG=dm
83Y S G KC=0.013 5$LC=0.0015 6$MC=0.00026 10$NC=3.4E-5 13$OC=2.2E-6 7
83Y cG $|a(exp)=0.011 {I2} (1992Bu10)
83Y cG RI$other: 54 {I3} (1982De06).
83Y cG M$from |a(exp); |d < 0.7 from |a(exp)
83Y G 324.6 3 8.5 9
83Y F G FLAG=nm
83Y cG E$transition was placed incorrectly from a 483.9 level by 1992Bu06
83Y 2cG and 1987Ra06.
83Y G 359.80 5 40 4
83Y F G FLAG=dm
83Y cG RI$other: 36 {I2} (1982De06)
83Y E 10.3 9 0.181 165.9 1 10.5 9
83Y S E EAV=2240.7 97$CK=0.01511 19$CL=0.001778 22$CM+=0.000393 5
83Y L 436.8 3 (5/2)
83Y G 269.8 3 3.8 4
83Y F G FLAG=nm
83Y G 374.8 3 9.2 9
83Y F G FLAG=nm
83Y E 0.60 120.011 2 7.2 1 0.61 12
83Y S E EAV=2233.5 97$CK=0.01525 19$CL=0.001794 22$CM+=0.000397 5
83Y L 536.40 24 (7/2-)
83Y G 114.5 3 1 LT
83Y F G FLAG=nm
83Y G 370.1 3 1 LT
83Y F G FLAG=nm
83Y G 418.8 2 1 LT ?
83Y G 474.38 6 58 6
83Y F G FLAG=Ddm
83Y cG RI$other: 68 {I5} (1982De06)
83Y E 3.4 7 0.065 136.4 1 3.5 7
83Y S E EAV=2185.4 97$CK=0.01620 20$CL=0.001906 24$CM+=0.000422 6
83Y L 564.6 3 (1/2-,3/2,5/2-)
83Y G 397.6 3 4.0 4
83Y F G FLAG=Dnm
83Y G 447.0 2 2.0 4
83Y F G FLAG=D
83Y G 502.5 3 8.2 8
83Y F G FLAG=Dnm
83Y E 0.98 100.019 2 6.9 1 1.0 1
83Y S E EAV=2171.7 97$CK=0.01648 21$CL=0.001940 25$CM+=0.000429 6
83Y L 565.5 3 (1/2-,3/2,5/2-)
83Y G 398.5 3 4.0 4
83Y F G FLAG=Dnm
83Y G 448.0 3 8.9 9
83Y F G FLAG=nm
83Y G 503.5 3 12.4 12
83Y F G FLAG=Dnm
83Y E 1.8 2 0.034 4 6.6 1 1.8 2
83Y S E EAV=2171.3 97$CK=0.01649 21$CL=0.001941 25$CM+=0.000429 6
83Y L 570.4 3 (3/2+,5/2)
83Y G 238.9 3 1 LT
83Y F G FLAG=nm
83Y G 425.5 3 1 LT
83Y F G FLAG=nm
83Y E 0.08 5 0.003 2 9.7 3 0.08 5 1U
83Y S E EAV=2170.5 95$CK=0.0364 5$CL=0.00431 6$CM+=0.000955 13
83Y L 642.4 3 (3/2,5/2-)
83Y G 220.6 3 5.1 5
83Y F G FLAG=nm
83Y G 310.5 3 2.2 2
83Y F G FLAG=nm
83Y G 475.4 3 11.2 11
83Y F G FLAG=Dnm
83Y G 524.8 3 7.4 7
83Y F G FLAG=Dnm
83Y G 580.3 3 4.4 4
83Y F G FLAG=nm
83Y E 1.7 4 0.034 8 6.62 11 1.7 4
83Y S E EAV=2134.2 97$CK=0.01730 22$CL=0.00204 3$CM+=0.000451 6
83Y L 722.2 3 (3/2-,5/2)
83Y G 185.9 3 1 LT
83Y G 285.4 3 1 LT
83Y F G FLAG=nm
83Y G 300.3 2 1 LT ?
83Y G 660.2 3 6.8 7
83Y F G FLAG=nm
83Y E 0.51 110.011 2 7.10 10 0.52 11
83Y S E EAV=2095.7 97$CK=0.01820 24$CL=0.00214 3$CM+=0.000474 7
83Y L 855.5 3 (3/2)
83Y G 133.0 3 1 LT
83Y F G FLAG=nm
83Y G 213.2 3 4.7 5
83Y F G FLAG=nm
83Y G 290.0 3 1.3 2
83Y L G FL=565.5
83Y F G FLAG=Dnm
83Y G 291.0 3 1.0 1
83Y F G FLAG=Dnm
83Y G 319.2 3 6.2 6
83Y F G FLAG=nm
83Y G 418.7 3 2.1 2
83Y F G FLAG=Dnm
83Y G 433.7 3 2.1 2
83Y F G FLAG=nm
83Y G 524.1 3 1 LT
83Y F G FLAG=nm
83Y G 688.4 3 3.9 4
83Y F G FLAG=nm
83Y G 758.5 3 2.6 3
83Y F G FLAG=nm
83Y G 793.5 3 37 4
83Y F G FLAG=nm
83Y E 4.6 4 0.11 1 6.1 1 4.7 4
83Y S E EAV=2031.5 97$CK=0.0198 3$CL=0.00233 3$CM+=0.000517 7
83Y L 882.4 4
83Y G 550.8 3 2.2 2
83Y F G FLAG=nm
83Y E 0.17 3 0.0039 7 7.5 1 0.17 3
83Y S E EAV=2018.6 97$CK=0.0202 3$CL=0.00238 4$CM+=0.000526 7
83Y L 1249.7 3 (3/2-)
83Y G 713.4 3 3.0 3
83Y F G FLAG=nm
83Y G 827.8 2 2.2 4
83Y G 1132.1 2 7.6 8
83Y E 0.94 100.029 3 6.6 1 0.97 10
83Y S E EAV=1842.2 96$CK=0.0260 4$CL=0.00306 5$CM+=0.000677 10
83Y L 1955.9 4
83Y G 1519.1 3 1.0 2
83Y E 0.072 160.0039 9 7.32 10 0.076 17
83Y S E EAV=1505.4 95$CK=0.0452 8$CL=0.00533 10$CM+=0.001179 21
83Y L 2083.0 3 (3/2-)
83Y G 1361.1 3 1.0 2
83Y G 1546.8 4 1.5 3
83Y G 1661.3 3 3.5 4
83Y G 1751.3 4 1 LT
83Y G 1915.8 3 1.3 4
83Y G 1964.9 5 3.3 4 ?
83Y G 2020.8 5 3.0 4
83Y E 1.0 1 0.064 6 6.1 1 1.1 1
83Y S E EAV=1445.2 95$CK=0.0505 9$CL=0.00595 11$CM+=0.001318 24
83Y L 2136.7 3 (3/2)
83Y G 1494.3 2 2.7 4
83Y G 1600.5 3 2.7 3
83Y G 1699.9 5 1.4 2
83Y G 1714.8 4 1 LT
83Y G 2074.8 4 5.0 5
83Y E 0.87 8 0.056 6 6.1 1 0.93 9
83Y S E EAV=1419.8 95$CK=0.0530 10$CL=0.00625 12$CM+=0.00138 3
83Y L 2260.0 4
83Y G 1838.1 7 1.6 4 ?
83Y G 2142.4 4 1.6 4
83Y E 0.22 5 0.016 3 6.64 10 0.24 5
83Y S E EAV=1361.5 95$CK=0.0593 12$CL=0.00700 14$CM+=0.00155 3
83Y L 2738.1 6
83Y G 2316.3 5 1 LT
83Y E 0.04 4 0.004 4 7.1 5 0.04 4
83Y S E EAV=1137.0 94$CK=0.0956 21$CL=0.01129 25$CM+=0.00250 6