133LA 133CE EC DECAY (5.1 H) 1978HE16 11NDS 201104
133LA H TYP=FUL$AUT=YU. KHAZOV AND A. RODIONOV, F.G. KONDEV$
133LA2 H CIT=NDS 112, 855 (2011)$CUT=31-Oct-2010$
133LA DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
133LA c 1978He16: {+133}Ce |e (5.1 h) [from Ba(|a,xn)]; measured E|g, I|g,
133LA2c |g|g, ce; deduced levels, |a(exp), log| {Ift}. Ge(Li)
133LA3c detectors, Compton suppressed system, magnetic spectrometer,
133LA4c chemical procedure and mass-separator
133LA c 1984Gr30: {+133}Ce |e (5.1 h) [from Gd(p,X), E=660 MeV]; measured ce;
133LA2c deduced |a(exp), |d. Magnetic spectrograph
133LA c Other measurements: 1967Ab10, 1968Ge01, 1968Ab02, 1973Mo08, 1984Is06
133LA cG E,RI$From 1978He16, except as noted. When |DE|g is not given and E|g is
133LA2cG quoted to nearest tenth of a keV, evaluators assumed |DE=0.5 keV;
133LA3cG |DE=1 keV otherwise
133LA cG M$From |a(exp) taken from 1984Gr30 for E|g=42-617 keV, from 1987He16
133LA2cG for E|g=346-1781 keV. |a(exp) normalized to |a(K)(477.22, E2)=0.00980
133LA3cG (2002Ba85)
133LA cG MR$From |a(K)exp, L subshell or K/L ratios
133LA cG E(B)$Inserted into the scheme by evaluators from unplaced |g's in
133LA2cG 1995Ra12. For all transitions, the values of differences of level
133LA3cG energies, where the transitions were placed, consist with transition
133LA4cG energy values in the range of |DE|g values
133LA cG E(D)$ Observed in ce spectra only (1984Gr30)
133LA cG E(G)$|g ray is shown as questionable in 1978He16
133LA cG E(H)$Placement of the transition is shown as questionable in 1978He16
133LA cL E$From a least-squares fit to E|g's
133LA cL J$From 'adopted levels and gammas'
133LA cL T$From |g|g(t) of 1973Mo08 and 1984Is06, except as noted
133LA cE TI$From intensity balance considerations
133CE P 37.2 7 9/2- 5.1 H 3 3071 32
133LA N 0.0393 3 0.0393 3 1.0 LE
133LA cN NR$|S(I(|g+ce) to g.s.)=100 and by assuming that there is no direct
133LA2cN feeding to {+133}La g.s. (J|p=5/2+). Please note that calculated using
133LA3cN GTOL net feeding to the 97.259 keV (J|p=3/2+) level amounts to 0.8%
133LAxcN {I5}
133LA PN 5
133LA G 204.16 121.3 4 M1,E2 0.157 10
133LA3 G CEK=0.18 4 $ EKC=0.14 5
133LAS G KC=0.1271 20$LC=0.023 7$MC=0.0050 15$NC+=0.0013 4
133LAS G NC=0.0011 4$OC=0.00017 5$PC=8.9E-6 10
133LA G 221.97 9 2.2 4 M1,E2 0.122 5
133LA3 G CEK=0.20 7 $ EKC=0.09 3
133LAS G KC=0.0993 21$LC=0.018 5$MC=0.0037 10$NC+=0.00094 22
133LAS G NC=0.00081 20$OC=0.00013 3$PC=7.0E-6 9
133LA G 235.9 2 D
133LA3 G CEK=0.20 4
133LA G 256.6 2 1.3 5 (M1,E2) 0.0788 16 G
133LA3 G CEK LE 0.1 $ EKC LE 0.07
133LAS G KC=0.065 4$LC=0.0108 18$MC=0.0023 4$NC+=0.00058 10
133LAS G NC=0.00050 9$OC=7.8E-5 11$PC=4.7E-6 7
133LA G 369.9 2 4.8 10
133LA3 G CEK LE 0.06 $ EKC LE 0.013
133LA G 376.71 9 3.9 5 (M1,E2) 0.026 3
133LA3 G CEK=0.09 4 $ EKC=0.025 12
133LAS G KC=0.022 3$LC=0.00327 6$MC=0.000684 10$NC+=0.000175 3
133LAS G NC=0.0001494 22$OC=2.38E-5 8$PC=1.6E-6 3
133LA G 560.09 7 15 6
133LA G 571.06 104.1 10(M1,E2)
133LA3 G CEK AP 0.05 $ EKC AP 0.012
133LAS G CC=0.0088 16$KC=0.0075 14$LC=0.00102 13$MC=0.000213 25$NC+=5.5E-5 7
133LAS G NC=4.7E-5 6$OC=7.5E-6 10$PC=5.6E-7 12
133LA G 742.9 2 3.2 8
133LA G 792.8 2 2.8 7
133LA G 844.19 147.1 7
133LAF G FLAG=G
133LA G 879.5 2 4.9 7
133LA G 901.79 155.0 7
133LA G 997.25 116.3 6
133LA G 1305.0 2 3.8 8
133LA G 1333.21 155.9 11
133LA G 1365.8 2 2.9 6
133LA G 1544.47 153.1 6
133LA G 1567.9 3 1.9 8
133LA G 1683.2 3 3.5 5
133LA G 1686.0 4 1.8 5
133LA G 1876.3 3 2.6 14
133LA G 1962.9 3 6.5 10
133LA G 2051.45 121.1 2
133LA G 2057.4 3 0.4 1
133LA G 2063.8 3 0.94 10
133LA G 2075.0 3 0.65 8
133LA G 2090.5 3 0.99 10
133LA G 2147.2 3 2.2 2
133LA G 2160.0 4 0.90 10
133LA G 2186.1 4 1.9 2
133LA G 2217.1 4 0.40 6
133LA G 2291.2 7 0.41 6
133LA G 2320.1 9 0.72 7
133LA G 2349.0 100.27 4
133LA G 2575.7 4 0.63 6
133LA G 2863.4 130.10 3
133LA L 0.0 5/2+ 3.912 H 8
133LA cL T$from adopted levels
133LA L 87.94011 5/2+ 1.30 NS 10
133LA E 0.49 8 2.2 3 9.11 8 2.7 4 1U
133LAS E EAV=911 14$CK=0.693 7$CL=0.0975 10$CM+=0.0275 3
133LA G 87.939 11131 3 M1+E2 0.051 +12-161.566 C
133LA4 G CEK=190 30 $ CEL1=28 3 $ CEL2=2.6 3 $ CEL3=0.70 8
133LAS G KC=1.335 19$LC=0.183 3$MC=0.0382 6$NC+=0.00985 16
133LAS G NC=0.00838 14$OC=0.001359 21$PC=0.0001040 15
133LAS G L1C=0.1656 23$L2C=0.0138 6$L3C=0.0040 7$
133LA cG MR$from 1984Gr30
133LA L 97.259 10 3/2+ 0.4 NS LT
133LA cL T$from 1973Mo08, delayed coincidence. Other: 0.4 ns {I6} (1984Is06),
133LA2cL |< 0.1 ns (1972Be77)
133LA G 97.261 1044.8 10M1+E2 0.157 17 1.195 18 C
133LA4 G CEK=49 5 $ CEL1=6.3 6 $ CEL2=0.80 8 $ CEL3 LT 0.3
133LA3 G EKC=1.1 1 $ EL1C=0.14 2 $ EL2C=0.018 2 $ EL3C LT 0.006
133LAS G KC=1.007 15$LC=0.149 4$MC=0.0311 8$NC+=0.00799 20
133LAS G NC=0.00682 17$OC=0.001092 25$PC=7.78E-5 11
133LAS G L1C=0.1240 17$L2C=0.0155 14$L3C=0.0091 16$
133LA cG MR$from 1984Gr30
133LA L 130.804 10 7/2+ 1.12 NS 18
133LA cL T$supersedes the value of 1.19 ns 20 in 1970BaYT. Other: 0.8 ns {I3}
133LA2cL (1967Ab10)
133LA E 1.1 3 1.6 5 7.69 14 2.7 8
133LAS E EAV=879 14$CK=0.519 10$CL=0.0714 14$CM+=0.0200 4
133LA G 33.54 41 LE S
133LA cG E$not measured. Existence is required by 346|g-97|g coin.
133LA cG TI$from intensity balance
133LA G 42.7 1 2.0 3 M1+E2 0.160 +18-2113.6 3 29 4
133LA2 G CEL1=2.5 3$CEL2=0.80 7$CEL3 LE 0.4$EL1C=1.25 24$EL2C=0.40 3$EL3C LE 0.2
133LAF G FLAG=GH
133LAS G K/T=0.734 14$L/T=0.156 12$M/T=0.033 3$N+/T=0.0084 8
133LAS G L1C=1.340 21$L2C=0.45 3$L3C=0.47 5$
133LAS G N/T=0.0072 7$O/T=0.00110 9$P/T=5.78E-5 16
133LAS G NC+=0.121 5$NC=0.104 4$OC=0.0160 6$PC=0.000842 14
133LA cG TI$from |a{-tot} and I{-|g}
133LA cG MR$from 1984Gr30
133LA cG ELC$calculated by evaluators
133LA G 130.803 10457 10M1+E2 0.239 +30-210.520 695 15 C
133LA4 G CEK=205 24 $ CEL1=23.3 25 $ CEL2=3.9 3 $ CEL3=2.1 2
133LA3 G EKC=0.46 6 $ EL1C=0.050 7 $ EL2C=0.0085 7 $ EL3C=0.0046 5
133LAS G L1C=0.0534 7$L2C=0.0073 8$L3C=0.0046 8$
133LAS G N/T=0.00197 7$O/T=0.000315 9$P/T=2.20E-5 4
133LAS G NC=0.00299 9$OC=0.000478 12$PC=3.35E-5 5
133LA L 477.213 21 9/2+
133LA G 346.39 5 106 2 M1(+E2) 0.033 4 C
133LA3 G CEK=3.5 5 $ CEL1=0.5 1 $ EKC=0.033 5 $ EL1C=0.005 1
133LAS G KC=0.028 4$LC=0.00420 12$MC=0.00088 4$NC+=0.000225 6
133LAS G NC=0.000192 6$OC=3.05E-5 5$PC=2.0E-6 4
133LAS G L1C=0.001949 27$
133LA G 389.37 9 5.4 5 E2 0.0211
133LA3 G CEK=0.10 3 $ EKC=0.019 6
133LAS G KC=0.01739 25$LC=0.00291 4$MC=0.000615 9$NC+=0.0001553 22
133LAS G NC=0.0001333 19$OC=2.08E-5 3$PC=1.203E-6 17
133LA cG M$M1,E2 from conversion data. M1 ruled out from placement in level
133LA2cG scheme
133LA G 477.22 4 1000 E2 0.01173 C
133LA3 G CEK=9.80 $ CEL=1.5 3 $ ELC=0.0015 3
133LAS G KC=0.00980 14$LC=0.001527 22$MC=0.000321 5$NC+=8.16E-5 12
133LAS G NC=6.99E-5 10$OC=1.100E-5 16$PC=6.92E-7 10
133LA L 495.02 3 7/2+
133LA E 0.33 3 1.00 7 7.80 5 1.33 9
133LAS E EAV=715 14$CK=0.638 10$CL=0.0880 14$CM+=0.0247 4
133LA G 364.19 4 32.0 8 M1,E2 0.029 4 C
133LA3 G CEK=0.8 2 $ CEL1=0.10 3 $ EKC=0.025 6 $ EL1C=0.003 1
133LAS G KC=0.024 4$LC=0.00361 6$MC=0.000757 16$NC+=0.000193 3
133LAS G NC=0.000165 3$OC=2.63E-5 6$PC=1.8E-6 4
133LAS G L1C=0.0029 5$
133LA G 397.75 6 15.3 6 E2 0.0198 C
133LA3 G CEK=0.30 5 $ EKC=0.019 4
133LAS G KC=0.01635 23$LC=0.00271 4$MC=0.000573 8$NC+=0.0001449 21
133LAS G NC=0.0001243 18$OC=1.94E-5 3$PC=1.134E-6 16
133LA cG M$M1,E2 from conversion data. M1 ruled out from placement in level
133LA2cG scheme
133LA G 407.10 106.3 5 M1,E2 0.021 3
133LA3 G CEK=0.13 3 $ EKC=0.021 5
133LAS G KC=0.018 3$LC=0.00260 10$MC=0.000545 16$NC+=0.000139 6
133LAS G NC=0.000119 5$OC=1.90E-5 11$PC=1.3E-6 3
133LA G 495.07 7 15.4 6 [M1] 0.01466 C
133LAS G KC=0.01260 18$LC=0.001636 23$MC=0.000339 5$NC+=8.76E-5 13
133LAS G NC=7.45E-5 11$OC=1.216E-5 17$PC=9.64E-7 14
133LA L 535.588 21 11/2- 64 NS 5
133LA2 L G=1.37 8 (1979BuZW)
133LA cL G$from |g|g(|q,H,t); =2.2 (1969GeZZ)
133LA cL T from |g(t) of 1975Bu10
133LA E 0.3 3 0.9 8 7.8 4 1.2 11
133LAS E EAV=697 14$CK=0.651 10$CL=0.0898 14$CM+=0.0252 4
133LA G 58.39 3 491 10E1 1.023
133LA3 G CEK=420 40 $ CEL1=40 3 $ CEL2=9.1 7 $ CEL3=13.3 11
133LA4 G EKC=0.86 8 $ EL1C=0.081 7 $ EL2C=0.0185 15 $ EL3C=0.027 2
133LAS G KC=0.862 13$LC=0.1280 18$MC=0.0265 4$NC+=0.00660 10
133LAS G NC=0.00568 8$OC=0.000868 13$PC=4.88E-5 7
133LAS G L1C=0.0809 11$L2C=0.01948 27$L3C=0.02763 39$
133LA G 404.78 4 43.3 9 M2 0.0883 C
133LA4 G CEK=3.3 7 $ CEL=0.5 1 $ EKC=0.076 16 $ ELC=0.012 3
133LAS G KC=0.0742 11$LC=0.01117 16$MC=0.00235 4$NC+=0.000608 9
133LAS G NC=0.000518 8$OC=8.38E-5 12$PC=6.32E-6 9
133LAS G L1C=0.00993 14
133LA G 535 3 1 [E3] 0.0234
133LAS G KC=0.0186 3$LC=0.00383 6$MC=0.000824 12$NC+=0.000207 3
133LAS G NC=0.0001784 25$OC=2.73E-5 4$PC=1.370E-6 20
133LA L 541.20 3 7/2+
133LA G 63.93 11 0.14 4 [M1,E2] 7 4 D
133LA3 G CEK=0.50 15
133LAS G KC=3.7 4$LC=2.6 22$MC=0.6 5$NC+=0.14 12
133LAS G NC=0.12 10$OC=0.017 14$PC=0.00024 3
133LA cG I|g: from ce(K) and |a(K) if M1, E2
133LA G 410.39 1018.4 6 M1,E2 0.021 3 C
133LA3 G CEK=0.4 1 $ EKC=0.022 5
133LAS G KC=0.018 3$LC=0.00254 10$MC=0.000532 17$NC+=0.000136 6
133LAS G NC=0.000116 5$OC=1.86E-5 11$PC=1.3E-6 3
133LA G 444.2 1 35 AP(E2) 0.01436 @C
133LA3 G CEK=0.58 7$ EKC=0.0097 12
133LAS G KC=0.01195 17$LC=0.00191 3$MC=0.000401 6$NC+=0.0001018 15
133LAS G NC=8.73E-5 13$OC=1.368E-5 20$PC=8.38E-7 12
133LA cG E$poor fit; the level energy difference is equal to 443.94 {I3} keV
133LA cG EKC$for undivided line; I|g=59 {I2}
133LA cG M$|a(K)exp for two unresolved |g-rays (from 979 and 541 states) is
133LA2cG consistent with mult=E2; multipolarity of E2 for each |g does not
133LA3cG conflict with the level scheme
133LA G 453.27 5 25.4 9 M1,E2 0.0159 24 C
133LA3 G CEK=0.30 5 $ EKC=0.013 3
133LAS G KC=0.0135 23$LC=0.00192 14$MC=0.000400 25$NC+=0.000103 8
133LAS G NC=8.8E-5 6$OC=1.40E-5 12$PC=1.00E-6 21
133LA G 541.09 1075 10M1 0.01175 C
133LA3 G CEK=0.8 2 $ EKC=0.011 3
133LAS G KC=0.01010 15$LC=0.001308 19$MC=0.000271 4$NC+=7.00E-5 10
133LAS G NC=5.96E-5 9$OC=9.72E-6 14$PC=7.72E-7 11
133LA L 563.348 25 9/2+
133LA E 0.41 4 1.42 13 7.62 5 1.83 17
133LAS E EAV=684 14$CK=0.660 10$CL=0.0911 14$CM+=0.0256 4
133LA G 86.11 12 0.06 2 [M1,E2] 2.5 9 D
133LA3 G CEK=0.12 4
133LAS G KC=1.65 24$LC=0.7 5$MC=0.15 12$NC+=0.04 3
133LAS G NC=0.032 24$OC=0.005 4$PC=0.000105 6
133LA cG RI$from ce(K) and |a(K) if M1, E2
133LA G 432.55 4 90 2 M1,E2 0.018 3 C
133LA3 G CEK=0.94 15 $ EKC=0.011 2
133LAS G KC=0.0153 25$LC=0.00219 12$MC=0.000457 22$NC+=0.000117 7
133LAS G NC=0.000100 6$OC=1.60E-5 12$PC=1.13E-6 23
133LA G 475.49 6 81 2 E2 0.01185 C
133LA3 G CEK=1.0 3 $ EKC=0.012 4
133LAS G KC=0.00990 14$LC=0.001544 22$MC=0.000325 5$NC+=8.25E-5 12
133LAS G NC=7.07E-5 10$OC=1.112E-5 16$PC=6.99E-7 10
133LA L 591.25 6 7/2,9/2+
133LA E 0.030 9 0.11 3 8.72 13 0.14 4
133LAS E EAV=672 14$CK=0.669 10$CL=0.0923 14$CM+=0.0259 4
133LA G 50.09 10 D
133LA3 G CEK LT 0.5
133LA G 114.02 11 D
133LA3 G CEK AP 0.05
133LA G 460.5 51.7 AP @C
133LA cG E,RI$|DE is assigned by evaluators. I(|g+ce)=4.9 {I6} is divided on
133LA2cG the basis of coincidence data (1978He16)
133LA G 591.24 105.5 7
133LA L 654.60 4 11/2+
133LA E 0.04 3 0.19 13 8.5 3 0.23 16
133LAS E EAV=644 14$CK=0.688 9$CL=0.0950 13$CM+=0.0267 4
133LA G 118.96 13 0.65 24[E1] 0.1455 D
133LA3 G CEK=0.08 3
133LAS G KC=0.1243 18$LC=0.01685 25$MC=0.00348 5$NC+=0.000881 13
133LAS G NC=0.000755 11$OC=0.0001188 17$PC=7.77E-6 12
133LA cG RI$from ce(K) and |a(K) if E1
133LA cG M$from level scheme
133LA G 159.56 18 0.35 14[E2] 0.385 D
133LA3 G CEK=0.10 4
133LAS G KC=0.282 4$LC=0.0813 12$MC=0.0177 3$NC+=0.00435 7
133LAS G NC=0.00378 6$OC=0.000554 9$PC=1.677E-5 25
133LA cG RI$from ce(K) and |a(K) if E2
133LA cG M$from level scheme
133LA G 177.3 2 1.3 5 M1,E2 0.24 3
133LA3 G CEK=0.25 4 $ EKC=0.19 8
133LAS G KC=0.193 9$LC=0.039 14$MC=0.008 4$NC+=0.0021 8
133LAS G NC=0.0018 7$OC=0.00027 9$PC=1.33E-5 12
133LA G 523.76 5 80 2 E2 C
133LA3 G CEK=0.6 1 $ EKC=0.008 1 (1984Gr30) $ EKC=0.0062 7 (1978He16)
133LAS G CC=0.00909 13$KC=0.00763 11$LC=0.001156 17$MC=0.000243 4$NC+=6.17E-5 9
133LAS G NC=5.28E-5 8$OC=8.35E-6 12$PC=5.43E-7 8
133LA L 765.38 6(5/2+)
133LA G 224.16 7 3.6 4 M1,E2 0.118 4 C
133LA3 G CEK=0.3 1 $ EKC=0.09 3
133LAS G KC=0.0965 22$LC=0.017 4$MC=0.0036 9$NC+=0.00091 21
133LAS G NC=0.00078 19$OC=0.000121 25$PC=6.8E-6 8
133LA G 634.5 2 2.8 10 [M1]
133LAS G CC=0.00795 12$KC=0.00684 10$LC=0.000881 13$MC=0.000182 3$NC+=4.71E-5 7
133LAS G NC=4.01E-5 6$OC=6.55E-6 10$PC=5.22E-7 8
133LA G 678.3 5 7 AP[M1,E2] @C
133LAF G FL=87.940
133LAS G CC=0.0057 11$KC=0.0049 10$LC=0.00065 10$MC=0.000136 19$NC+=3.5E-5 5
133LAS G NC=3.0E-5 5$OC=4.8E-6 8$PC=3.6E-7 8
133LA cG E,RI$transition with this energy de-excites the 1218.9 keV state also.
133LA2cG I(|g+ce)=21 {I4} is divided on the basis of
133LA3cG coincidence data (1978He16)
133LA G 765.19 126.7 7 [M1,E2] C
133LAS G CC=0.0043 8$KC=0.0037 7$LC=0.00048 8$MC=0.000101 15$NC+=2.6E-5 4
133LAS G NC=2.2E-5 4$OC=3.6E-6 6$PC=2.7E-7 6
133LA L 784.531 22 7/2-
133LA E 0.16 6 0.9 3 7.72 16 1.1 4
133LAS E EAV=586 14$CK=0.725 9$CL=0.1003 12$CM+=0.0282 4
133LA G 221.2 1 2 AP[E1] 0.0266 D
133LA2 G CEK AP 0.05
133LAS G KC=0.0228 4$LC=0.00299 5$MC=0.000617 9$NC+=0.0001576 23
133LAS G NC=0.0001345 19$OC=2.15E-5 3$PC=1.528E-6 22
133LA cG M,RI$from placement in the level scheme mult.=E1. I|g is calculated
133LA2cG according to |a(K) and ce(K) by evaluators
133LA G 248.95 2 34.0 8 E2 0.0857 C
133LA3 G CEK=2.3 5 $ L1/L2=1.9 5 $ EKC=0.068 15
133LAS G KC=0.0679 10$LC=0.01405 20$MC=0.00301 5$NC+=0.000751 11
133LAS G NC=0.000649 9$OC=9.81E-5 14$PC=4.40E-6 7
133LA G 307.30 6 23.8 9 E1 0.01121 C
133LA3 G CEK=0.25 4 $ EKC=0.0011 2
133LAS G KC=0.00964 14$LC=0.001245 18$MC=0.000257 4$NC+=6.59E-5 10
133LAS G NC=5.62E-5 8$OC=9.03E-6 13$PC=6.63E-7 10
133LA G 653.75 1211.2 10 [E1] C
133LAS G CC=0.00189 3$KC=0.001628 23$LC=0.000204 3$MC=4.21E-5 6$NC+=1.085E-5 16
133LAS G NC=9.23E-6 13$OC=1.499E-6 21$PC=1.159E-7 17
133LA G 784.55 8 246 6 E1 C
133LA3 G CEK=0.38 3 $ EKC=0.0016 2
133LAS G CC=0.001290 18$KC=0.001115 16$LC=0.0001390 20$MC=2.86E-5 4$NC+=7.38E-6
133LAS G NC=6.28E-6 9$OC=1.021E-6 15$PC=7.97E-8 12
133LA L 838.24 4 9/2+
133LA E 0.017 9 0.11 6 8.62 24 0.13 7
133LAS E EAV=562 14$CK=0.739 8$CL=0.1023 12$CM+=0.0288 4
133LA G 274.84 7 3.4 5 M1,E2 0.0643 24
133LA3 G CEK=0.18 4 $ EKC=0.053 13
133LAS G KC=0.053 4$LC=0.0086 11$MC=0.0018 3$NC+=0.00046 6
133LAS G NC=0.00040 6$OC=6.2E-5 7$PC=3.8E-6 6
133LA G 360.96 102.4 6 (M1,E2) 0.030 4 C
133LA3 G CEK AP 0.07 $ EKC AP 0.029
133LAS G KC=0.025 4$LC=0.00371 6$MC=0.000778 19$NC+=0.000199 3
133LAS G NC=0.000170 3$OC=2.70E-5 6$PC=1.8E-6 4
133LA G 707.41 6 10.1 7 [M1]
133LAS G CC=0.00611 9$KC=0.00526 8$LC=0.000675 10$MC=0.0001395 20$NC+=3.61E-5 5
133LAS G NC=3.07E-5 5$OC=5.02E-6 7$PC=4.00E-7 6
133LA G 838.1 2 3.7 6 [E2]
133LAS G CC=0.00283 4$KC=0.00241 4$LC=0.000329 5$MC=6.84E-5 10$NC+=1.755E-5 25
133LAS G NC=1.496E-5 21$OC=2.41E-6 4$PC=1.759E-7 25
133LA L 867.15 7(7/2+)
133LA E 0.061 10 0.44 6 8.02 7 0.50 7
133LAS E EAV=549 14$CK=0.746 8$CL=0.1033 11$CM+=0.0290 3
133LA G 371.9 3 1.3 4 [M1,E2] 0.027 3 C
133LAS G KC=0.023 3$LC=0.00339 5$MC=0.000711 12$NC+=0.000182 3
133LAS G NC=0.0001553 22$OC=2.47E-5 7$PC=1.7E-6 4
133LA G 736.32 114.1 6 [M1,E2] C
133LAS G CC=0.0047 9$KC=0.0040 8$LC=0.00053 8$MC=0.000111 16$NC+=2.8E-5 5
133LAS G NC=2.4E-5 4$OC=3.9E-6 7$PC=3.0E-7 7
133LA G 769.9 2 2.9 5 [E2]
133LAS G CC=0.00344 5$KC=0.00293 5$LC=0.000406 6$MC=8.44E-5 12$NC+=2.16E-5 3
133LAS G NC=1.85E-5 3$OC=2.96E-6 5$PC=2.13E-7 3
133LA G 779.16 145.0 8 [M1]
133LAS G CC=0.00485 7$KC=0.00417 6$LC=0.000534 8$MC=0.0001104 16$NC+=2.86E-5 4
133LAS G NC=2.43E-5 4$OC=3.97E-6 6$PC=3.17E-7 5
133LA G 867.2 5 8.2 AP [M1] @
133LAS G CC=0.00376 6$KC=0.00324 5$LC=0.000413 6$MC=8.53E-5 12$NC+=2.21E-5 4
133LAS G NC=1.88E-5 3$OC=3.07E-6 5$PC=2.46E-7 4
133LA cG RI$I(|g+ce)=10.7 {I7} is divided on the basis of coincidence
133LA2cG data (1978He16)
133LA L 950.35 5 (9/2)+
133LA E 0.20 3 1.87 19 7.36 6 2.07 21
133LAS E EAV=512 14$CK=0.766 7$CL=0.1062 10$CM+=0.0299 3
133LA G 112.03 11 0.20 8 [M1+E2] 1.1 3 D
133LA3 G CEK=0.15 6
133LAS G KC=0.76 10$LC=0.23 14$MC=0.05 3$NC+=0.012 8
133LAS G NC=0.011 7$OC=0.0016 9$PC=4.98E-5 25
133LA cG RI$from ce(K) and |a(K) if M1+E2
133LA cG M$from level scheme
133LA G 165.72 18 8.0 20[E1] 0.0583 D
133LA3 G CEK=0.4 1
133LAS G KC=0.0499 8$LC=0.00663 10$MC=0.001368 20$NC+=0.000348 5
133LAS G NC=0.000298 5$OC=4.73E-5 7$PC=3.25E-6 5
133LA cG RI$from ce(K) and |a(K) if E1
133LA cG M$from level scheme
133LA G 296.0 1 2.3 10[M1,E2] 0.052 3 D
133LA3 G CEK=0.10 4
133LAS G KC=0.043 4$LC=0.0068 7$MC=0.00144 16$NC+=0.00037 4
133LAS G NC=0.00031 3$OC=4.9E-5 4$PC=3.1E-6 5
133LA cG RI$from ce(K) and |a(K) if M1, E2
133LA cG E$poor fit; the level energy difference is equal to 295.74 {I6} keV
133LA G 455.28 10 2.8 9 (M1+E2) 0.0157 24
133LA3 G CEK AP 0.05$ EKC AP 0.018
133LAS G KC=0.0133 22$LC=0.00189 14$MC=0.000395 25$NC+=0.000101 8
133LAS G NC=8.6E-5 6$OC=1.39E-5 12$PC=9.9E-7 21
133LA G 819.47 1522.7 12M1(+E2) C
133LA3 G CEK=0.094 10 $ EKC=0.0044 6
133LAS G CC=0.0036 7$KC=0.0031 6$LC=0.00041 7$MC=8.5E-5 13$NC+=2.2E-5 4
133LAS G NC=1.9E-5 3$OC=3.0E-6 5$PC=2.3E-7 5
133LA G 862.29 1317.7 6 [E2]
133LAS G CC=0.00265 4$KC=0.00226 4$LC=0.000307 5$MC=6.38E-5 9$NC+=1.638E-5 23
133LAS G NC=1.397E-5 20$OC=2.25E-6 4$PC=1.652E-7 24
133LA L 979.91 9 15/2-
133LA G 444.2 1 24 APE2 0.01436 @C
133LA4 G CEK=0.58 7$ EKC=0.0097 12
133LAS G KC=0.01195 17$LC=0.00191 3$MC=0.000401 6$NC+=0.0001018 15
133LAS G NC=8.73E-5 13$OC=1.368E-5 20$PC=8.38E-7 12
133LA cG EKC$for undivided line; I|g=59 {I2}
133LA cG M$|a(K)exp for two unresolved |g-rays (from 979 and 541 states) is
133LA2cG consistent with mult=E2; multipolarity of E2 for each |g do not
133LA3cG conflicted with the level scheme
133LA L 1045.925 23 9/2-
133LA E 0.65 8 8.0 6 6.68 5 8.7 6
133LAS E EAV=470 14$CK=0.786 6$CL=0.1091 9$CM+=0.03067 25
133LA G 261.396 1444.4 10M1(+E2) 0.0746 18 C
133LA3 G CEK=2.9 4 $ CEL1=0.4 1 $ EKC=0.065 9 $ EL1C=0.009 2
133LAS G KC=0.062 4$LC=0.0102 16$MC=0.0022 4$NC+=0.00054 9
133LAS G NC=0.00047 8$OC=7.3E-5 9$PC=4.4E-6 7
133LAS G L1C=0.0071 9$
133LA G 504.73 8 13 3 [E1] C
133LAS G CC=0.00334 5$KC=0.00288 4$LC=0.000366 6$MC=7.54E-5 11$NC+=1.94E-5 3
133LAS G NC=1.652E-5 24$OC=2.67E-6 4$PC=2.04E-7 3
133LA G 510.36 7 528 12M1(+E2) 0.0117 20 C
133LA3 G CEK=6.4 10 $ CEL=0.9 2 $ EKC=0.012 2 $ ELC=0.0017 4
133LAS G KC=0.0099 18$LC=0.00138 14$MC=0.00029 3$NC+=7.4E-5 8
133LAS G NC=6.3E-5 6$OC=1.01E-5 12$PC=7.4E-7 16
133LA G 914.8 3 3.4 7 [E1] C
133LAS G CC=0.000951 14$KC=0.000823 12$LC=0.0001020 15$MC=2.10E-5 3$NC+=5.42E-6
133LAS G NC=4.61E-6 7$OC=7.51E-7 11$PC=5.90E-8 9
133LA L 1092.38 5 7/2+,9/2+
133LA E 0.046 7 0.67 8 7.74 7 0.72 9
133LAS E EAV=450 14$CK=0.794 6$CL=0.1103 9$CM+=0.03103 23
133LA G 437.69 7 4.2 5 M1,E2 0.017 3
133LA3 G CEK=0.10 3 $ EKC=0.023 7
133LAS G KC=0.0148 24$LC=0.00212 13$MC=0.000442 23$NC+=0.000113 7
133LAS G NC=9.7E-5 6$OC=1.55E-5 12$PC=1.09E-6 23
133LA G 551.2 2 1.8 5 [M1] 0.01123
133LAS G KC=0.00965 14$LC=0.001249 18$MC=0.000258 4$NC+=6.69E-5 10
133LAS G NC=5.69E-5 8$OC=9.28E-6 13$PC=7.38E-7 11
133LA G 597.36 149.6 8 M1,E2 C
133LA3 G CEK=0.07 2 $ EKC=0.007 2
133LAS G CC=0.0078 14$KC=0.0067 13$LC=0.00091 12$MC=0.000189 23$NC+=4.9E-5 7
133LAS G NC=4.1E-5 6$OC=6.7E-6 10$PC=5.0E-7 11
133LA G 615.39 126.9 8 (M1,E2) C
133LA3 G CEK AP 0.06 $ EKC AP 0.0087
133LAS G CC=0.0073 13$KC=0.0062 12$LC=0.00084 11$MC=0.000175 22$NC+=4.5E-5 6
133LAS G NC=3.8E-5 5$OC=6.2E-6 9$PC=4.6E-7 10
133LA cG E$poor fit; the level energy difference is equal to 615.16 {I5} keV
133LA G 961.8 4 4 1 [M1] C
133LAS G CC=0.00295 5$KC=0.00254 4$LC=0.000323 5$MC=6.68E-5 10$NC+=1.728E-5 25
133LAS G NC=1.469E-5 21$OC=2.40E-6 4$PC=1.93E-7 3
133LA G 1004.49 109.0 6 [M1,E2] C
133LAS G CC=0.0023 4$KC=0.0020 4$LC=0.00025 4$MC=5.2E-5 8$NC+=1.35E-5 21
133LAS G NC=1.15E-5 18$OC=1.9E-6 3$PC=1.5E-7 3
133LA L 1153.35 5 13/2-
133LA G 173 2.4 LT(M1,E2) 0.26 3
133LA3 G CEK=0.12 4 $ EKC GT 0.05
133LAS G KC=0.208 10$LC=0.042 16$MC=0.009 4$NC+=0.0023 9
133LAS G NC=0.0020 8$OC=0.00030 10$PC=1.43E-5 12
133LAF G FLAG=H
133LA G 617.7 2 42 6 M1(+E2) C
133LA3 G CEK=0.30 5 $ EKC=0.0071 13
133LAS G CC=0.0072 13$KC=0.0061 12$LC=0.00083 11$MC=0.000173 22$NC+=4.5E-5 6
133LAS G NC=3.8E-5 5$OC=6.1E-6 9$PC=4.6E-7 10
133LA L 1188.56 5 13/2+
133LA E 0.013 5 0.27 10 8.10 16 0.28 10
133LAS E EAV=408 14$CK=0.810 5$CL=0.1127 7$CM+=0.03170 20
133LA G 350.03 11 1.9 4
133LAF G FLAG=H
133LA G 534.3 8 4 2 M1+E2 0.0104 18
133LAS G KC=0.0088 16$LC=0.00122 13$MC=0.00025 3$NC+=6.5E-5 7
133LAS G NC=5.6E-5 6$OC=9.0E-6 11$PC=6.6E-7 14
133LA cG E,RI$from adopted gammas; I|g value normalized to that for 711|g
133LA G 711.42 7 12.5 7 C
133LA L 1194.63 8 7/2,9/2+ ?
133LA E 0.016 3 0.33 4 8.00 6 0.35 4
133LAS E EAV=405 14$CK=0.810 5$CL=0.1128 7$CM+=0.03174 20
133LA G 699.58 7 6.2 5 C
133LAF G FLAG=H
133LA G 1107.1 3 2.8 7
133LAF G FLAG=H
133LA L 1218.90 14 7/2+
133LA E 0.030 5 0.69 7 7.67 6 0.72 7
133LAS E EAV=394 14$CK=0.814 5$CL=0.1133 7$CM+=0.03188 19
133LA G 380.7 2 1.9 5
133LA G 678.3 5 14 AP @C
133LA cG E,RI$transition with this energy de-excites the 765.38 keV state also.
133LA2cG I(|g+ce)=21 {I4} is divided on the basis of coincidence data
133LA3cG (1978He16)
133LA G 1121.5 2 2.5 7
133LA L 1311.09 97/2+,9/2,11/2
133LA E 0.0092 17 0.32 4 7.96 6 0.33 4
133LAS E EAV=354 14$CK=0.825 4$CL=0.1151 6$CM+=0.03238 16
133LA G 656.47 113.3 6 C
133LA G 747.76 135.1 7 C
133LA L 1318.57 10 7/2,9/2+ ?
133LA E 0.013 2 0.46 5 7.80 6 0.47 5
133LAS E EAV=351 14$CK=0.825 4$CL=0.1152 6$CM+=0.03242 15
133LA G 553.16 151.7 5
133LAF G FLAG=B
133LA G 841.37 14 12.7 7
133LAF G FLAG=H
133LA L 1365.01 4 11/2-
133LA E 0.0086 25 0.39 10 7.85 12 0.40 10
133LAS E EAV=330 14$CK=0.830 3$CL=0.1159 5$CM+=0.03263 14
133LA G 211.65 6 7.0 5 M1,E2 0.140 7 C
133LA3 G CEK=0.8 2 $ EKC=0.11 3
133LAS G KC=0.1143 17$LC=0.021 6$MC=0.0044 13$NC+=0.0011 3
133LAS G NC=0.0010 3$OC=0.00015 4$PC=8.0E-6 9
133LA G 319.03 7 8.0 7 M1,E2 0.042 4 C
133LA3 G CEK=0.28 4 $ EKC=0.035 6
133LAS G KC=0.035 4$LC=0.0054 4$MC=0.00114 9$NC+=0.000289 17
133LAS G NC=0.000247 16$OC=3.91E-5 15$PC=2.5E-6 5
133LA G 384.6 5 1.7 LT
133LA G 580.4 5 1 LT
133LA G 802.1 3 4.2 7
133LA G 829.42 1525.7 9 M1(+E2) C
133LA3 G CEK=0.075 9 $ EKC=0.0031 4
133LAS G CC=0.0035 7$KC=0.0030 6$LC=0.00040 7$MC=8.3E-5 13$NC+=2.1E-5 4
133LAS G NC=1.8E-5 3$OC=2.9E-6 5$PC=2.3E-7 5
133LA G 887.7 2 6.2 12
133LA L 1396.40 4 5/2-
133LA G 351 2.3 LT
133LAF G FLAG=H
133LA G 611.83 6 66.2 16M1(+E2) C
133LA3 G CEK=0.45 5 $ EKC=0.0068 7
133LAS G CC=0.0074 14$KC=0.0063 12$LC=0.00085 12$MC=0.000177 23$NC+=4.6E-5 6
133LAS G NC=3.9E-5 5$OC=6.3E-6 9$PC=4.7E-7 11
133LA G 1265.57 159.2 8 C
133LA L 1468.86 4 9/2-
133LA E 0.015 3 1.19 8 7.31 5 1.24 8
133LAS E EAV=285 14$CK=0.8375 19$CL=0.1173 4$CM+=0.03302 11
133LA G 72.39 10 0.56 17[E2] 6.39 D
133LA3 G CEK=1.5 4
133LAS G KC=3.02 5$LC=2.64 4$MC=0.588 9$NC+=0.1419 22
133LAS G NC=0.1244 20$OC=0.0174 3$PC=0.0001553 23
133LAS G N/T=0.012 11$O/T=0.0018 15$P/T=3.0E-5 11
133LA cG RI$from ce(K) and |a(K)=2.7 {I3} if M1, E2
133LA G 150.3 2 D
133LA3 G CEK=0.20 6
133LA G 315.45 8 5.1 6 E2 0.0401 C
133LA3 G CEK=0.16 5 $ EKC=0.030 9
133LAS G KC=0.0325 5$LC=0.00595 9$MC=0.001265 18$NC+=0.000318 5
133LAS G NC=0.000273 4$OC=4.20E-5 6$PC=2.19E-6 3
133LA G 422.92 5 18.1 6 M1,E2 0.019 3 C
133LA3 G CEK=0.30 6 $ EKC=0.017 3
133LAS G KC=0.016 3$LC=0.00233 12$MC=0.000488 20$NC+=0.000125 7
133LAS G NC=0.000107 5$OC=1.71E-5 12$PC=1.20E-6 24
133LA G 684.28 8 10.4 8 [M1] C
133LAS G CC=0.00662 10$KC=0.00570 8$LC=0.000732 11$MC=0.0001513 22$NC+=3.92E-5 6
133LAS G NC=3.33E-5 5$OC=5.44E-6 8$PC=4.34E-7 6
133LA L 1561.16 10(11/2-)
133LA E 0.0033 9 0.50 8 7.64 8 0.50 8
133LAS E EAV=245 14$CK=0.8419 13$CL=0.1182 3$CM+=0.03329 8
133LA G 408.0 5 2.4 AP[M1] 0.0239
133LAS G KC=0.0205 3$LC=0.00268 4$MC=0.000555 8$NC+=0.0001436 21
133LAS G NC=0.0001221 18$OC=1.99E-5 3$PC=1.574E-6 23
133LA cG E$|DE|g is assigned by evaluators
133LA G 581.12 1015.7 15 [E2] C
133LAS G CC=0.00690 10$KC=0.00582 9$LC=0.000857 12$MC=0.000179 3$NC+=4.58E-5 7
133LAS G NC=3.91E-5 6$OC=6.22E-6 9$PC=4.17E-7 6
133LA L 1690.64 4(9/2)-
133LA E 0.008 3 3.89 13 6.66 4 3.90 13
133LAS E EAV=188 14$CK=0.8452 5$CL=0.11910 19$CM+=0.03357 6
133LA G 294.23 5 12.7 6 E2 0.0499 C
133LA3 G CEK=0.5 1 $ EKC=0.04 1
133LAS G KC=0.0403 6$LC=0.00761 11$MC=0.001623 23$NC+=0.000407 6
133LAS G NC=0.000350 5$OC=5.36E-5 8$PC=2.68E-6 4
133LA G 502.04 9 5.1 12[M2] 0.0459 C
133LAS G KC=0.0388 6$LC=0.00564 8$MC=0.001185 17$NC+=0.000306 5
133LAS G NC=0.000261 4$OC=4.23E-5 6$PC=3.23E-6 5
133LA G 644.74 4 50.2 12M1(+E2) C
133LA3 G CEK=0.29 4 $ EKC=0.0061 9
133LAS G CC=0.0065 12$KC=0.0055 11$LC=0.00075 11$MC=0.000155 21$NC+=4.0E-5 6
133LAS G NC=3.4E-5 5$OC=5.5E-6 8$PC=4.1E-7 9
133LA G 906.13 1111.1 7 M1,E2 C
133LA3 G CEK=0.026 5 $ EKC=0.0025 6
133LAS G CC=0.0029 6$KC=0.0025 5$LC=0.00032 5$MC=6.7E-5 11$NC+=1.7E-5 3
133LAS G NC=1.47E-5 23$OC=2.4E-6 4$PC=1.8E-7 4
133LA G 1036.3 3 3.1 15 [E1] C
133LAS G CC=0.000751 11$KC=0.000650 10$LC=8.02E-5 12$MC=1.650E-5 24$NC+=4.26E-6
133LAS G NC=3.62E-6 5$OC=5.90E-7 9$PC=4.67E-8 7
133LA G 1212.9 2 20 2 [E1] C
133LAS G CC=0.000598 9$KC=0.000488 7$LC=5.99E-5 9$MC=1.231E-5 18$NC+=3.85E-5 6
133LAS G NC=2.70E-6 4$OC=4.41E-7 7$PC=3.51E-8 5$IPC=3.53E-5 5
133LA cG E$poor fit; the level energy difference is equal to 1213.43 {I4} keV
133LA L 1715.40 5 7/2-,9/2-
133LA E 0.0053 20 3.20 12 6.73 4 3.21 12
133LAS E EAV=177 14$CK=0.8455 4$CL=0.11924 18$CM+=0.03361 6
133LA G 877.13 149.3 8
133LAF G FLAG=B
133LA G 930.87 124.4 11 C
133LA G 1174.1 3 3.8 10
133LA G 1180.1 2 3.0 7
133LAF G FLAG=H
133LA G 1238.0 2 3.6 7
133LA G 1584.62 6 61 2 E1 C
133LA3 G CEK=0.015 3$ EKC=0.00026 6$
133LAS G CC=0.000636 9$KC=0.000308 5$LC=3.75E-5 6$MC=7.71E-6 11$NC+=0.000283 4
133LAS G NC=1.694E-6 24$OC=2.77E-7 4$PC=2.22E-8 4$IPC=0.000281 4
133LA L 1734.15 14 (11/2-)
133LA E 0.0007 3 0.52 4 7.51 5 0.52 4
133LAS E EAV=168 14$CK=0.8457 4$CL=0.11935 17$CM+=0.03365 6
133LA G 415.4 5 2.5 6
133LAF G FLAG=B
133LA3 G CEK AP 0.1 $ EKC AP 0.04
133LA cG E$|DE is assigned by evaluators
133LA G 754.25 1210.8 6 C
133LA L 1735.44 4 (9/2)-
133LA E 0.012 5 9.36 21 6.25 4 9.37 21
133LAS E EAV=168 14$CK=0.8457 3$CL=0.11935 17$CM+=0.03365 6
133LA G 174.0 2 1.6 8 M1+E2 0.67 7 0.246 5 C
133LA3 G CEK=0.26 4$CEL2=0.023 3$CEL3=0.021 8$EKC=0.16 8$EL2C=0.014 7$
133LA4 G EL3C=0.013 7
133LAS G KC=0.201 3$LC=0.0358 15$MC=0.0076 4$NC+=0.00192 8
133LAS G L2C=0.0068 8$L3C=0.0056 6
133LAS G NC=0.00165 7$OC=0.000256 10$PC=1.450E-5 24
133LA cG MR$calculated by evaluators from K:L2:L3 ratios (1984Gr30) with
133LA2cG BrIccMixing program
133LA G 339.03 5 24.9 15[E2] 0.0320 C
133LAS G KC=0.0262 4$LC=0.00463 7$MC=0.000982 14$NC+=0.000247 4
133LAS G NC=0.000213 3$OC=3.28E-5 5$PC=1.779E-6 25
133LA G 546.86 8 5.8 5 [M2] 0.0357 C
133LAS G KC=0.0302 5$LC=0.00434 6$MC=0.000909 13$NC+=0.000235 4
133LAS G NC=0.000200 3$OC=3.25E-5 5$PC=2.49E-6 4
133LA G 689.48 4 105 3 M1(+E2) C
133LA3 G CEK=0.61 5 $ EKC=0.0062 6
133LAS G CC=0.0055 11$KC=0.0047 9$LC=0.00063 9$MC=0.000130 19$NC+=3.4E-5 5
133LAS G NC=2.9E-5 4$OC=4.6E-6 8$PC=3.5E-7 8
133LA G 950.99 7 32.5 8 (E2) C
133LA3 G CEK=0.053 7 $ EKC=0.0017 3
133LAS G CC=0.00213 3$KC=0.00182 3$LC=0.000244 4$MC=5.06E-5 7$NC+=1.300E-5 19
133LAS G NC=1.108E-5 16$OC=1.79E-6 3$PC=1.334E-7 19
133LA G 1081.1 2 6.6 10 [E1] C
133LAS G CC=0.000694 10$KC=0.000601 9$LC=7.41E-5 11$MC=1.523E-5 22$NC+=3.93E-6 6
133LAS G NC=3.34E-6 5$OC=5.45E-7 8$PC=4.32E-8 6
133LA G 1172.05 1015.1 9 [E1] C
133LAS G CC=0.000617 9$KC=0.000518 8$LC=6.38E-5 9$MC=1.311E-5 19$NC+=2.13E-5 3
133LAS G NC=2.88E-6 4$OC=4.70E-7 7$PC=3.73E-8 6$IPC=1.79E-5 3
133LA G 1199.9 2 40 3 [M1]
133LAS G CC=0.001779 25$KC=0.001530 22$LC=0.000193 3$MC=3.99E-5 6$NC+=1.636E-5 2
133LAS G NC=8.77E-6 13$OC=1.435E-6 20$PC=1.155E-7 17$IPC=6.04E-6 9
133LA G 1258.2 5 12 AP [E1] @C
133LAS G CC=0.000585 9$KC=0.000457 7$LC=5.61E-5 8$MC=1.152E-5 17$NC+=6.09E-5 9
133LAS G NC=2.53E-6 4$OC=4.13E-7 6$PC=3.29E-8 5$IPC=5.79E-5 9
133LA cG RI$22.2 {I10} is divided on the basis of coincidence data (1978He16)
133LA L 1748.29 6 7/2,9/2
133LA E 0.0008 4 0.72 9 7.36 7 0.72 9
133LAS E EAV=162 14$CK=0.8458 3$CL=0.11942 17$CM+=0.03367 6
133LA G 702.37 113.1 5 C
133LA G 963.6 4 4 1 C
133LA G 1207.04 1115.6 9 C
133LA L 1753.62 5 7/2-,9/2,11/2+
133LA E 0.0003115 0.30 6 7.74 10 0.30 6
133LAS E EAV=160 14$CK=0.8458 3$CL=0.11945 17$CM+=0.03368 6
133LA G 1190.33 1011.8 7 C
133LA G 1217.7 3 2.8 7
133LAF G FLAG=H
133LA G 1623.0 2 2.4 6
133LA L 1778.23 9 7/2,9/2,11/2+ ?
133LA E 0.37 5 7.63 7 0.37 5
133LAS E CK=0.8459 2$CL=0.11958 16$CM+=0.03372 5
133LA G 1187.1 2 3.6 7
133LAF G FLAG=H
133LA G 1301.2 3 2.7 7
133LA G 1646.9 3 3.1 8
133LAF G FLAG=H
133LA L 1784.19 6 (9/2+,11/2+)
133LA E 1.01 8 7.19 5 1.01 8
133LAS E CK=0.8460 2$CL=0.11961 16$CM+=0.03373 5
133LA G 419.16 5 12.0 6 C
133LA G 1129.7 2 1.2 AP @C
133LA cG RI$I(|g+ce)=13.5 {I10} is divided on the basis of coincidence data
133LA2cG (1978He16)
133LA G 1221.2 3 6.2 15 C
133LA G 1653.4 2 12.3 8 C
133LA L 1784.76 11 7/2-,9/2,11/2- ?
133LA E 0.44 6 7.55 7 0.44 6
133LAS E CK=0.8460 2$CL=0.11961 16$CM+=0.03373 5
133LA G 692.36 122.6 8
133LAF G FLAG=B
133LA G 739.0 3 2.0 10
133LAF G FLAG=H
133LA G 1000.2 3 2.2 6
133LAF G FLAG=H
133LA G 1249.1 3 4.3 6
133LAF G FLAG=H
133LA L 1806.62 7 (9/2-,11/2-)
133LA E 0.39 5 7.59 7 0.39 5
133LAS E CK=0.8460$CL=0.11972 15$CM+=0.03377 5
133LA G 1152.05 1111.3 8 (E1) C
133LAS G CC=0.000629 9$KC=0.000535 8$LC=6.58E-5 10$MC=1.353E-5 19$NC+=1.506E-5 2
133LAS G NC=2.97E-6 5$OC=4.85E-7 7$PC=3.85E-8 6$IPC=1.156E-5 17
133LA cG M$from ce(K)=2.5 {I5} and |a(K)exp=0.00088 {I18} (calculated by
133LA2cG evaluators) values for the 1152.05|g+1154.68|g, it can be deduced that
133LA3cG one of the two transitions should be of mult=E1 and the other of
133LA4cG mult=E2,M1. If mult(1154|g)=(M1,E2) according to decay pattern
133LA5cG then mult(1152|g)=(E1)
133LA G 1270.95 149.5 8
133LA L 1850.90 5 (9/2-)
133LA E 3.53 10 6.60 4 3.53 10
133LAS E CK=0.84599 9$CL=0.11994 15$CM+=0.03384 5
133LA G 72.67 10 D
133LA3 G CEK=0.20 7
133LA G 102.6 1 D
133LA3 G CEK=0.08 3
133LA G 135.5 2 D
133LA3 G CEK LE 0.1
133LA G 1066.3 3 2.2 8
133LA G 1085.43 1312.0 12
133LA G 1196.28 1116.1 10 C
133LA G 1287.58 7 21.9 8 C
133LA G 1309.7 2 5.0 10
133LA G 1720.2 2 32.7 8 (E1) C
133LAS G CC=0.000693 10$KC=0.000269 4$LC=3.27E-5 5$MC=6.72E-6 10$NC+=0.000385 6
133LAS G NC=1.477E-6 21$OC=2.41E-7 4$PC=1.94E-8 3$IPC=0.000383 6
133LA cG M$deduced by evaluators from ce spectrum (fig. 2) of 1978He16 as
133LA2cG Ice(K)(1720)|