135XE 135I B- DECAY (6.58 H) 1982WA21,1991GO09,1972AC0208NDS 200803
135XE H TYP=FUL$AUT=BALRAJ SINGH, ALEXANDER A. RODIONOV and YURI L. KHAZOV$
135XE2 H CIT=NDS 109, 517 (2008)$CUT=22-Jan-2008$
135XE c 1982Wa21: measured E|g, I|g, |g|g, T{-1/2}, deduced level scheme and
135XE2c proposed detailed shell-model configurations
135XE c 1991Go09: measured |g|g(|q)
135XE c 1972Ac02: measured ce
135XE c Others:
135XE c |g: 1979Bo26, 1971Ma37, 1971Sa09, 1970Ma19, 1968Al16
135XE c |b, |b|g: 1999Fo01 (deduced Q(|b{+-}) value), 1976Lu04, 1970Ma19
135XE2c (also 1970Ma58), 1955Wa35
135XE c |g|g(|q): 1972Be90, 1971Ma37
135XE c T{-1/2} and production of {+135}I: 1971Ha13, 1955Wa35, 1953Pa25,
135XE2c 1950Ka06, 1950Gl09, 1950Su32, 1945Wu05, 1940Do07, 1940Wu05
135XE c {+135}Xe isomer decay: 1976Fe04, 1975Fu12, 1974Da01
135XE c Others: 1973GeZZ, 1972JoZL
135XE c Total decay energy of 2548 keV {I22} calculated (by RADLIST code) from
135XE2c level scheme is somewhat lower than the expected value of 2627 keV {I6}
135XE cB $Intensity balance gives an unrealistic feeding of 0.28% {I8} to
135XE2cB 288.5, 1/2+ level. It is possible that some of the transitions
135XE3cB populating this levels have not been detected. Limits of feeding to
135XE4cB other levels are: <0.1 to 1448; <0.015 to 1543; <0.03 to 1781 and
135XE5cB 2048 levels
135XE cG $A{-2} and A{-4} coefficients are from 1991Go09, unless otherwise
135XExcG stated
135XE cG E$From 1982Wa21. A calibration uncertainty of 15 eV, as stated by
135XE2cG 1982Wa21, is added in quadrature to authors' fitting uncertainty
135XE cG RI$From 1982Wa21. Fitting uncertainty only is given
135XE cG M$From |a(K)exp when given outside parentheses. From large |d(Q/D)
135XE2cG (E2/M1 expected) in |g|g(|q) data when given in parentheses
135XE cG MR$From |g|g(|q) (1991Go09)
135XE cG |a(K)exp: from 1972Ac02
135XE cG E(A)$Contaminated by {+131}I or {+133}I
135XE cG E(B)$Contaminated by {+132}I
135XE cG E(D)$Uncertain |g
135XE cG E(H)$From level-energy difference. E|g=112.84 {I7} for doublet
135XE2cG I|g(112.78+113.15)=0.68 {I7}
135XE cG E(J)$From level-energy difference. E|g=960.097 {I82} for doublet
135XE2cG I|g(960.29+961.43)=0.63 {I9}
135XE cG E(K)$From level-energy difference. Doublet
135XE cG RI(H,J,K)$Intensity division based on |g|g data
135XE cL J$From adopted levels, unless otherwise stated
135XE cL J(A)$Assignment supported by |g|g(|q) data of 1991Go09
135I P 0.0 7/2+ 6.58 H 3 2627 6
135I cP QP$ from 2003Au03 who adopted value from |b|g coin work of 1999Fo01
135XE N 0.287 9 1.0 1.0
135XE cN NR$from I(|g+ce)(|g's to g.s.)=100. Uncertainty of 3% is assigned by
135XE2cN the evaluators. |b feeding to g.s. is expected as <0.01%
135XE3cN from log| {Ift}>12.8. Total feeding to 526 isomer
135XE4cN is 15.7% {I3} (average of 14.7% {I7} (1974Da01), 15.0% {I8} (1975Fu12),
135XE5cN 15.5% {I5} (1976Fe04), 16.5% {I5} (1982Wa21))
135XE PN 3
135XE G 1180.46 9 0.22 3
135XE G 1277.83 12 0.20 1
135XE G 1308.70 15 0.12 3
135XE G 1416.3 4 0.11 3
135XE G 1613.75 14 0.09 2
135XE G 1742.0 4 0.06 2
135XE cG Proposed (1982Wa21) placement: 2268-526
135XE G 2179.7 5 0.014 6
135XE G 2452.8 8 0.03 2 D
135XE L 0.0 3/2+
135XE L 288.455 15 1/2+
135XE G 288.451 16 10.8 2 [M1,E2] 0.0463 14 C
135XES G KC=0.0389 6$LC=0.0059 9$MC=0.00121 20$NC+=0.00028 4
135XES G NC=0.00025 4$OC=2.9E-5 4
135XE L 526.551 13 11/2- 15.29 M 5 M
135XE cL T$from 1975Fu12
135XE B 1.9 2 9.97 5 1U
135XES B EAV=820.7 27
135XE G 526.561 17 M4 0.237
135XES G KC=0.191 3$LC=0.0364 5$MC=0.00770 11$NC+=0.001777 25
135XES G NC=0.001587 23$OC=0.000190 3
135XE cG M$from {+135}Xe IT decay
135XE cG RI$transient equilibrium value=46.6 {I3} (1982Wa21) for isomeric
135XExcG transition
135XE cG E$526.58 {I7} (bent-crystal spectrometer (1979Bo26))
135XE DG CC M4 CC(THEORY)'S MULT. BY 0.975 5 (1990Ne01)
135XE L 1131.512 11 7/2+ A
135XE B 1.3 2 8.45 7
135XES B EAV=554.5 27
135XE G 1131.511 18 78.7 5 E2 1.25E-3 C
135XES G KC=0.001074 15$LC=0.0001359 19$MC=2.75E-5 4$NC+=7.61E-6 11
135XES G NC=5.67E-6 8$OC=7.06E-7 10$IPC=1.232E-6 18
135XE cG M$from |a(K)exp=0.00118 {I24}
135XE L 1260.416 13 5/2+
135XE B 23.6 8 7.04 2 C
135XE cB E$ measured value: 1320 {I50} (1976Lu04). Other: 1970Ma19
135XES B EAV=498.8 26
135XE G 971.96 3.1 1 KC
135XE G 1260.409 17 100.0 6 M1+E2 +0.56 5 1.22E-32 C
135XES G KC=0.001043 17$LC=0.0001285 20$MC=2.59E-5 4$NC+=2.04E-5 3
135XES G NC=5.37E-6 9$OC=6.76E-7 11$IPC=1.435E-5 21
135XE cG M$from |a(K)exp=0.00090 {I14}
135XE L 1448.36 3 (3/2+)
135XE G 1159.9 2 0.36 8 C
135XE G 1448.35 10 1.10 9 C
135XE L 1457.566 15 5/2+
135XE B 7.5 3 7.28 2
135XES B EAV=415.1 26
135XE G 197.19 7 0.114 9 [M1,E2] 0.146 23
135XES G KC=0.120 14$LC=0.021 8$MC=0.0044 16$NC+=0.0010 4
135XES G NC=0.0009 3$OC=0.00010 3
135XE G 326.0 2 0.008 6 A
135XE G 1169.04 4 3.05 8 C
135XE G 1457.56 3 30.2 2 M1,E2 0.000909 C
135XES G KC=0.00072 8$LC=8.9E-5 9$MC=1.79E-5 19$NC+=6.79E-5 13
135XES G NC=3.7E-6 4$OC=4.7E-7 5$IPC=6.37E-5 16
135XE cG M$from |a(K)exp=0.00070 {I24}
135XE L 1543.70 17(1/2+)
135XE G 1254.8 10 0.02 1 & ?
135XE G 1543.7 2 0.09 3
135XE L 1565.288 16 9/2+
135XE B 8.0 3 7.09 2 C
135XES B EAV=370.4 25
135XE G 304.91 13 0.11 1
135XE G 433.741 19 1.93 5 (M1+E2) -0.52 10 0.0154 3 C
135XES G KC=0.01319 24$LC=0.001732 25$MC=0.000352 5$NC+=8.16E-5 12
135XES G NC=7.26E-5 11$OC=9.01E-6 14
135XE cG (434|g)(1132|g)(|q): A{-2}=-0.38 {I5}, A{-4}=+0.04 {I6}
135XE G 1038.760 21 27.7 3 E1 6.37E-4 C
135XES G KC=0.000553 8$LC=6.68E-5 10$MC=1.344E-5 19$NC+=3.13E-6 5
135XES G NC=2.78E-6 4$OC=3.49E-7 5
135XE cG M$from |a(K)exp|<0.0007
135XE L 1678.065 12 (7/2)+ A
135XE B 21.8 8 6.48 2 C
135XE cB E$ measured value: 870 {I70} (1976Lu04). Other: 1970Ma19
135XES B EAV=324.3 25
135XE G 112.78 0.044 AP H
135XE G 220.502 15 6.1 1 M1,E2 0.104 12 C
135XES G KC=0.086 7$LC=0.014 4$MC=0.0030 9$NC+=0.00067 19
135XES G NC=0.00060 17$OC=7.0E-5 16
135XE cG E$220.51 {I3} (bent-crystal spectrometer (1979Bo26))
135XE cG M$from |a(K)exp=0.07 {I3}
135XE cG (221|g)(1458|g)(|q): A{-2}=+0.29 {I2}, A{-4}=+0.07 {I3}
135XE DG (221|g)(1458|g)(THETA): A2=+0.31 6, A4=-0.01 10 (1971Ma37)
135XE DG (221|g)(1458|g)(THETA): A2=+0.205 20, A4=-0.024 9 (1972Be90)
135XE G 229.72 3 0.840 8 [E2] 0.1006 C
135XES G KC=0.0809 12$LC=0.01570 22$MC=0.00327 5$NC+=0.000734 11
135XES G NC=0.000660 10$OC=7.37E-5 11
135XE G 417.633 22 12.3 1 M1+E2 -1.86 20 0.0155924 C
135XES G KC=0.01319 21$LC=0.00192 3$MC=0.000394 6$NC+=9.03E-5 13
135XES G NC=8.06E-5 12$OC=9.67E-6 14
135XE cG M$from |a(K)exp=0.015 {I9}
135XE cG (418|g)(1260|g)(|q): A{-2}=-0.50 {I2}, A{-4}=+0.02 {I3}
135XE DG (418|g)(1260|g)(THETA): A2=-0.55 6, A4=+0.04 9 (1971Ma37)
135XE G 546.557 16 24.9 3 (M1+E2) -0.14 5 0.00891 C
135XES G KC=0.00770 12$LC=0.000971 14$MC=0.000196 3$NC+=4.58E-5 7
135XES G NC=4.07E-5 6$OC=5.11E-6 8
135XE cG (547|g)(1132|g)(|q): A{-2}=+0.24 {I1}, A{-4}=-0.002 {I20}
135XE DG (547|g)(1132|g)(THETA): A2=+0.25 4, A4=-0.04 7 (1971Ma37)
135XE G 1151.51 0.01 LT D ?
135XE cG E$from level-energy difference
135XE G 1678.027 21 33.3 7 (E2) 7.16E-4 C
135XES G KC=0.000492 7$LC=6.03E-5 9$MC=1.216E-5 17$NC+=0.0001517 22
135XES G NC=2.52E-6 4$OC=3.16E-7 5$IPC=0.0001488 21
135XE cG M$from |a(K)exp=0.00056 {I14}
135XE L 1781.39 3 (11/2)+ A
135XE G 649.85 4 1.59 9 C
135XE cG (650|g)(1132|g)(|q): A{-2}=+0.16 {I7}, A{-4}=+0.02 {I11}
135XE G 1254.8 10 0.02 1 & ?
135XE L 1791.213 19 5/2+
135XE B 8.8 3 6.67 2
135XES B EAV=279.2 24
135XE G 113.15 0.024 AP H
135XE cG I|g(112.78|g+113.15|g)=0.68 {I7} for E|g=112.84 {I7}
135XE G 247.5 3 0.10 3
135XE G 333.6 2 0.13 1 C
135XE G 342.52 12 0.003 2 C
135XE G 530.8 4 0.11 5 (M1+E2) -0.55 20 0.0091 3 C
135XES G KC=0.0079 3$LC=0.001018 22$MC=0.000206 5$NC+=4.80E-5 11
135XES G NC=4.27E-5 9$OC=5.31E-6 14
135XE cG (531|g)(1260|g)(|q): A{-2}=+0.43 {I7}, A{-4}=+0.03 {I10}
135XE G 1502.79 4 3.75 9 C
135XE G 1791.196 21 26.9 1
135XE L 1894.45 5 (7/2,9/2)
135XE B 0.61 3 7.63 3
135XES B EAV=239.1 23
135XE G 1367.89 4 2.12 8
135XE L 1927.294 23 (5/2+,7/2+)
135XE B 0.05 4 8.6 4
135XES B EAV=226.5 23
135XE G 361.85 13 0.65 8 AC
135XE G 795.5 4 0.08 8
135XE G 1927.30 3 1.03 4 C
135XE L 1968.323 17 (9/2)+ A
135XE B 8.0 3 6.35 2
135XES B EAV=211.0 23
135XE G 290.27 4 1.06 6 [M1,E2] 0.0455 13 C
135XES G KC=0.0382 6$LC=0.0058 9$MC=0.00118 19$NC+=0.00027 4
135XES G NC=0.00024 4$OC=2.9E-5 3
135XE G 403.03 4 0.81 1 C
135XE G 707.92 4 2.3 1 C
135XE cG (708|g)(1260|g)(|q): A{-2}=+0.11 {I4}, A{-4}=0.00 {I7}
135XE G 836.804 16 23.3 3 (M1+E2) +3.58 10 0.00248 C
135XES G KC=0.00213 3$LC=0.000278 4$MC=5.64E-5 8$NC+=1.307E-5 19
135XES G NC=1.163E-5 17$OC=1.436E-6 21
135XE cG (837|g)(1132|g)(|q): A{-2}=+0.05 {I2}, A{-4}=-0.08 {I3}
135XE DG (837|g)(1132|g)(THETA): A2=+0.11 6, A4=-0.22 9 (1971Ma37)
135XE G 1441.8 5 0.06 4
135XE L 2045.892 24 5/2+
135XE B 1.11 5 7.02 3
135XES B EAV=182.3 22
135XE G 254.74 13 0.08 3
135XE G 588.28 6 0.18 5 C
135XE G 785.48 5 0.53 6 (M1+E2) -0.56 10 0.003528 C
135XES G KC=0.00304 7$LC=0.000383 8$MC=7.75E-5 16$NC+=1.81E-5 4
135XES G NC=1.60E-5 4$OC=2.01E-6 5
135XE cG (785|g)(1260|g)(|q): A{-2}=+0.43 {I9}, A{-4}=+0.01 {I12}
135XE G 2045.88 3 3.04 9
135XE L 2048.55 7
135XE G 1521.99 13 0.13 6
135XE L 2092.943 22 (7/2-,9/2)
135XE B 1.59 7 6.74 3
135XES B EAV=165.3 22
135XE G 165.74 6 0.109 9
135XE G 414.83 3 1.05 5 C
135XE G 961.43 0.51 9 JC
135XE G 1566.41 3 4.5 1 C
135XE L 2112.4 5
135XE B 0.07 3 8.04 19
135XES B EAV=158.3 22
135XE G 2112.4 5 0.24 1
135XE L 2151.52 10
135XE B 0.023 3 8.40 6
135XES B EAV=144.5 21
135XE G 2151.5 1 0.078 9
135XE L 2233.041 19 (9/2+) A
135XE B 7.4 3 5.62 3
135XES B EAV=116.5 21
135XE G 184.49 8 0.082 8
135XE G 305.83 9 0.331 9 C
135XE G 451.63 3 1.10 5 C
135XE G 972.62 4.2 1 KC
135XE cG |d(M3/E2)=-0.01 {I5} from
135XE2cG (973)(1260)(|q): A{-2}=+0.10 {I4}, A{-4}=+0.02 {I7}
135XE DG (973|g)(1260|g)(THETA): A2=+0.09 3, A4=+0.04 3 (1972Be90)
135XE G 1101.58 3 5.60 9 (M1+E2) +1.82 20 0.001413 C
135XES G KC=0.001218 23$LC=0.000153 3$MC=3.10E-5 6$NC+=7.64E-6 14
135XES G NC=6.40E-6 12$OC=7.99E-7 15$IPC=4.36E-7 7
135XE cG (1102|g)(1132|g)(|q): A{-2}=+0.17 {I4}, A{-4}=-0.05 {I7}
135XE G 1706.459 21 14.3 4
135XE L 2255.478 17(7/2+) A
135XE B 4.78 16 5.73 3
135XES B EAV=109.0 20
135XE G 162.65 11 0.034 9
135XE G 690.13 5 0.45 5 C
135XE G 797.71 8 0.60 9 C
135XE G 807.2 3 0.16 6 C
135XE G 995.09 10 0.54 9 (M1+E2) -1.14 30 0.001879 C
135XES G KC=0.00161 8$LC=0.000203 9$MC=4.10E-5 17$NC+=9.6E-6 4
135XES G NC=8.5E-6 4$OC=1.06E-6 5
135XE cG (995|g)(1260|g)(|q): A{-2}=-0.55 {I10}, A{-4}=0.00 {I14}
135XE G 1124.00 3 12.6 1 (M1+E2) -1.08 20 0.001445 C
135XES G KC=0.00124 4$LC=0.000155 5$MC=3.13E-5 9$NC+=8.23E-6 21
135XES G NC=6.48E-6 19$OC=8.12E-7 24$IPC=9.35E-7 16
135XE cG (1124|g)(1132|g)(|q): A{-2}=+0.21 {I3}, A{-4}=+0.09 {I4}
135XE DG (1124|g)(1132|g)(THETA): A2=+0.09 8, A4=+0.13 13 (1971Ma37)
135XE DG $ (1124|g)(1132|g)(THETA): A2=+0.145 25, A4=-0.022 13 (1972Be90)
135XE G 2255.457 22 2.14 7
135XE L 2357.24 3 (9/2+)
135XE B 1.39 7 5.81 4
135XES B EAV=76.2 19
135XE G 264.26 9 0.64 1 C
135XE G 429.93 3 1.06 7 C
135XE G 575.97 8 0.45 8
135XE G 679.22 15 0.19 5 C
135XE G 1096.86 10 0.31 5 C
135XE G 1225.6 3 0.15 6
135XE G 1830.69 4 2.02 6
135XE L 2371.99 4 7/2(+),9/2(+)
135XE B 0.92 4 5.91 4
135XES B EAV=71.6 19
135XE G 1240.47 3 3.15 9 C
135XE cG |d(Q/D)=-0.06 {I10} for 9/2; +0.89 {I10} for 7/2 (1991Go09)
135XE cG (1240|g)(1132|g)(|q): A{-2}=-0.11 {I6}, A{-4}=+0.03 {I10}
135XE2cG (1991Go09). (1240|g)(1132|g)(|q): A{-2}=+0.16 {I7}, A{-4}=+0.06 {I5}
135XE3cG (1972Be90). Note sign of A{-2} is different in two studies
135XE G 1845.3 4 0.020 9
135XE L 2408.66 3 (5/2,7/2+)
135XE B 1.03 6 5.65 5
135XES B EAV=60.3 19
135XE G 616.9 2 0.13 6 B
135XE G 960.29 0.12 9 J
135XE G 2408.65 3 3.33 9
135XE L 2447.30 8
135XE B 0.14 3 6.25 11
135XES B EAV=48.8 18
135XE G 656.09 10 0.26 5
135XE G 1315.77 11 0.23 6
135XE L 2466.11 9 (7/2+)
135XE B 0.127 14 6.14 7
135XES B EAV=43.4 18
135XE G 684.6 2 0.08 3
135XE G 1334.8 2 0.11 3
135XE G 2466.07 10 0.25 1
135XE L 2475.08 5 (7/2-,9/2)
135XE B 0.142 14 6.01 7
135XES B EAV=40.8 18
135XE G 1343.66 9 0.27 4
135XE G 1948.49 5 0.22 2
135XE L 2477.87 20 ?
135XE B 0.013 3 7.03 12 ?
135XES B EAV=40.0 18
135XE G 2189.4 2 0.045 9 D ?
135XE G 2477.1 4 0.005 1 D ?