132XE 132I B- DECAY (2.2837 H) 201602
132XE H TYP=UPD$AUT=N.K.Kuzmenko$CUT=22-FEB-2016$
132XE H TYP=FUL$AUT=YU. KHAZOV, A.A. RODIONOV AND S. SAKHAROV, BALRAJ SINGH$
132XE2 H CIT=NDS 104, 497 (2005)$CUT=10-Feb-2005$
132XE c History: Type=UPD;Author=N.K.Kuzmenko;UPD half-life, Q-, B EAV only;
132XE2c Cut=22-FEB-2016
132XE c 1978Ne08: Measured E|g, I|g. Results of E|g and I|g from previous
132XE2c studies (1971We15 and adopted values in 1970Ca04) combined with
132XE3c their own results and also with independent I|g measurements
132XE4c from the Livermore group using a chemically-separated {+132}I source.
132XE5c The authors give averaged E|g and I|g as adopted values. Earlier
132XE6c papers from the same laboratory with some of the same authors:
132XE7c 1973Si29, 1972CaYF, 1970Ha11, 1970Ca04 and 1970Ha11
132XE c 1973Si29: Detailed |g|g coin data, which form the basis of
132XE2c the level scheme presented here
132XE c 1980Gi07: |g|g(|q), |g(|q); oriented nuclei; Ge(Li) detectors
132XE c 1971We15: measured E|g, I|g
132XE c 1970Ca04, 1970Ha11: Measured E|g, I|g, |g|g, ce with Ge(Li)
132XE2c detectors and magnetic spectrometer. 1970Ca04 combine their
132XE3c results for E|g and I|g with those from 1969He18 (also 1967He03),
132XE4c 1966Ar15 and 1967Yt01, and give weighted averaged results as adopted
132XE5c values. 1972CaYF reported experimental K-conversion coefficients
132XE6c for three transitions
132XE c 1970Ar12, 1969Ar05, 1967Ar12, 1967Yt01, 1966Ar15: measured
132XE2c E|g, I|g, |g|g
132XE c 1969He18, 1967He03: |g, ce
132XE c Others:
132XE c 1999Fo01: |b|g coin, deduced Q value
132XE c 1983So04: |g|g(|q) using Ge(Li) and NaI(Tl) combination
132XE c 1973De42: |g|g(|q,H), deduced g factor
132XE c 1972Kr07, 1971Kr16: |g(|q), nuclear orientation; |g|g(|q)
132XE2c with Ge(Li) detectors
132XE c 1972Be90, 1969Fr05: |g|g(|q)
132XE c 1965Jo13: E|g, I|g, ce, |b, |b|g
132XE c 1965Iv03: ce
132XE c 1965Bo23: T{-1/2}, ce
132XE c 1963Ha34, 1962Wi14: ce
132XE c 1962Ra04: |g|g(|q)
132XE c 1961Ro04: |g, |b, |b|g, |g|g, |g|g(|q)
132XE c 1961De17: |g, |b, |b|g, |g|g
132XE c 1954Fi36: |g, |b, |b|g, |g|g
132XE D 1954Fi36: FINSTON AND BERNSTEIN: PHYS REV 96, 71 (1954)
132XE c 1951Ma76: |g, |g|g
132XE D 1951Ma76: MAIENSCHEIN ET AL., PHYS REV 83, 477 (1951)
132XE c T{-1/2}(isotope): 2006Ma87, 1966Ma56, 1965An05, 1958Ke26, 1955Wa35,
132XE2c 1954Em27.
132XE3c Others: 1974Ca26, 1965Si17, 1965Bo23, 1962Wi14, 1957Aa04, 1939Ab02,
132XE4c 1939Ha13
132XE c The level scheme is from detailed |g|g coin study of 1973Si29,
132XE2c extension of that proposed earlier in |g|g coin data of 1970Ha11,
132XE3c 1970Ar12 (also 1967Ar12) and earlier work
132XE cG |a(exp)=Ice/I|g normalized to 667.7, 772.6 and 809.5 E2
132XE2cG transitions. Ice(K) from 1970Ca04 and 1972CaYF. 1970Ca04 obtained
132XE3cG averaged results from their measurements and those from 1969He18,
132XE4cG 1965Jo13, 1965B023 and 1963Ha34.
132XE cG |g(|q): oriented nuclei (1980Gi07)
132XE cG $A{-2} and A{-4} values from |g(|q,T) and |g|g(|q) are from
132XE2cG 1980Gi07, unless otherwise stated. In |g|g(|q), the last
132XE3cG E|g stated in the cascade corresponds to the gate position
132XE cG $A 351.8|g with I|g=0.08 {I2} reported in 1970Ca04 is either an
132XE2cG energy error or from background (1978Ne08). It is not seen
132XE3cG in |g|g coin data of 1973Si29, thus omitted here
132XE cG $The following |g's from 1970Ca04 have been omitted since these are
132XE2cG not confirmed in later studies: 1016.2 {I20} (0.05 {I3}),
132XE3cG 1065.5 {I7} (0.034 {I11}), 1503.6 {I6} (0.009), 1738.0 (<0.018), 1747.0
132XE4cG (<0.018), 1803 (<0.002)
132XE cG E,RI$ Adopted values from 1978Ne08, unless otherwise stated.
132XE2cG The adopted values in 1978Ne08 are from a weighted average of results
132XE3cG of their own measurements, from 1971We15 and averaged results
132XE4cG in 1970Ca04. The values in 1970Ca04 were an average
132XE5cG of their results and from 1969He18, 1967He03, 1967Yt01 and 1966Ar15
132XE cG E(B)$ From {+132}Cs |e decay. Corresponding values
132XE2cG from {+132}I decay agree but are less precise.
132XE cG E(D)$Uncertain |g ray
132XE cG E(F)$Since intensities reported by different groups differ
132XE2cG significantly, this |g may be suspect
132XE cG E(W),RI(W)$From 1971We15, considered as uncertain
132XE cG E(K),RI(K)$May be from background
132XE cG M$ From |a(K)exp. The assignments given in parentheses are
132XE2cG implied from |D(J|p) and |g|g(|q) and/or |g(|q,t) data
132XE cG MR$From |g(|q,T) data of 1980Gi07, unless otherwise stated
132I P 0.0 4+ 2.2837 H 26 3575 4
132XE N 0.987 1.0 1.0
132XE PN 3
132XE cN NR From |SI(|g+ce)=100 to g.s.
132XE G 194.3 5 0.09 W
132XE cG RI$|<0.08 (1978Ne08)
132XE G 241.2 5 0.05 F
132XEF G FLAG=W
132XE cG RI$0.25 {I2} (1978Ne08)
132XE G 296.5 6 0.016 AP W
132XE cG RI$|<0.02 (1978Ne08)
132XE G 376.6 4 0.010 5
132XE G 402.6 6 0.023 W
132XE cG RI$|<0.02 (1978Ne08)
132XE G 609.8 5 0.04 1 D
132XEF G FLAG=K
132XE G 642.4 5 0.035 W
132XE cG RI$|<0.04 (1978Ne08)
132XE G 659.0 7 0.2 LE D
132XE G 1206.7 6 0.017 W
132XEF G FLAG=F
132XE cG RI$0.12 (1978Ne08)
132XE G 1212.3 4 0.012 3 D
132XE G 1360.0 5 0.006 2
132XE G 1531.9 5 0.006 2
132XE G 1559.0 4 0.009 2
132XE G 1639.1 5 0.008 2
132XE G 1679.3 6 0.006 2
132XE G 1720.6 5 0.055 4
132XE G 1768.5 8 0.025 8
132XE G 1830.1 5 0.028 5
132XE G 1925.7 10 0.002 1 D
132XE G 1939.5 7 0.005 2
132XE G 2204.2 6 0.003 2 D
132XEF G FLAG=K
132XE G 2304.4 8 0.015 AP W
132XE cG RI$0.0018 {I6} (1978Ne08)
132XE G 2603.2 5 0.0015 3
132XE G 2607.2 6 0.0010 3
132XE G 2614.5 4 0.0036 12 D
132XEF G FLAG=K
132XE G 2690.8 7 0.0010 3
132XE G 2757.8 7 0.0009 4
132XE G 2766.1 8 0.0004 W
132XE cG RI$<0.0004 (1978Ne08)
132XE L 0.0 0+
132XE L 667.715820 2+
132XE G 667.714 2 100 E2 0.00421 BC
132XES G KC=0.00356 $LC=0.00048
132XE2 G EKC=0.0035 2
132XE cG $ |g(|q): B{-2}U{-2}A{-2}=-0.052 {I5}, B{-4}U{-4}A{-4}=-0.009 {I6}
132XE2cG (1972Kr07)
132XE L 1297.91613 2+
132XE G 630.19 2 13.5 4 M1+E2 +4.07 16 0.00497 BC
132XE DG E$ 630.22 9 (1978Ne08)
132XES G KC=0.00420 $LC=0.00057
132XE2 G EKC=0.0044 3
132XE cG MR$others: +6.1 {I+65-25} (1983So04); +4.5 {I+20-10} (1980Gi07);
132XE2cG +2 {I+3-2} (1972Kr07); +5.3 {I+21-10} (1971Kr16). Alternative
132XE3cG |d=-0.180 {I9} from |g(|q) (1980Gi07) is inconsistent
132XE4cG with |g|g(|q) data
132XE cG $|g(|q): A{-2}=-0.187 {I12}, A{-4}=-0.2 {I9} (1980Gi07); A{-2}=+0.45
132XExcG {I32} (1972Kr07)
132XE dG $ |g(|q): B{-2}U{-2}A{-2}=-0.04 {I3}, B{-4}U{-4}A{-4}=-0.04 {I3}
132XE2dG (1972Kr07)
132XE cG $(630|g)(668|g)(|q): A{-2}=-0.27 {I3}, A{-4}=+0.26 {I5}
132XE DG $(630|g)(668|g)(|q): A2=-0.19 3, A4=+0.31 4 (1971Kr16)
132XE DG $(668|g)(630|g)(|q): A2=-0.16 4, A4=+0.29 5
132XE DG $(630|g)(668|g)(|q): A2=-0.18 5, A4=+0.23 8 (1983So04)
132XE G 1297.91 2 0.90 7 BC
132XE DG E$ 1297.9 4 (1978Ne08)
132XE L 1440.32310 4+
132XE B 19.0 20 7.44 5
132XES B EAV=839.1 19
132XE cB E 2156 {I15} (1961De17), 2140 {I30} (1961Ro04), 2118 {I15}
132XExcB (1965Jo13)
132XE G 772.60 1 76.6 13 E2 0.00294 BC
132XE DG E$ 772.61 8 (1978Ne08)
132XES G KC=0.00250 $LC=0.00033
132XE2 G EKC=0.0028 2 $ ELC=0.00040 9 $ EMC=0.00018 4
132XE cG $ |g(|q): B{-2}U{-2}A{-2}=-0.063 {I5}, B{-4}U{-4}A{-4}=-0.007 {I6}
132XE2cG (1972Kr07)
132XE cG $(773|g)(668|g)(|q): A{-2}=+0.092 {I11}, A{-4}=+0.023 {I16}
132XE DG $(773|g)(668|g)(|q): A2=+0.093 9, A4=+0.004 11 (1971Kr16)
132XE DG $(668|g)(773|g)(|q): A2=+0.095 7, A4=+0.018 9
132XE DG $(668|g)(773|g)(|q): A2=+0.096 9, A4=+0.001 11 (1971Kr16)
132XE DG $(773|g)(668|g)(|q): A2=+0.081 10, A4=+0.010 1 (1983So04)
132XE L 1803.71516 3+
132XE B 0.5 5 8.7 5 ?
132XES B EAV=675.9 18
132XE G 363.34 5 0.5 1 (M1+E2) +1.10 20 0.0239 BC
132XE DG E$ 363.5 4 (1978Ne08)
132XES G KC=0.02023 25$LC=0.00292 3$MC=0.00059 $NC+=0.00015
132XE cG MR$other: -0.23 {I2} (1983So04)
132XE cG $|g(|q): A{-2}=+1.11 {I7}, A{-4}=+0.2 {I11}
132XE cG $(363|g)(773|g)(|q): A{-2}=-0.12 {I2}, A{-4}=-0.02 {I4} (1983So04)
132XE G 505.79 3 5.0 2 M1+E2 +7.5 6 0.00882 BC
132XE DG E$ 505.90 13 (1978Ne08)
132XES G KC=0.00740 $LC=0.00107
132XE2 G EKC=0.0063 9
132XE cG MR$others: -0.1 to -3 (1972Kr07), -1.3 {I4} (1971Kr16).
132XE2cG Alternative |d=+0.40 {I2} (1980Gi07) from |g(|q) is inconsistent
132XE3cG with |g|g(|q) data
132XE cG $|g(|q): A{-2}=-0.366 {I24}, A{-4}=+0.4 {I24}
132XE cG $(506|g)[630|g](668|g)(|q): A{-2}=+0.13 {I3}, A{-4}=+0.04 {I4}
132XExcG (1971Kr16)
132XE dG $ |g(|q): B{-2}U{-2}A{-2}=+0.13 7, B{-4}U{-4}A{-4}=+0.06 7
132XE2dG (1972Kr07)
132XE G 1136.00 2 3.05 14 M1+E2 +0.34 2 0.00159 BC
132XE DG E$ 1136.03 12 (1978Ne08)
132XES G KC=0.00137 $LC=0.00017
132XE2 G EKC=0.0015 3
132XE cG MR$others: +0.45 {I5} (1983So04); +0.22 {I+15-11} (1980Gi07);
132XE2cG +0.9 {I3} (1971Kr16)
132XE cG $|g(|q): A{-2}=-0.29 {I3}, A{-4}=-0.01 {I7}
132XE cG $(1136|g)(668|g)(|q): A{-2}=+0.09 {I8}, A{-4}=+0.18 {I12}
132XE DG $(1136|g+1143|g)(668|g)(|q): A2=+0.21 4, A4=0.00 6 (1971Kr16)
132XE DG $(1136|g)(668|g)(|q): A2=+0.195 18, A4=+0.03 3 (1983So04)
132XE L 1962.98 6 4+
132XE B 12.3 6 7.14 2
132XES B EAV=605.5 18
132XE cB E 1609 {I25} (1961De17)
132XE G 522.65 9 16.2 5 M1+E2 -0.09 1 0.01014 C
132XES G KC=0.00869 $LC=0.00109
132XE2 G EKC=0.0079 4
132XE cG MR$others: -0.23 {I16} (1983So04), -0.28 to -0.54 (1980Gi07);
132XE2cG -0.25 {I15} (1971Kr16)
132XE cG $|g(|q): A{-2}=-0.369 {I8}, A{-4}=-0.042 {I25}
132XE dG $ |g(|q): B{-2}U{-2}A{-2}=-0.120 24, B{-4}U{-4}A{-4}=+0.06 3
132XE2dG (1972Kr07)
132XE cG $(523|g)[773|g](668|g)(|q): A{-2}=+0.27 {I5}, A{-4}=-0.06 {I7}
132XE cG $(523|g)(773|g)(|q): A{-2}=+0.270 {I20}, A{-4}=+0.028 {I24}
132XE DG $(523|g)[773|g](668|g)(|q): A2=+0.25 3, A4=-0.04 4 (1971Kr16)
132XE DG $(523|g)(773|g)(|q): A2=+0.249 25, A4=-0.03 3 (1971Kr16)
132XE DG $(523|g)[773|g](668|g)(|q): A2=+0.20 3, A4=+0.12 5 (1983So04)
132XE DG $(523|g)(773|g)(|q): A2=+0.29 3, A4=-0.01 5 (1983So04)
132XE G 1295.1 2 1.90 7 (E2) 0.00095 C
132XES G KC=0.00081 $LC=0.00010
132XE cG $|g(|q): A{-2}=-0.437 {I8}, A{-4}=-0.31 {I5}
132XE cG $(1295|g)(668|g)(|q): A{-2}=+0.12 {I9}, A{-4}=+0.26 {I14}
132XE DG $(1295|g+1291|g)(668|g)(|q): A2=+0.11 4, A4=-0.03 7 (1971Kr16)
132XE L 1985.641 5 2+
132XE G 1317.918 6 0.120 15 (M1+E2) -0.16 6 BC
132XES G KC=0.00100 $LC=0.00012
132XE cG MR$+3.7 {I+10-6} is inconsistent with that from |g|g(|q) in (n,|g)
132XE cG $|g(|q): A{-2}=-0.22 {I7}, A{-4}=-0.2 {I7}
132XE G 1985.625 6 0.012 2 B
132XE L 2040.1 4 (5-) ?
132XE B 0.12 LT 9.1 GT
132XES B EAV=571.7 18
132XE G 600.0 6 0.13 3 &
132XE L 2110.26 6 4+
132XE B 9.1 9 7.11 5
132XES B EAV=541.2 18
132XE G 147.4 1 0.24 2 M1 0.279 C
132XES G KC= 0.2399 $LC= 0.0314 $MC=0.00633 $NC+=0.00160
132XE2 G EKC=0.14 3
132XE G 306.7 4 0.10 2 &
132XE G 669.8 2 4.7 6 M1+E2 C
132XE2 G EKC=0.0052 16
132XE cG MR$ +0.86 {I16} or +0.05 {I9}
132XE cG $|g(|q): A{-2}=-0.47 {I6}, A{-4}=-0.24 {I26}
132XE G 812.0 2 5.6 4 E2 0.00262 C
132XES G KC=0.00223 $LC=0.00029
132XE2 G EKC=0.0023 3
132XE cG $|g(|q): A{-2}=-0.450 {I10}, A{-4}=-0.36 {I6}
132XE cG $(812|g)[630|g](668|g)(|q): A{-2}=+0.04 {I5}, A{-4}=+0.05 {I7}
132XE cG $(812|g)(630|g)(|q): A{-2}=+0.07 {I6}, A{-4}=+0.02 {I8}
132XE DG $(812|g+810|g)[630|g](668|g)(|q): A2=0.00 3, A4=-0.05 5 (1971Kr16)
132XE G 1442.56 10 1.42 5 E2 0.00076 C
132XES G KC=0.00066
132XE2 G EKC=0.0014 8
132XE DG MR$ -0.02 3 (1983So04)
132XE cG $|g(|q): A{-2}=-0.455 {I10}, A{-4}=-0.32 {I7}
132XE cG $(1443|g)(668|g)(|q): A{-2}=+0.16 {I11}, A{-4}=-0.28 {I16}
132XE DG $(1443|g)(668|g)(|q): A2=+0.13 5, A4=+0.01 9 (1971Kr16)
132XE DG $(1443|g)(668|g)(|q): A2=+0.09 2, A4=-0.1 4 (1983So04)
132XE L 2111.8616 6+
132XE G 671.4 2 3.5 10 E2 0.00415 C
132XES G KC=0.00351 $LC=0.00048
132XE2 G EKC=0.0060 25
132XE L 2167.10 15 5+
132XE B 0.8 6 8.1 4
132XES B EAV=516.6 18
132XE G 727.0 3 2.2 6 M1+E2 C
132XE cG RI$3.2 {I6} for 727.0 and 2.2 {I6} for 727.2 quoted in 1978Ne08
132XE2cG are reverse of those in 1973Si29, from which the values are adopted
132XE cG $|a(K)exp=0.0032 {I7} for a doublet: 727.0+727.2
132XE L 2187.2717 2+
132XE B 0.08 LT 9.1 GT ?
132XES B EAV=507.9 18
132XE G 888.7 5 0.035 8 &?
132XE cG RI$(n,|g) results suggest that most of the intensity of 889|g is
132XE2cG from 2187 level
132XE G 1519.6 2 0.080 5 (M1+E2) C
132XE cG MR$ +2.4 {I5} or -0.03 {I7}
132XE cG $|g(|q): A{-2}=-0.39 {I9}, A{-4}=-0.2 {I8}
132XE G 2187.0 6 0.007 3
132XE L 2303.4615 (6+)
132XE G 136.7 4 0.08 1 M1,E2 0.48 13 &
132XE G 863.0 2 0.57 5 (E2) 0.00227 C
132XES G KC=0.00194 $LC=0.00025
132XE cG $|g(|q): A{-2}=-0.382 {I25}, A{-4}=-0.18 {I11}
132XE L 2350.63 9 5+
132XE B 0.7 2 7.93 13
132XES B EAV=438.2 17
132XE G 183.6 3 0.14 2 M1,E2 0.18 4
132XE2 G EKC=0.15 4
132XE G 387.9 3 0.30 5 (M1+E2) &
132XE cG MR$ -1.54 {I22} or -0.45 {I8}
132XE cG $|g(|q): A{-2}=+0.94 {I3}, A{-4}=+0.26 {I24}
132XE G 547.2 2 1.15 8 E2 0.00708 C
132XES G KC=0.00596 $LC=0.00084
132XE2 G EKC LE 0.004
132XE cG $|g(|q): A{-2}=-0.416 {I24}, A{-4}=-0.22 {I10}
132XE G 910.1 2 0.94 3 (M1+E2) -1.27 22 0.00228 7 C
132XES G KC=0.00195 6$LC=0.00025
132XE cG $|g(|q): A{-2}=+1.02 {I6}, A{-4}=+0.29 {I12}
132XE cG $(910|g)[773|g](668|g)(|q): A{-2}=-0.32 {I20}, A{-4}=+0.05 {I31}
132XE cG $(910|g)(773|g)(|q): A{-2}=-0.33 {I12}, A{-4}=-0.11 {I16}
132XE DG $(910|g)[773|g](668|g)(|q): A2=-0.18 11, A4=-0.08 16 (1983So04)
132XE DG $(630|g)(773|g)(|q): A2=-0.20 16, A4=-0.1 4 (1983So04)
132XE L 2394.99 7 4+
132XE B 19.0 5 6.43 1
132XES B EAV=419.5 17
132XE G 284.9 1 0.72 7 M1+E2 -0.26 3 0.0473 C
132XES G KC=0.04057 $LC=0.00533 3$MC=0.00107 $NC+=0.00027
132XE2 G EKC=0.034 7
132XE cG $|g(|q): A{-2}=-0.235 {I23}, A{-4}=-0.02 {I14}
132XE G 355.2 4 0.05 2 & ?
132XE G 431.8 3 0.48 5 (M1+E2) +0.06 4 0.01616 C
132XES G KC=0.01394 $LC=0.00177 $MC=0.00036
132XE cG $|g(|q): A{-2}=+0.477 {I23}, A{-4}=-0.01 {I16}
132XE G 591.1 6 0.07 3 &
132XE G 954.55 9 17.8 5 M1+E2 -0.07 1 0.00243 C
132XES G KC=0.00208 $LC=0.00026
132XE2 G EKC=0.0020 2
132XE cG MR$others: -0.03 {I3} (1983So04); -0.12 {I6} (1980Gi07); -0.15 {I5}
132XExcG (1971Kr16)
132XE cG $|g(|q): A{-2}=-0.386 {I6}, A{-4}=-0.03 {I4}
132XE dG $ |g(|q): B{-2}U{-2}A{-2}=-0.087 16, B{-4}U{-4}A{-4}=-0.008 18
132XE2dG (1972Kr07)
132XE cG $(955|g)[773|g](668|g)(|q): A{-2}=+0.28 {I4}, A{-4}=+0.01 {I6}
132XE cG $(955|g)(773|g)(|q): A{-2}=+0.222 {I13}, A{-4}=+0.005 {I16}
132XE DG $(955|g)[773|g](668|g)(|q): A2=+0.225 14, A4=-0.002 17 (1971Kr16)
132XE DG $(955|g)(773|g)(|q): A2=+0.237 13, A4=-0.004 16 (1971Kr16)
132XE DG $(955|g)[773|g](668|g)(|q): A2=+0.19 3, A4=+0.03 4 (1983So04)
132XE DG $(955|g)(773|g)(|q): A2=+0.209 11, A4=-0.005 18 (1983So04)
132XE G 1096.9 4 0.045 8
132XE G 1727.2 4 0.068 6 (E2)
132XE cG $|g(|q): A{-2}=-0.47 {I8}, A{-4}=-0.3 {I5}
132XE L 2424.78 12 3+
132XE B 2.5 2 7.27 4
132XES B EAV=407.1 17
132XE G 621.2 3 1.6 2 M1(+E2) C
132XE2 G EKC=0.0088 23
132XE G 984.2 2 0.60 4 (M1+E2) -0.28 1 0.00222 C
132XES G KC=0.00191 $LC=0.00024
132XE cG $|g(|q): A{-2}=-0.214 {I7}, A{-4}=+0.01 {I4}
132XE G 1126.5 4 0.05 2 &
132XE G 1757.4 2 0.30 3 (M1+E2) +0.10 1 C
132XE cG $|g(|q): A{-2}=+0.153 {I24}, A{-4}=+0.03 {I12}
132XE L 2583.7810 5+
132XE B 3.2 2 6.92 3
132XES B EAV=341.5 17
132XE G 416.8 3 0.48 5 (M1+E2) -1.70 23 0.0158
132XES G KC=0.01335 16$LC=0.00194 $MC=0.00040
132XE cG $|g(|q): A{-2}=+0.336 {I20}, A{-4}=-0.33 {I9}
132XE G 473.6 4 0.17 4
132XE G 620.9 2 0.4 2 C
132XE G 780.0 2 1.20 4 (E2) 0.00288 C
132XES G KC=0.00244 $LC=0.00032
132XE cG $|g(|q): A{-2}=-0.421 {I19}, A{-4}=-0.24 {I8}
132XE G 1143.3 2 1.37 6 M1+E2 -0.20 2 0.00160 C
132XES G KC=0.00137 $LC=0.00017
132XE2 G EKC=0.0021 4
132XE cG MR$others: -0.04 {I+4-9} (1971Kr16); -0.22 {I11} (1980Gi07)
132XE cG $|g(|q): A{-2}=+0.64 {I3}, A{-4}=+0.03 {I4}
132XE cG $(1143|g)[773|g](668|g)(|q): A{-2}=-0.24 {I12}, A{-4}=-0.16 {I18}
132XE cG $(1143|g)(773|g)(|q): A{-2}=-0.21 {I8}, A{-4}=+0.04 {I10}
132XE DG $(1136|g+1143|g)(773|g)(|q): A2=-0.10 5, A4=-0.03 8 (1971Kr16)
132XE L 2588.69 9 (4+)
132XE B 2.73 12 6.99 2
132XES B EAV=339.5 17
132XE G 478.2 4 0.17 4
132XE G 784.4 4 0.39 4 (M1+E2) +1.2 5 0.0032 3 C
132XE cG MR$+0.72 to +1.72
132XE cG $|g(|q): A{-2}=-0.77 {I7}, A{-4}=+0.20 {I26}
132XES G KC=0.00277 23$LC=0.00036
132XE G 1147.8 5 0.27 5 C
132XE G 1290.8 2 1.14 5 (E2) 0.00096 C
132XES G KC=0.00082 $LC=0.00010
132XE DG MR$ +0.01 8 (1971Kr16) FOR J(2589)=3
132XE cG $|g(|q): A{-2}=-0.455 {I12}, A{-4}=-0.31 {I9}
132XE cG $(1291|g)[630|g](668|g)(|q): A{-2}=+0.09 {I11}, A{-4}=-0.12 {I12}
132XE cG $(1291|g)(630|g)(|q): A{-2}=+0.17 {I13}, A{-4}=+0.10 {I16}
132XE DG $(1291|g+1295|g)(668|g)(|q): A2=+0.11 4, A4=-0.03 7 (1971Kr16)
132XE G 1921.08 12 1.25 6 (E2) C
132XE cG $|g(|q): A{-2}=-0.453 {I4}, A{-4}=-0.33 {I3}
132XE L 2613.44 9 5+
132XE B 8.2 4 6.47 2
132XES B EAV=329.5 17
132XE G 262.9 1 1.30 10 M1+E2 -0.16 5 0.0583 C
132XES G KC=0.05016 5$LC=0.00653 6$MC=0.00131 $NC+=0.00033
132XE2 G EKC=0.047 7
132XE cG $|g(|q): A{-2}=-0.34 {I4}, A{-4}=-0.06 {I6}
132XE G 310.1 4 0.09 2 &
132XE G 446.2 3 0.61 5 M1,E2
132XE2 G EKC=0.012 4
132XE G 572.5 4 0.06 2 & ?
132XE G 650.5 2 2.6 2 M1+E2 -0.36 3 0.00580 C
132XES G KC=0.00497 $LC=0.00063
132XE2 G EKC=0.0067 27
132XE DG MR$ -0.16 11 (1983So04)
132XE cG $|g(|q): A{-2}=+0.85 {I3}, A{-4}=+0.10 {I4}
132XE DG $(650|g)[523|g](773|g)(|q): A2=-0.15 6, A4=+0.01 10 (1983So04)
132XE G 809.5 2 2.6 3 E2 0.00263 C
132XES G KC=0.00224 $LC=0.00030
132XE2 G EKC=0.0032 7
132XE cG $|g(|q): A{-2}=-0.429 {I23}, A{-4}=-0.25 {I10}
132XE DG $(810|g+812|g)(668|g)(|q): A2=0.00 3, A4=-0.05 5 (1971Kr16)
132XE G 1172.9 2 1.10 7 M1+E2 -0.57 2 0.00143 C
132XES G KC=0.00123 $LC=0.00015
132XE2 G EKC=0.0012 4
132XE cG MR$others: -0.6 {I4} or -2.0 {I+9-60} (1983So04); -0.53 {I+22-11}
132XE2cG (1980Gi07); -0.40 {I15} (1971Kr16)
132XE cG $|g(|q): A{-2}=+1.025 {I12}, A{-4}=+0.16 {I6}
132XE cG $(1173|g)[773|g](668|g)(|q): A{-2}=-0.48 {I14}, A{-4}=+0.16 {I28}
132XE cG $(1173|g)(773|g)(|q): A{-2}=-0.42 {I11}, A{-4}=-0.16 {I14}
132XE DG $(1173|g)[773|g](668|g)(|q): A2=-0.31 11, A4=+0.05 13 (1971Kr16)
132XE DG $(1173|g)(773|g)(|q): A2=-0.31 8, A4=-0.04 10 (1971Kr16)
132XE DG $(1173|g)(773|g)(|q): A2=-0.39 18, A4=+0.16 27 (1983So04)
132XE L 2669.9911 3+
132XE B 3.4 2 6.75 3
132XES B EAV=306.7 16
132XE G 559.7 4 0.09 2
132XE G 684.4 2 0.04 1 F ?
132XE cG E,RI$average of 1971We15 and livermore data in 1978Ne08.
132XE2cG I|g=0.16 in spectrum of 1978Ne08
132XE G 706.4 7 0.02 AP
132XE G 866.0 6 0.036 14 &
132XE G 1372.07 13 2.5 1 M1+E2 -0.13 1 0.00107 C
132XES G KC=0.00092 $LC=0.00011
132XE2 G EKC=0.0010 2
132XE DG MR$ +0.02 7 (1983So04)
132XE cG $|g(|q): A{-2}=+0.583 {I6}, A{-4}=+0.009 {I25}
132XE cG $(1372|g)[630|g](668|g)(|q): A{-2}=-0.07 {I5}, A{-4}=+0.01 {I7}
132XExcG (1971Kr16)
132XE DG $(1372|g)[630|g](668|g)(|q): A2=+0.010 11, A4=-0.015 17 (1983So04)
132XE G 2002.2 5 1.15 8 (M1+E2) -0.73 11 C
132XE cG $|g(|q): A{-2}=+1.086 {I7}, A{-4}=+0.19 {I3}
132XE L 2754.44 11 (4+)
132XE B 0.35 4 7.59 5
132XES B EAV=273.2 16
132XE G 791.2 4 0.10 2 ?
132XE G 1314.0 5 0.060 9 ?
132XE G 1456.5 2 0.050 7 C
132XE G 2086.82 15 0.26 2 (E2) C
132XE cG $|g(|q): A{-2}=-0.445 {I20}, A{-4}=-0.31 {I12}
132XE L 2838.85 7 5+
132XE B 13.0 8 5.85 3
132XES B EAV=240.4 16
132XE G 250.8 6 0.018 5 &
132XE G 255.1 2 0.24 2 M1,E2 @
132XE2 G EKC=0.061 15
132XE G 488.0 4 0.42 5 &
132XE G 535.4 3 0.52 5 (M1+E2) +0.09 2 0.00956 C
132XES G KC=0.00819 $LC=0.00103
132XE cG $|g(|q): A{-2}=+0.30 {I3}, A{-4}=+0.02 {I6}
132XE G 727.2 3 3.2 6 M1+E2 C
132XE cG $|a(K)exp=0.0032 {I7} for a doublet
132XE cG MR$1971Kr16 give -0.32 {I4}, but 727|g is a doublet: 727.0+727.2
132XE DG $(727|g)[671|g+773|g](668|g)(|q): A2=+0.11 3, A4=+0.04 5 (1971Kr16)
132XE cG $(727|g)[671|g](773|g)(|q): A{-2}=+0.11 {I4}, A{-4}=0.00 {I5}
132XExcG (1971Kr16)
132XE G 728.4 2 1.6 4 (M1+E2) -4.1 4 C
132XE cG $|g(|q): A{-2}=+0.45 {I4}, A{-4}=+0.53 {I17}
132XE G 1035.0 2 0.52 5 (E2) 0.00152 C
132XES G KC=0.00130 $LC=0.00017
132XE cG $|g(|q): A{-2}=-0.43 {I3}, A{-4}=-0.25 {I19}
132XE G 1398.57 10 7.1 2 M1+E2 +0.07 1 0.00103 C
132XES G KC=0.00088 $LC=0.00011
132XE2 G EKC=0.00095 10
132XE cG MR$others: +0.04 {I2} (1983So04); +0.08 {I3} (1980Gi07); +0.07 {I2}
132XExcG (1971Kr16)
132XE cG $|g(|q): A{-2}=+0.162 {I12}, A{-4}=0.00 {I6}
132XE cG $(1399|g)[773|g](668|g)(|q): A{-2}=-0.06 {I4}, A{-4}=+0.04 {I6}
132XE cG $(1399|g)(773|g)(|q): A{-2}=-0.009 {I23}, A{-4}=-0.01 {I3}
132XE DG $(1399|g)[773|g](668|g)(|q): A2=-0.035 16, A4=-0.01 3 (1971Kr16)
132XE DG $(1399|g)(773|g)(|q): A2=-0.020 14, A4=+0.006 25 (1971Kr16)
132XE DG $(1399|g)[773|g](668|g)(|q): A2=-0.049 15, A4=+0.059 25 (1983So04)
132XE DG $(1399|g)(773|g)(|q): A2=-0.03 3, A4=+0.04 4 (1983So04)
132XE L 2840.10 12 4(+)
132XE B 1.28 5 6.85 2
132XES B EAV=240.0 16
132XE G 250.8 6 0.018 5 &
132XE G 445.0 6 0.1 W ?
132XE cG RI$|<0.1 (1978Ne08)
132XE G 876.6 2 1.05 4 (M1+E2) -1.2 5 0.00251 C
132XES G KC=0.00214 18$LC=0.00027
132XE cG MR$from (877|g)[523|g](773|g)(|q): A{-2}=+0.13 {I7}, A{-4}=+0.15 {I11}
132XExcG (1983So04)
132XE G 1542.3 6 0.016 2
132XE G 2172.68 15 0.21 2 (E2) C
132XE cG $|g(|q): A{-2}=-0.46 {I3}, A{-4}=-0.28 {I17}
132XE L 2890.6911 (4+)
132XE B 0.90 6 6.90 3
132XES B EAV=220.7 16
132XE G 136.7 4 0.08 1 M1,E2 0.48 13 &
132XE2 G EKC=0.31 14
132XE G 306.7 4 0.10 2 &
132XE G 539.7 4 0.11 2 & ?
132XE G 904.4 5 0.013 4
132XE G 927.4 3 0.42 4 (M1+E2) -0.27 6 0.00255 C
132XE cG $|g(|q): A{-2}=-0.22 {I5}, A{-4}=-0.10 {I15}
132XES G KC=0.00219 $LC=0.00027
132XE G 1086.2 4 0.08 2
132XE G 1450.0 5 0.008 2
132XE G 1592.9 3 0.048 4
132XE G 2223.17 15 0.12 2 (E2) C
132XE cG $|g(|q): A{-2}=-0.46 {I4}, A{-4}=-0.29 {I21}
132XE L 2916.8513 (2+,3,4+)
132XE B 0.10 LT 7.8 GT ?
132XES B EAV=210.9 15
132XE G 1112.4 4 0.066 15
132XE G 1476.7 2 0.132 9 C
132XE G 1618.9 3 0.007 5 C
132XE G 2249.1 3 0.034 2 C
132XE L 2935.2 4
132XE G 1636.5 6 0.012 4 &C
132XE L 2958.7419 (2+,3,4+)
132XE G 771.7 0.02 2 ? ?
132XE cG E,RI$from 1973Si29
132XE G 847.9 5 0.017 5
132XE G 995.8 5 0.03 1
132XE G 1661.4 5 0.016 3
132XE G 2290.6 6 0.0036 8 C
132XE L 3058.14 11 (3+)
132XE B 0.66 6 6.61 5
132XES B EAV=159.1 15
132XE G 387.9 3 0.30 5 &
132XE G 947.2 6 0.045 14
132XE G 1254.1 4 0.060 7 (M1+E2) +1.71 9 0.00109
132XES G KC=0.00093 $LC=0.00012
132XE cG $|g(|q): A{-2}=-0.319 {I23}, A{-4}=-0.26 {I13}
132XE G 1617.9 2 0.010 5 C
132XE G 1760.4 6 0.06 2
132XE G 2390.48 15 0.19 2 C
132XE L 3076.42 17 (3+)
132XE B 0.75 6 6.5 4
132XES B EAV=152.6 15
132XE G 488.0 4 0.42 5 (M1+E2) +0.69 72 &
132XE cG $|g(|q): A{-2}=-0.56 {I15}, A{-4}=0.0 {I7}
132XE cG MR$-0.03 to +1.40
132XE G 888.7 5 0.035 8 &
132XE G 965.8 5 0.035 8
132XE G 1272.8 4 0.17 2 (M1+E2) +1.89 13 0.00105 C
132XES G KC=0.00090 $LC=0.00011
132XE cG $|g(|q): A{-2}=-0.28 {I3}, A{-4}=-0.42 {I15}
132XE G 1636.5 6 0.012 4 &
132XE G 1778.5 4 0.080 8 C
132XE G 2408.6 4 0.0095 8 ?
132XE L 3084.4 5 (3,4+)
132XE B 0.024 5 7.97 10
132XES B EAV=149.8 15
132XE G 1644.0 6 0.013 4
132XE G 1786.5 6 0.011 2 &
132XE G 2417.1 4 0.0014 6 F ?
132XE cG E,RI$from 1978Ne08. I|g=0.01 (1971We15)
132XE L 3112.0820 (3,4+)
132XE B 0.16 3 7.06 9
132XES B EAV=140.2 14
132XE G 687.8 5 0.04 2
132XE G 1002.5 6 0.026 7 &?
132XE G 1126.5 4 0.05 2 &
132XE G 1671.3 4 0.022 4 C
132XE G 1814.0 5 0.016 4
132XE G 2444.0 6 0.0057 8
132XE L 3121.8 3 (4+)
132XE B 0.083 11 7.32 6
132XES B EAV=136.8 14
132XE G 539.7 4 0.11 2 & ?
132XE G 1009.0 4 0.047 7 ?
132XE G 1081.8 4 0.035 8 &
132XE G 2454.8 4 0.0021 5
132XE L 3155.6 3 (3+,4+)
132XE B 0.18 2 6.87 5
132XES B EAV=125.2 14
132XE G 316.7 4 0.13 2
132XE G 572.5 4 0.06 2 & ?
132XE G 1715.4 4 0.056 4 C
132XE G 2487.8 6 0.0008 2
132XE L 3192.7814 (3+)
132XE B 0.14 2 6.85 7
132XES B EAV=112.6 14
132XE G 234.3 6 0.03 1
132XE G 302.0 7 0.005 AP W ?
132XE G 355.2 4 0.05 2 & ?
132XE G 1005.4 6 0.016 5
132XE G 1081.8 4 0.035 8 &
132XE G 1752.3 7 0.025 8 ?
132XE G 2525.14 15 0.040 4 (M1+E2) +0.46 5 C
132XE cG $|g(|q): A{-2}=-0.45 {I6}, A{-4}=+1.1 {I3}
132XE L 3213.9520 (3,4+)
132XE B 0.22 4 6.57 8
132XES B EAV=105.6 14
132XE G 255.1 3 0.02 LT @
132XE G 278.4 4 0.04 1 &
132XE G 600.0 6 0.13 3 &
132XE G 1410.6 3 0.044 7
132XE G 2546.5 6 0.0016 5
132XE L 3226.7220 (3,4,5)
132XE B 0.45 6 6.20 6
132XES B EAV=101.3 14
132XE G 310.1 4 0.09 2 &
132XE G 387.9 3 0.30 5 &
132XE G 831.3 5 0.025 10
132XE G 1263.6 5 0.027 6
132XE G 1786.5 6 0.011 2 &
132XE L 3237.2 3 (3,4+)
132XE B 0.069 13 6.98 9
132XES B EAV=97.9 14
132XE G 278.4 4 0.04 1 &
132XE G 886.1 5 0.025 8
132XE G 2569.8 4 0.005 1 C
132XE L 3260.9 3 (3,4+)
132XE B 0.19 4 6.43 10
132XES B EAV=90.2 13
132XE G 343.7 4 0.09 2
132XE G 591.1 6 0.07 3 &
132XE G 866.0 6 0.036 14 &
132XE G 2593.8 8 0.0012 3
132XE L 3320.4 4 (3,4+)
132XE B 0.015 3 7.24 9
132XES B EAV=71.4 13
132XE G 1879.2 5 0.014 3 ?
132XE G 2653.8 6 0.0010 3
132XE L 3353.4 3 (4+,5)
132XE B 0.10 2 6.38 9
132XES B EAV=61.3 13
132XE G 1002.5 6 0.026 7 &
132XE G 1049.6 4 0.047 12 C
132XE G 1242.6 7 0.012 W ?
132XE cG RI$|<0.009 (1978Ne08)
132XEF G FL=2110.26
132XE G 1390.7 7 0.015 10 F ?
132XE G 1913.7 5 0.03 1
132XE L 3385.2 6 (3,4+)
132XE B 0.0035 5 6.17 9
132XES B EAV=51.8 12
132XE G 2717.5 6 0.0035 5 ?