147EU 147GD EC DECAY (38.06 H) 1977GR23,1980VY01 22NDS 202203
147EU H TYP=FUL$AUT=N. Nica and B. Singh$CIT=NDS 181, 1 (2022)$CUT=9-Mar-2022$
147GD P 0.0 7/2- 38.06 H 12 2187.7 25
147GD cP E,J,T$from {+147}Gd Adopted Levels
147GD cP QP$From 2021Wa16
147EU N 0.099 4 0.099 4 1.00
147EU PN 4
147EU cN NR$based on measured I(|e+|b{++})=0.6% {I2} to g.s. (1980Vy01) one
147EU2cN obtains I|g normalization=0.099 {I4}
147EU c 1977Gr23: measured E|g, I|g, I(ce)
147EU c 1980Vy01: measured E|g, I|g, I(ce), ce|g, E|b+, I|b{++}
147EU c Others: 1951Ho30, 1956St23, 1957Sh46, 1958An36, 1958Ad38, 1958An36,
147EU2c 1959Dz05, 1960Be27, 1960Bo34, 1961So03, 1962Be20, 1962Sc09, 1963Da16,
147EU2c 1963Fr02, 1965Gr36, 1966Av02, 1968Mi12, 1969Ad04, 1969Av04, 1969Ch32,
147EU2c 1970Kl07, 1971Va37, 1972Gr18, 1975VyZV, 1985JuZY, 1996Vy02
147EU c E|b, I|b measurements: 1996Vy02, 1956St23, 1960Bo34, 1965Gr36, 1969Ad04
147EU c |g|g coin: 1959Dz05, 1961So03, 1968Mi12, 1972Gr18
147EU cL E$From least-squares fit to E|g's
147EU cL E$Observed by 1977Gr23, unless noted otherwise
147EU cL J Adopted values, unless otherwise noted.
147EU cL E(A)$Observed by 1980Vy01
147EU cG $|a(K)exp from 1977Gr23 normalized to |a(K)(625.2|g)=0.015 (E3 theory);
147EU2cG those from 1980Vy01 normalized to |a(K)(395.94|g)=0.128 (M2 theory)
147EU cG Relative ce(K) are normalized to I(ce(K) 625|g)=0.66
147EU2cG (1977Gr23). I(ce) data are from 1972Gr18, 1969Av04 and others quoted
147EUxcG by 1977Gr23
147EU cG $Annihilation radiation was reported by 1977Gr23 with an
147EU2cG intensity of 5.2 {I10} (relative to 229|g).
147EU cG $Unplaced |g's are from 1977Gr23
147EU cG E$From 1977Gr23 who measured most of the |g's, and from 1980Vy01
147EU2cG (noted separately). While both used Ge(Li) or Ge detectors, the
147EU2cG precision of the 1980Vy01 data goes usually to the rather
147EU2cG unrealistic hundredth keV level, reason for which the E|g data
147EU2cG from 1977Gr23 are here adopted preferentially
147EU cG RI$Relative intensities from 1977Gr23 (default) and 1980Vy01 (noted
147EU2cG separately). The intensities of 1980Vy01 were converted to 1977Gr23
147EU2cG scale by multiplication with 6.463 (average of intensity ratios
147EU2cG of the two refs of the following most intense |g's: 229, 310, 370, 396,
147EU2cG 559, 625, 776, 766, 894, 929, 1069, 1131)
147EU cG E(a),RI(b)$From 1980Vy01
147EU cG RI(B)$I|g(286.6|g+287.4|g)=2.1 {I4} (1977Gr23), I|g(286.6|g)=1.80 {I10}
147EU2cG (1980Vy01), I|g(287.4|g)=0.3 {I4} (by subtraction); doublet
147EU2cG |a(K)exp=0.071 (1977Gr23), |a(K)exp=0.051 {I11} (1980Vy01)
147EU cG RI(L)$I|g(1565.2|g+1565.9|g)=3.7 {I3} (1977Gr23), I|g(1565.9|g)=2.22
147EU2cG {I19} (1980Vy01); I|g(1565.2|g)=1.5 {I4} (by subtraction)
147EU cG RI(F) I|g(569.6|g+570.5|g)=1.3 {I5}, doublet |a(K)exp=0.016
147EU cG RI(A) I|g(703.9|g+704.5|g)=6.6 {I4}, doublet |a(K)exp=0.014 {I3}
147EU2cG (1977Gr23); I|g(704.5|g)=7.51 {I23}, |a(K)exp(704.5|g)=0.0080 {I11}
147EU2cG (1980Vy01) ce(K)=0.062 {I7}
147EU cG M$From 1977Gr23 based on |a(K)exp and ce-ratio data
147EU cG M(c)$From 1980Vy01 based on |a(K)exp
147EU cG CC(d)$|a estimated as average of minimum and maximum of the
147EU2cG E1, M1, E2 |a values calculated for this |g (for intensity balance)
147EU G 64.4 1.06 16M1+E2 0.292 +13-6 7.06 118.7 10
147EU2 G %IG=0.107 16
147EUS G K/T=0.664 7$L/T=0.165 6$M/T=0.0370 15$N+/T=0.0096 4
147EUS G N/T=0.0083 4$O/T=0.00123 5$P/T=7.28E-5 15
147EU cG RI from ce(L1)=0.75 {I9}, |a(L1)=7.05.
147EU cG MR from L1/L2=(0.75 {I9})/(0.34 {I13}).
147EU cG TI from ce(L1), |a(L1) and |a.
147EU G 102.8 2
147EU cG ce(K)=0.26 {I6}
147EU G 209.2 1
147EU cG ce(K)=0.19 {I3}
147EU cG I|g(209.2|g+210.4|g)<0.6
147EU G 210.4 1
147EU cG ce(K)=0.15 {I3}
147EU G 213.5 2
147EU cG ce(K)=0.07 {I2}
147EU G 216.9 1 12.4 17E1 0.0354
147EU2 G %IG=1.23 18
147EUS G KC=0.0300 5$LC=0.00419 6$MC=0.000900 13$NC+=0.000238 4
147EUS G NC=0.000204 3$OC=3.15E-5 5$PC=2.76E-6 4
147EU cG |a(K)exp=0.034 {I6}
147EU G 286.6 3 1.80 10 B
147EU2 G %IG=0.178 12
147EU3 G CEK=0.09 4
147EU G 287.4 1 0.3 4 B
147EU2 G %IG=0.03 4
147EU3 G CEK=0.06 4
147EU G 376.0 5 1.8 1
147EU2 G %IG=0.178 12
147EU G 490.6 100.33 10
147EU2 G %IG=0.033 10
147EU G 529.95 180.25 8 M1,E2 0.016 5
147EU2 G %IG=0.025 8
147EUF G FLAG=abc
147EUS G KC=0.013 4$LC=0.0020 4$MC=0.00043 8$NC+=0.000115 22
147EUS G NC=9.8E-5 18$OC=1.5E-5 4$PC=1.4E-6 5
147EU cG $same as 529.2|g, I|g=0.4 {I2} in 1977Gr23
147EU G 560.3 1 3 LE
147EU2 G %IG<0.297
147EU3 G EKC GE 0.012$CEK=0.036 12
147EU G 570.5 6 1.3 LT F
147EU2 G %IG<0.129
147EU3 G CEK=0.007 4
147EU G 646.8 9 0.74 8
147EU2 G %IG=0.073 8
147EU G 703.9 7 6.6 LT A
147EU2 G %IG<0.653
147EU3 G CEK=0.033 8
147EU G 726.6 7 0.3 LT
147EU2 G %IG<0.0297
147EU3 G CEK=0.011 4
147EU G 733.2 7 0.8 LT
147EU2 G %IG<0.0792
147EU3 G CEK=0.018 3
147EU G 820.53 201.9 2 M1,E2 0.0054 14
147EU2 G %IG=0.188 21
147EUS G KC=0.0046 13$LC=0.00065 15$MC=0.00014 3$NC+=3.7E-5 9
147EUS G NC=3.2E-5 7$OC=5.0E-6 12$PC=4.9E-7 14
147EU3 G EKC=0.0047 16
147EU G 867.8 9 0.3 LE
147EU2 G %IG=0.015 15
147EU G 896.5 9 2 LE
147EU2 G %IG<0.198
147EU3 G EKC GT 0.002$CEK=0.006 3
147EU G 936.8 100.16 4
147EU2 G %IG=0.016 4
147EU G 954.8 101.8 5 E1 1.18E-3
147EU2 G %IG=0.18 5
147EUS G KC=0.001014 15$LC=0.0001316 19$MC=2.81E-5 4$NC+=7.54E-6 11
147EUS G NC=6.42E-6 9$OC=1.017E-6 15$PC=1.014E-7 15
147EU3 G EKC=0.0010 4
147EU G 966 1 0.3 LT
147EU2 G %IG<0.0297
147EU G 968.4 3 1.1 2
147EU2 G %IG=0.109 20
147EU G 975 1 0.2 LT
147EU2 G %IG<0.0198
147EU G 988.6 4 1.24 15M1,E2 0.0035 9
147EU2 G %IG=0.123 16
147EUS G KC=0.0030 8$LC=0.00041 9$MC=8.9E-5 19$NC+=2.4E-5 6
147EUS G NC=2.0E-5 5$OC=3.2E-6 7$PC=3.2E-7 9
147EU3 G EKC=0.0024 7
147EU G 1081.0 6 0.7 2
147EU2 G %IG=0.069 20
147EU G 1196.9 4 0.25 20
147EU2 G %IG=0.025 20
147EU G 1216 1 0.3
147EU2 G %IG=0.0297 12
147EU G 1270.2 4 0.45 5
147EU2 G %IG=0.045 5
147EU G 1305.7 4 0.45 5
147EU2 G %IG=0.045 5
147EU G 1406.7 100.05 LT
147EU2 G %IG<0.00495
147EU G 1409.5 8 0.05 LT
147EU2 G %IG<0.00495
147EU G 1530.7 5 0.54 5
147EU2 G %IG=0.053 5
147EU G 1601.5 150.1 AP
147EU2 G %IG AP 0.0099
147EU2 G %IG AP 0.0099 $
147EU G 1641 2 0.05 LT
147EU2 G %IG<0.00495
147EU G 1735 AP0.03 3
147EU2 G %IG=0.0030 30
147EU G 1775 2 0.02 LT
147EU2 G %IG<0.00198
147EU G 1783.3 5 0.04 AP
147EU2 G %IG AP 0.00396
147EU2 G %IG AP 0.00396 $
147EU G 1824.0 5 0.15 3
147EU2 G %IG=0.0149 30
147EU G 1844.3 3 0.31 3
147EU2 G %IG=0.0307 32
147EU G 1901 2 0.02 LT
147EU2 G %IG<0.00198
147EU G 1982.6 5 0.10 2
147EU2 G %IG=0.0099 20
147EU L 0.0 5/2+ 24.1 D 6
147EU cL T$from Adopted Levels
147EU E 0.04 1 0.6 2 8.97 15 0.6 2
147EUS E EAV=530.0 11$CK=0.7844 4$CL=0.11560 6$CM+=0.03351 2
147EU cE E$2185 {I5} (1980Vy01)
147EU cE TI$from 1980Vy01
147EU L 229.323 197/2+ 0.18 NS 2
147EU cL T$0.18 ns {I2} (1962Be20) |g|g(t)
147EU E 0.2 LE 6 LE 7.9 GE 6 LEC
147EUS E EAV=429.0 11$CK=0.8125 3$CL=0.12028 5$CM+=0.03489 2
147EU cE IE$%|b{++}=0.14 {I3} (1969Ad04)
147EU cE TI$GTOL upper limit (method 1): 7.42
147EU G 229.32 2 607 30M1+E2 +0.13 2 0.180
147EU2 G %IG=60 4
147EUS G KC=0.1526 22$LC=0.0217 3$MC=0.00470 7$NC+=0.001262 18
147EUS G NC=0.001075 16$OC=0.0001704 24$PC=1.674E-5 24
147EU cG MR$+0.13 {I2} from (396|g)(229|g)(|q): A{-2}=-0.016 {I8} (1971Va37);
147EU2cG +0.10 {I4} from (766|g)(229|g)(|q): A{-2}=+0.022 {I13} (1971Va37);
147EU3cG +0.14 {I5} from (1131|g)(229|g)(|q): A{-2}=+0.009 {I14} (1971Va37)
147EU3 G EKC=0.145 10$CEK=86.5 40
147EU cG $K:L1:L2:L3=100:14.2:|<1.8:|<0.23 (1966Av02)
147EU cG EKC$other: 0.16 {I2} (1958Ad38)
147EU L 625.27 511/2- 0.765 US 15
147EU cL T$0.765 |ms {I15} (1970Kl07) |g|g(t); others:
147EU2cL 0.80 |ms {I6} (1961So03) |g|g(t); 0.71 |ms {I4} (1960Be27) |g|g(t)
147EU cL $g-factor=+1.09 {I6} (1970Kl07) |g|g(|q,H,t)
147EU E 0.011 LE 2.6 LE 8.0 GE 2.6 LE
147EUS E EAV=255.3 11$CK=0.8345$CL=0.12488 2$CM+=0.036282 6
147EU cE TI$GTOL upper limit (method 1): 3.48
147EU G 396.00 10330 15M2 0.1531
147EU2 G %IG=32.7 20
147EUS G KC=0.1264 18$LC=0.0208 3$MC=0.00459 7$NC+=0.001235 18
147EUS G NC=0.001053 15$OC=0.0001660 24$PC=1.575E-5 22
147EU3 G EKC=0.119 7 (1966Av02)
147EU cG $K:L1:L2:L3=100:16.4:1.8:|?0.3 (1966Av02)
147EU cG EKC$Other: 0.15 {I2} (1958Ad38)
147EU G 625.18 1045.0 30E3 0.0194
147EU2 G %IG=4.45 35
147EUS G KC=0.01507 22$LC=0.00337 5$MC=0.000759 11$NC+=0.000199 3
147EUS G NC=0.0001718 24$OC=2.57E-5 4$PC=1.626E-6 23
147EU3 G EKC=0.0147 10
147EU cG $K:L:M=41:10:3 (1966Av02)
147EU L 755.10 5 3/2+,5/2+
147EU E 0.0006624 0.46 17 8.68 16 0.46 17
147EUS E EAV=198.0 12$CK=0.8363$CL=0.12575 2$CM+=0.036562 5
147EU G 755.01 1019.9 8 M1 0.00836
147EU2 G %IG=1.97 11
147EUF G FLAG=c
147EUS G KC=0.00713 10$LC=0.000967 14$MC=0.000208 3$NC+=5.59E-5 8
147EUS G NC=4.76E-5 7$OC=7.58E-6 11$PC=7.68E-7 11
147EU cG $|a(K)exp=0.0068 {I4} (1977Gr23); 0.0070 {I5} (1980Vy01)
147EU cG M$other: M1+(13|+13)%E2 (1977Gr23)
147EU L 776.39 59/2+
147EU E 0.0008 5 0.7 4 8.48 25 0.7 4
147EUS E EAV=188.5 12$CK=0.8364$CL=0.12588 2$CM+=0.036604 5
147EU G 547.3 3 2.9 5 M1(+E2) 0.25 LE 0.0183 4
147EU2 G %IG=0.29 5
147EUS G KC=0.0156 3$LC=0.00215 4$MC=0.000462 8$NC+=0.0001244 22
147EUS G NC=0.0001058 18$OC=1.68E-5 3$PC=1.69E-6 4
147EU3 G EKC=0.018 3
147EU G 776.33 1042 3 E2 0.00455
147EU2 G %IG=4.16 34
147EUS G KC=0.00381 6$LC=0.000576 8$MC=0.0001252 18$NC+=3.33E-5 5
147EUS G NC=2.85E-5 4$OC=4.43E-6 7$PC=3.90E-7 6
147EU3 G EKC=0.0038 4$CEK=0.157 13
147EU cG M from |a(K)exp
147EU cG RI from I|g(775.9|g+776.3|g)=52.2 {I25} with I|g(775.9|g)=10.6
147EUxcG {I13}
147EU L 778.01 57/2+
147EU E 0.0033 5 2.9 4 7.86 6 2.9 4
147EUS E EAV=187.8 12$CK=0.8364$CL=0.12589 2$CM+=0.036607 5
147EU G 549.2 5 0.7 6
147EU2 G %IG=0.07 6
147EU3 G EKC=0.02 2$CEK=0.014 3
147EU G 778.04 5 47.6 21M1+E2 0.6 3 0.0069 6
147EU2 G %IG=4.71 28
147EUS G KC=0.0059 6$LC=0.00081 6$MC=0.000175 13$NC+=4.7E-5 4
147EUS G NC=4.0E-5 3$OC=6.3E-6 5$PC=6.3E-7 6
147EU3 G EKC=0.0061 5
147EU L 861.63 5 5/2+,7/2+
147EU E 0.39 18 8.68 20 0.39 18
147EUS E CK=0.8365$CL=0.12638 2$CM+=0.036770 5
147EU G 106.52 2 0.9 3 M1,E2 1.73 20
147EU2 G %IG=0.089 30
147EUS G KC=1.15 16$LC=0.5 3$MC=0.10 7$NC+=0.027 16
147EUS G NC=0.023 15$OC=0.0033 19$PC=0.00011 4
147EU3 G EKC=1.1 4
147EU G 632.35 1016.4 7 M1 0.01294
147EU2 G %IG=1.62 10
147EUS G KC=0.01103 16$LC=0.001504 21$MC=0.000323 5$NC+=8.71E-5 13
147EUS G NC=7.41E-5 11$OC=1.180E-5 17$PC=1.192E-6 17
147EU3 G EKC=0.0110 8
147EU cG M,MR$; |d|<0.4 from |a(K)exp implying an M1(+E2) mixture.
147EU G 861.7 1 16.8 6 M1+E2 1.3 3 0.0045 4
147EU2 G %IG=1.66 9
147EUS G KC=0.0038 3$LC=0.00054 4$MC=0.000117 7$NC+=3.12E-5 20
147EUS G NC=2.66E-5 17$OC=4.2E-6 3$PC=4.0E-7 4
147EU3 G EKC=0.0039 3
147EU L 995.17 59/2-
147EU E 19.8 13 6.88 3 19.8 13
147EUS E CK=0.8358$CL=0.12718 2$CM+=0.037042 6
147EU G 217.2 1 5.0 17E1 0.0352
147EU2 G %IG=0.50 17
147EUS G KC=0.0299 5$LC=0.00417 6$MC=0.000897 13$NC+=0.000238 4
147EUS G NC=0.000203 3$OC=3.14E-5 5$PC=2.76E-6 4
147EU3 G EKC=0.032 10
147EU G 370.0 1 165 6 M1+E2 +0.07 3 0.0505 8
147EU2 G %IG=16.3 9
147EUS G KC=0.0429 6$LC=0.00597 9$MC=0.001287 18$NC+=0.000346 5
147EUS G NC=0.000295 5$OC=4.69E-5 7$PC=4.69E-6 7
147EU cG MR from (370|g)(396|g)(|q): A{-2}=-0.17 {I2} (1970Kl07)
147EU2cG |d<0.20 from |a(K)exp (1966Av02)
147EU3 G EKC=0.042 2 (1966Av02)
147EU cG $K:L1:L2:L3=100:17:|<2.6:|<0.4 (1966Av02)
147EU cG EKC$other: |a(K)exp=0.051 {I10} (1958Ad38)
147EU G 765.81 10109 6 E1 0.00182
147EU2 G %IG=10.8 7
147EUS G KC=0.001558 22$LC=0.000204 3$MC=4.36E-5 7$NC+=1.169E-5 17
147EUS G NC=9.96E-6 14$OC=1.574E-6 22$PC=1.550E-7 22
147EU3 G EKC=0.00165 13
147EU G 995.58 20 3.7 4 [M2] 0.01072 @
147EU2 G %IG=0.37 4
147EUS G KC=0.00906 13$LC=0.001303 19$MC=0.000282 4$NC+=7.60E-5 11
147EUS G NC=6.47E-5 9$OC=1.028E-5 15$PC=1.024E-6 15
147EU cG RI$a fraction of 0.31 {I3} for the I|g of this [M2] |g was deduced by
147EU2cG 1977Gr23 from |a(K)exp(995|g doublet) and used by evaluator to extract
147EU2cG the (here) adopted I|g value from I|g(996|g doublet)=11.8 {I7}
147EU cG $|a(K)exp=0.00350 {I25} for 996|g doublet
147EU L 1007.41 10 5/2+,7/2+,9/2+
147EUF L FLAG=A
147EU E 0.12 7 9.1 3 0.12 7
147EUS E CK=0.8357$CL=0.12726 2$CM+=0.037069 6
147EU G 252.30 8 1.2 6 M1,E2 0.120 20
147EU2 G %IG=0.12 6
147EUF G FLAG=abc
147EUS G KC=0.097 22$LC=0.0182 16$MC=0.0040 5$NC+=0.00106 10
147EUS G NC=0.00091 9$OC=0.000138 8$PC=1.0E-5 4
147EU3 G EKC=0.07 3 (1980Vy01)
147EU G 778.04 5 45.9 21M1 0.00777 ?
147EU2 G %IG=4.54 28
147EUF G FLAG=abc
147EUS G KC=0.00663 10$LC=0.000898 13$MC=0.000193 3$NC+=5.19E-5 8
147EUS G NC=4.42E-5 7$OC=7.04E-6 10$PC=7.14E-7 10
147EU3 G EKC=0.0065 5 (1980Vy01)
147EU L 1069.39 67/2-
147EU E 2.7 6 7.69 10 2.7 6
147EUS E CK=0.8351$CL=0.12768 2$CM+=0.037215 7
147EU G 291.7 2 1.9 4 [E1] 0.01644
147EU2 G %IG=0.19 4
147EUS G KC=0.01399 20$LC=0.00192 3$MC=0.000412 6$NC+=0.0001097 16
147EUS G NC=9.38E-5 14$OC=1.458E-5 21$PC=1.325E-6 19
147EU cG M$(E1) in 1977Gr23 but no ce observed.
147EU G 839.89 14 0.81 6 E1,M2 0.009 8
147EU2 G %IG=0.080 7
147EUF G FLAG=c
147EUS G KC=0.008 7$LC=0.0011 10$MC=0.00025 21$NC+=7.E-5 6
147EUS G NC=6.E-5 5$OC=9.E-6 8$PC=9.E-7 8
147EU3 G EKC=0.0022
147EU cG EKC$no uncertainty reported (1980Vy01)
147EU G 1069.35 1069 5 E1 9.56E-4
147EU2 G %IG=6.8 6
147EUS G KC=0.000821 12$LC=0.0001061 15$MC=2.27E-5 4$NC+=6.08E-6 9
147EUS G NC=5.18E-6 8$OC=8.21E-7 12$PC=8.22E-8 12
147EU3 G EKC=0.00084 8
147EU L 1122.83 67/2+
147EU E 10.2 6 7.07 3 10.2 6
147EUS E CK=0.8346$CL=0.12809 2$CM+=0.037355 7
147EU G 261.1 1 19.0 9 M1+E2 0.6 +5-3 0.118 11
147EU2 G %IG=1.88 12
147EUS G KC=0.097 12$LC=0.0157 7$MC=0.00344 19$NC+=0.00092 4
147EUS G NC=0.00078 4$OC=0.000121 3$PC=1.04E-5 17
147EU3 G EKC=0.096 9
147EU G 346.3 3 20.5 8 M1 0.0602
147EU2 G %IG=2.03 11
147EUS G KC=0.0511 8$LC=0.00712 10$MC=0.001535 22$NC+=0.000413 6
147EUS G NC=0.000352 5$OC=5.59E-5 8$PC=5.59E-6 8
147EU3 G EKC=0.060 4
147EU G 893.5 1 78 4 M1,E2 0.0044 12
147EU2 G %IG=7.7 5
147EUS G KC=0.0038 10$LC=0.00052 12$MC=0.000113 25$NC+=3.0E-5 7
147EUS G NC=2.6E-5 6$OC=4.1E-6 10$PC=4.0E-7 11
147EU3 G EKC=0.00320 25
147EU G 1122.9 1 8.7 5 E2 0.00206
147EU2 G %IG=0.86 6
147EUS G KC=0.001747 25$LC=0.000245 4$MC=5.27E-5 8$NC+=1.483E-5 21
147EUS G NC=1.204E-5 17$OC=1.89E-6 3$PC=1.80E-7 3$IPC=7.17E-7 11
147EU3 G EKC=0.00166 17
147EU L 1212.93 11 5/2-,7/2-
147EU E 0.28 6 8.55 10 0.28 6
147EUS E CK=0.8335$CL=0.12888 3$CM+=0.037627 9
147EU G 458.0 5 0.5 5 [E1] 0.00551
147EU2 G %IG=0.05 5
147EUS G KC=0.00471 7$LC=0.000632 9$MC=0.0001354 20$NC+=3.62E-5 6
147EUS G NC=3.09E-5 5$OC=4.84E-6 7$PC=4.59E-7 7
147EU G 983.4 4 1.65 20E1 1.12E-3
147EU2 G %IG=0.163 21
147EUS G KC=0.000959 14$LC=0.0001244 18$MC=2.66E-5 4$NC+=7.12E-6 10
147EUS G NC=6.07E-6 9$OC=9.61E-7 14$PC=9.59E-8 14
147EU cG M from |a(K)exp=0.0009 {I2} (1977Gr23)
147EU3 G EKC=0.0009 3
147EU G 1213.0 2 1.15 8 E1 7.92E-4
147EU2 G %IG=0.114 9
147EUF G FLAG=c
147EUS G KC=0.000654 10$LC=8.41E-5 12$MC=1.79E-5 3$NC+=3.58E-5 5
147EUS G NC=4.10E-6 6$OC=6.51E-7 10$PC=6.56E-8 10$IPC=3.10E-5 5
147EU3 G EKC=0.00087
147EU cG EKC$no uncertainty reported (1980Vy01)
147EU L 1235.77 57/2-
147EU E 3.5 3 7.43 4 3.5 3
147EUS E CK=0.8332$CL=0.12911 3$CM+=0.037704 9
147EU G 166.34 103.1 8 M1+E2 0.58 5 0.429 7
147EU2 G %IG=0.31 8
147EUS G KC=0.345 6$LC=0.0656 19$MC=0.0145 5$NC+=0.00383 12
147EUS G NC=0.00329 10$OC=0.000498 13$PC=3.61E-5 8
147EU3 G EKC=0.35 8$CEK=1.07 13$CEL1=0.10 1$CEL2=0.031 15
147EU cG MR from K:L1:L2
147EU G 240.64 5 14.8 8 M1 0.1588
147EU2 G %IG=1.47 10
147EUF G FL=995.17
147EUS G KC=0.1347 19$LC=0.0190 3$MC=0.00409 6$NC+=0.001100 16
147EUS G NC=0.000937 14$OC=0.0001488 21$PC=1.480E-5 21
147EU3 G EKC=0.115 15 (1966Av02)
147EU cG $K:L1:L2:L3=100:13:|<0.9:|< 0.55 (1966Av02)
147EU G 610.43 1015.3 13E2 0.00803
147EU2 G %IG=1.51 14
147EU3 G EKC=0.0068 7
147EUS G KC=0.0070 4$LC=0.00111 4$MC=0.000243 8$NC+=6.46E-5 22
147EUS G NC=5.53E-5 19$OC=8.5E-6 3$PC=7.1E-7 4
147EU G 1006.4 1 13.1 8 E1 1.07E-3
147EU2 G %IG=1.30 9
147EUS G KC=0.000919 13$LC=0.0001190 17$MC=2.54E-5 4$NC+=6.82E-6 10
147EUS G NC=5.81E-6 9$OC=9.20E-7 13$PC=9.19E-8 13
147EU3 G EKC=0.00066 10
147EU G 1235.7 1 11.1 7 E1 7.78E-4
147EU2 G %IG=1.10 8
147EUS G KC=0.000633 9$LC=8.13E-5 12$MC=1.735E-5 25$NC+=4.61E-5 7
147EUS G NC=3.97E-6 6$OC=6.30E-7 9$PC=6.35E-8 9$IPC=4.14E-5 6
147EU3 G EKC=0.00048 5
147EU L 1244.31 7 11/2-
147EU E
147EU cE TI$GTOL upper limit (method 1): 0.20
147EU G 249.15 103.8 2 M1,E2 0.125 20
147EU2 G %IG=0.376 25
147EUF G FL=995.17
147EUS G KC=0.100 23$LC=0.0189 18$MC=0.0042 5$NC+=0.00110 11
147EUS G NC=0.00095 10$OC=0.000143 9$PC=1.0E-5 4
147EU3 G EKC=0.11 4
147EU G 619.00 1034.7 15M1+E2 0.79 17 0.0114 7
147EU2 G %IG=3.44 20
147EUS G KC=0.0096 6$LC=0.00138 7$MC=0.000298 13$NC+=8.0E-5 4
147EUS G NC=6.8E-5 3$OC=1.07E-5 5$PC=1.02E-6 7
147EU3 G EKC=0.0098 5
147EU L 1337.78 85/2+,7/2+,9/2+
147EUF L FLAG=A
147EU E 0.25 4 8.47 7 0.25 4
147EUS E CK=0.8316$CL=0.13028 4$CM+=0.03811 2
147EU G 214.95 5 2.32 20M1,E2 0.193 24
147EU2 G %IG=0.230 22
147EUF G FLAG=abc
147EUS G KC=0.15 3$LC=0.031 6$MC=0.0070 14$NC+=0.0018 4
147EUS G NC=0.0016 3$OC=0.00023 4$PC=1.5E-5 5
147EU cG $|a(K)exp=0.15 {I5} (1977Gr23), |a(K)exp=0.234 {I25} (1980Vy01)
147EU G 329.7 100.29 LT[M1,E2] 0.056 13 &
147EU2 G %IG=0.014 14
147EUS G KC=0.046 12$LC=0.0078 4$MC=0.00170 6$NC+=0.000451 21
147EUS G NC=0.000387 16$OC=5.9E-5 5$PC=4.8E-6 16
147EU cG $placement changed to this level by 1980Vy01 from 1399 level
147EU2cG (1977Gr23); 1980Vy01 report E|g=330.2 {I3}, I|g=0.38 {I6}, which
147EU2cG corresponds to 329.7|g doublet of 1977Gr23 (the other |g placed at
147EUxcG 1565 level)
147EU L 1360.34 99/2-
147EU cL J 5/2,7/2,9/2 allowed by E1 to 7/2+, but only 9/2- is
147EU2cL consistent with (1131|g)(229|g)(|q) in 1971Va37
147EU E 6.1 6 7.06 5 6.1 6
147EUS E CK=0.8312$CL=0.13057 4$CM+=0.03821 2
147EU G 584.6 6 0.3 2
147EU2 G %IG=0.030 20
147EU G 734.4 4 1.6 5 (M1) 0.00895
147EU2 G %IG=0.16 5
147EUS G KC=0.00763 11$LC=0.001035 15$MC=0.000223 4$NC+=5.99E-5 9
147EUS G NC=5.10E-5 8$OC=8.12E-6 12$PC=8.23E-7 12
147EU3 G EKC=0.013 6
147EU cG M |a(K)exp is consistent with M1 and E3 and barely excludes M2
147EU2cG and E2.
147EU G 1130.9 1 62 5 E1 8.68E-4
147EU2 G %IG=6.1 6
147EUS G KC=0.000742 11$LC=9.56E-5 14$MC=2.04E-5 3$NC+=1.081E-5 16
147EUS G NC=4.66E-6 7$OC=7.40E-7 11$PC=7.43E-8 11$IPC=5.33E-6 8
147EU cG M from |a(K)exp in 1977Gr23
147EU3 G EKC=0.00078 6
147EU G 1360 0.08 LT
147EU2 G %IG=0.00792 32
147EU L 1378.14 11 +
147EU E 0.27 4 8.39 7 0.27 4
147EUS E CK=0.8309$CL=0.13082 4$CM+=0.03829 2
147EU G 516.6 100.3 1
147EU2 G %IG=0.030 10
147EU G 1149.10 153.7 3 E2 0.00197
147EU2 G %IG=0.366 33
147EUS G KC=0.001668 24$LC=0.000233 4$MC=5.01E-5 7$NC+=1.508E-5 22
147EUS G NC=1.145E-5 16$OC=1.80E-6 3$PC=1.719E-7 24$IPC=1.654E-6 25
147EU3 G EKC=0.0017 6
147EU G 1377.7 3 0.45 5
147EU2 G %IG=0.045 5
147EU L 1389.61 8 5/2-,7/2-,9/2-
147EU E 0.65 6 8.00 4 0.65 6
147EUS E CK=0.8307$CL=0.13099 4$CM+=0.03835 2
147EU G 176.7 1 0.33 8 (M1) 0.370
147EU2 G %IG=0.033 8
147EUS G KC=0.313 5$LC=0.0444 7$MC=0.00960 14$NC+=0.00258 4
147EUS G NC=0.00220 3$OC=0.000349 5$PC=3.46E-5 5
147EU3 G EKC=0.51 17
147EU G 1160.15 156.4 4 E1 8.36E-4
147EU2 G %IG=0.63 5
147EUS G KC=0.000708 10$LC=9.12E-5 13$MC=1.95E-5 3$NC+=1.672E-5 24
147EUS G NC=4.45E-6 7$OC=7.06E-7 10$PC=7.10E-8 10$IPC=1.150E-5 17
147EU3 G EKC=0.00065 20
147EU G 1389.5 2 0.54 5 &
147EU2 G %IG=0.053 5
147EU L 1399.26 8 3/2+
147EU E
147EU cE TI$GTOL upper limit (method 1): 0.07
147EU G 404.0 100.3 3 [E3] 0.0778 13
147EU2 G %IG=0.030 30
147EUF G FL=995.17
147EUS G KC=0.0538 9$LC=0.0186 4$MC=0.00430 8$NC+=0.001112 20
147EUS G NC=0.000967 18$OC=0.0001395 25$PC=5.60E-6 9
147EU G 537.66 8 0.98 19
147EU2 G %IG=0.097 19
147EUF G FLAG=ab
147EU G 1170.1 4 0.95 8 E2 0.00190
147EU2 G %IG=0.094 9
147EUS G KC=0.001609 23$LC=0.000224 4$MC=4.82E-5 7$NC+=1.582E-5 23
147EUS G NC=1.101E-5 16$OC=1.734E-6 25$PC=1.658E-7 24$IPC=2.91E-6 5
147EU cG EKC$0.0018 {I9} (1977Gr23); 0.0.0022 {I9} (1980Vy01)
147EU cG M$M1,E2 based on |a(K)exp (1977Gr23 and 1980Vy01); the evaluator
147EU2cG adopts E2 from J arguments (see Adopted Levels)
147EU G 1399.2 2 1.6 1 M1,E2 0.0017 3
147EU2 G %IG=0.158 12
147EUS G KC=0.0014 3$LC=0.00019 4$MC=4.0E-5 7$NC+=5.6E-5 5
147EUS G NC=9.2E-6 16$OC=1.5E-6 3$PC=1.5E-7 3$IPC=4.57E-5 23
147EU3 G EKC=0.0016 5
147EU L 1474.82 14 (3/2+)
147EU E
147EU cE TI$GTOL upper limit (method 1): 0.02
147EU G 1245.3 3 0.62 5 (E2) 1.68E-3
147EU2 G %IG=0.061 6
147EUS G KC=0.001422 20$LC=0.000196 3$MC=4.22E-5 6$NC+=2.27E-5 4
147EUS G NC=9.64E-6 14$OC=1.520E-6 22$PC=1.466E-7 21$IPC=1.138E-5 17
147EU cG $|a(K)exp=0.0011 {I3} (1977Gr23), |a(K)exp=0.0011 {I5} (1980Vy01)
147EU cG M$E1,E2 based on |a(K)exp (1977Gr23); the evaluator adopted E2 based
147EU2cG on J arguments (see Adopted Levels)
147EU G 1474.7 3 0.74 8
147EU2 G %IG=0.073 8
147EU L 1554.29 59/2-
147EU E 37.1 18 6.029 22 37.1 18
147EUS E CK=0.8265$CL=0.13412 7$CM+=0.03943 3
147EU G 164.6 1 0.37 8 M1,E2 0.434 19
147EU2 G %IG=0.037 8
147EUF G FLAG=bc
147EUS G KC=0.33 6$LC=0.08 3$MC=0.018 7$NC+=0.0048 17
147EUS G NC=0.0041 15$OC=0.00060 18$PC=3.2E-5 10
147EU cG $|a(K)exp=0.266 {I97} (1980Vy01); ce(K)=0.12 (1977Gr23)
147EU G 309.96 1040.5 17M1 0.0806
147EU2 G %IG=4.01 23
147EUS G KC=0.0685 10$LC=0.00956 14$MC=0.00206 3$NC+=0.000555 8
147EUS G NC=0.000472 7$OC=7.51E-5 11$PC=7.50E-6 11
147EU3 G EKC=0.066 3
147EU cG $K:L1:L2:L3=100:14:0.65:0.3 (1966Av02)
147EU cG MR |d<0.14 (L2/L3 in 1966Av02)
147EU G 318.60 1021.0 8 M1(+E2) 0.062 14
147EU2 G %IG=2.08 12
147EUS G KC=0.051 13$LC=0.0086 3$MC=0.00189 4$NC+=0.000501 16
147EUS G NC=0.000430 11$OC=6.6E-5 4$PC=5.3E-6 18
147EU cG EKC$0.055 {I3} (1977Gr23); 0.061 {I4} (1980Vy01)
147EU cG $K:L1:L2:L3 = 100:11:|<1.4:|<0.6 (1966Av02)
147EU cG MR |d|<0.35 (L2/L3 in 1966Av02)
147EU G 341.8 5 1.65 15 ?
147EU2 G %IG=0.163 16
147EU G 431.5 5 1.5 7 [E1] 0.00633
147EU2 G %IG=0.15 7
147EUS G KC=0.00540 8$LC=0.000727 11$MC=0.0001559 23$NC+=4.16E-5 6
147EUS G NC=3.55E-5 5$OC=5.57E-6 8$PC=5.25E-7 8
147EU G 484.9 1 29.0 14M1 0.0252
147EU2 G %IG=2.87 18
147EUS G KC=0.0215 3$LC=0.00295 5$MC=0.000636 9$NC+=0.0001712 24
147EUS G NC=0.0001457 21$OC=2.32E-5 4$PC=2.33E-6 4
147EU3 G EKC=0.021 2 (1966Av02)
147EU cG $K:L1:L2:L3=100:13:0.5:|<0.3 (1966Av02)
147EU G 559.07 1062.0 22M1 0.01761
147EU2 G %IG=6.14 33
147EUF G FL=995.17
147EUS G KC=0.01499 21$LC=0.00205 3$MC=0.000442 7$NC+=0.0001189 17
147EUS G NC=0.0001012 15$OC=1.611E-5 23$PC=1.624E-6 23
147EU3 G EKC=0.016 1
147EU G 775.9 3 10.5 14[E1] 1.77E-3
147EU2 G %IG=1.04 14
147EUS G KC=0.001518 22$LC=0.000199 3$MC=4.25E-5 6$NC+=1.138E-5 16
147EUS G NC=9.70E-6 14$OC=1.533E-6 22$PC=1.510E-7 22
147EU cG RI from ce(K)=0.016 {I2}, |a(K)=0.00151
147EU G 929.01 7 194 8 M1+E2 0.62 18 0.0045124
147EU2 G %IG=19.2 11
147EUS G KC=0.00384 21$LC=0.00052 3$MC=0.000113 6$NC+=3.03E-5 15
147EUS G NC=2.58E-5 13$OC=4.10E-6 20$PC=4.09E-7 24
147EU3 G EKC=0.0039 2$CEK=0.76 4
147EU G 1325.1 1 8.3 5 E1+M2 0.20 5 0.000919
147EU2 G %IG=0.82 6
147EUS G KC=0.00071 8$LC=9.2E-5 11$MC=1.98E-5 24$NC+=8.96E-5 16
147EUS G NC=4.5E-6 6$OC=7.2E-7 9$PC=7.3E-8 9$IPC=8.43E-5 20
147EU3 G EKC=0.00070 6
147EU G 1554 0.1 LT
147EU2 G %IG=0.0099 4
147EU L 1565.15 10 7/2+,9/2+
147EU E 1.49 12 7.41 4 1.49 12
147EUS E CK=0.82609 9$CL=0.13439 7$CM+=0.03952 3
147EU G 329.7 10 0.29 LT & ?
147EU2 G %IG=0.014 14
147EU G 496.2 100.5 2 [E1] 0.00459
147EU2 G %IG=0.049 20
147EUS G KC=0.00392 6$LC=0.000524 8$MC=0.0001124 17$NC+=3.00E-5 5
147EUS G NC=2.56E-5 4$OC=4.02E-6 6$PC=3.84E-7 6
147EU G 569.6 6 1.3 LT[M2] 0.0509 F
147EU2 G %IG<0.129
147EUF G FL=995.17
147EUS G KC=0.0425 6$LC=0.00657 10$MC=0.001437 21$NC+=0.000387 6
147EUS G NC=0.000329 5$OC=5.21E-5 8$PC=5.05E-6 8
147EU cG ce(K)=0.014 {I4}
147EU G 788.65 157.8 6 M1,E2 0.0060 16
147EU2 G %IG=0.77 7
147EUS G KC=0.0050 14$LC=0.00071 16$MC=0.00015 4$NC+=4.1E-5 10
147EUS G NC=3.5E-5 8$OC=5.5E-6 13$PC=5.3E-7 16
147EU3 G EKC=0.0052 17
147EU G 810.27 205.0 5 E2(+M1) 0.79 GE 0.0050 9
147EU2 G %IG=0.50 5
147EUS G KC=0.0042 8$LC=0.00061 9$MC=0.000132 20$NC+=3.5E-5 6
147EUS G NC=3.0E-5 5$OC=4.7E-6 8$PC=4.4E-7 9
147EU3 G EKC=0.0039 12
147EU G 1336.2 5 0.45 5
147EU2 G %IG=0.045 5
147EU G 1565.2 2 1.5 4 @
147EU2 G %IG=0.15 4
147EUF G FLAG=L
147EU L 1696.21 12 7/2+
147EU E 0.32 22 7.9 3 0.32 22
147EUS E CK=0.8203 2$CL=0.1387 1$CM+=0.04101 4
147EU G 297.4 2 3.4 6 E2 0.0598
147EU2 G %IG=0.34 6
147EUS G KC=0.0461 7$LC=0.01069 16$MC=0.00240 4$NC+=0.000624 9
147EUS G NC=0.000540 8$OC=7.92E-5 12$PC=4.28E-6 6
147EU3 G EKC=0.047 17
147EU G 460.6 5 1.3 7 ?
147EU2 G %IG=0.13 7
147EU G 573.0 8 1.5 5 M1,E2 0.013 4
147EU2 G %IG=0.15 5
147EUS G KC=0.011 4$LC=0.0016 4$MC=0.00035 7$NC+=9.3E-5 19
147EUS G NC=8.0E-5 16$OC=1.2E-5 3$PC=1.2E-6 4
147EU3 G EKC=0.012 5
147EU G 701.3 2 3.5 4 (E1) 0.00217
147EU2 G %IG=0.35 4
147EUS G KC=0.00186 3$LC=0.000245 4$MC=5.24E-5 8$NC+=1.403E-5 20
147EUS G NC=1.196E-5 17$OC=1.89E-6 3$PC=1.85E-7 3
147EU cG $|a(K)exp=0.0036 {I17} (1980Vy01)
147EU G 834.7 3 1.24 13
147EU2 G %IG=0.123 14
147EU G 1466.0 4 0.29 5
147EU2 G %IG=0.029 5
147EU L 1771.88 5 5/2+,7/2+,9/2+
147EUF L FLAG=A
147EU E 1.30 7 7.086 25 1.30 7
147EUS E CK=0.8150 3$CL=0.14260 16$CM+=0.04237 6
147EU G 434.3 6 0.35 16(M1) 0.0334
147EU2 G %IG=0.035 16
147EUF G FLAG=abc
147EUS G KC=0.0284 5$LC=0.00393 6$MC=0.000846 13$NC+=0.000228 4
147EUS G NC=0.000194 3$OC=3.08E-5 5$PC=3.10E-6 5
147EU cG $|a(K)exp=0.08 {I4} (1980Vy01)
147EU G 910.244 23 4.89 14M1 0.00532
147EU2 G %IG=0.484 24
147EUF G FLAG=abc
147EUS G KC=0.00454 7$LC=0.000611 9$MC=0.0001312 19$NC+=3.53E-5 5
147EUS G NC=3.01E-5 5$OC=4.79E-6 7$PC=4.87E-7 7
147EU cG $|a(K)exp=0.0051 {I8} (1980Vy01)
147EU G 995.49 3 7.8 4 M1,E2 0.0035 9
147EU2 G %IG=0.77 5
147EUF G FLAG=abc
147EUS G KC=0.0029 8$LC=0.00041 9$MC=8.7E-5 19$NC+=2.3E-5 5
147EUS G NC=2.0E-5 5$OC=3.2E-6 7$PC=3.1E-7 9
147EU cG $|a(K)exp=0.028 {I8} (1980Vy01)
147EU L 1773.91 215/2(-):9/2(-)
147EU E 0.76 4 7.315 24 0.76 4
147EUS E CK=0.8149 3$CL=0.14273 16$CM+=0.04241 6
147EU G 538.0 100.7 2 ?
147EU2 G %IG=0.069 20
147EU G 704.5 2 7.51 23(M1) 0.00991 A
147EU2 G %IG=0.74 4
147EUF G FLAG=bc
147EU cG $|a(K)exp=0.0014 {I3} for 703.9|g and 704.5|g
147EUS G KC=0.00845 12$LC=0.001148 16$MC=0.000247 4$NC+=6.64E-5 10
147EUS G NC=5.65E-5 8$OC=9.00E-6 13$PC=9.11E-7 13
147EU G 995.58 20 8.1 6 @ ?
147EU2 G %IG=0.80 7
147EU cG RI$a fraction of 0.31 {I3} for the I|g of the [M2] component of the
147EU2cG 995|g doublet was deduced by
147EU2cG 1977Gr23 from |a(K)exp(995|g doublet) and used by evaluator to extract
147EU2cG the (here) adopted I|g value of this |g from I|g(996|g doublet)=11.8
147EUxcG {I7}
147EU cG $|a(K)exp=0.00350 {I25} for 996|g doublet
147EU G 1545.0 100.12 4
147EU2 G %IG=0.012 4
147EU L 1795.41 9 5/2-,7/2-
147EU E 1.47 9 6.98 3 1.47 9
147EUS E CK=0.8129 3$CL=0.14417 18$CM+=0.04291 7
147EU G 1017.9 4 1.1 2
147EU2 G %IG=0.109 20
147EU G 1040.4 4 3.8 4 (E1) 1.01E-3
147EU2 G %IG=0.38 4
147EU3 G EKC=0.0010 3 (1980Vy01)
147EUS G KC=0.000864 13$LC=0.0001117 16$MC=2.39E-5 4$NC+=6.40E-6 9
147EUS G NC=5.45E-6 8$OC=8.64E-7 13$PC=8.65E-8 13
147EU G 1565.9 1 2.22 19 @
147EU2 G %IG=0.220 21
147EUF G FLAG=bL
147EU cG $|a(K)exp=0.0013 {I4} (1980Vy01) corresponds to the 1566|g doublet
147EU cG M$M1,E2 suggested by 1980Vy01 based on |a(K)exp(1566|g doublet) is not
147EU2cG adopted here
147EU G 1795.94 207.7 4 E1 8.17E-4
147EU2 G %IG=0.76 5
147EUS G KC=0.000336 5$LC=4.27E-5 6$MC=9.09E-6 13$NC+=0.000430 6
147EUS G NC=2.08E-6 3$OC=3.31E-7 5$PC=3.38E-8 5$IPC=0.000427 6
147EU3 G EKC=0.00028 10
147EU L 1807.34 12 5/2+,7/2+,9/2+
147EU E 0.84 20 7.19 11 0.84 20
147EUS E CK=0.8117 3$CL=0.14505 20$CM+=0.04322 7
147EU G 111.17 5 2.9 8 M1+E2 0.41 +14-6 1.40 4
147EU2 G %IG=0.29 8
147EUS G KC=1.11 3$LC=0.23 4$MC=0.051 10$NC+=0.0133 23
147EUS G NC=0.0114 21$OC=0.0017 3$PC=0.000119 6
147EU3 G EKC=0.84 30$CEK=2.4 3$CEL1=0.23 3$CEL2=0.08 3
147EU cG MR from K:L1:L2 (1977Gr23). 1966Av02 obtain 0.44.
147EU G 407.0 100.3 3 0.024 17
147EU2 G %IG=0.030 30
147EUF G FLAG=d
147EU G 418.3 100.3 3 [E1,M2] 0.07 7
147EU2 G %IG=0.030 30
147EUS G KC=0.06 5$LC=0.009 9$MC=0.0020 19$NC+=0.0005 5
147EUS G NC=0.0005 5$OC=7.E-5 7$PC=7.E-6 7
147EU G 737.0 4 0.5 *
147EU2 G %IG=0.0495 20
147EU cG $|a(K)exp=0.0043 (1980Vy01)
147EU cG M$E2 based on |a(K)exp. This value is not adopted since contradicts
147EU2cG |D|p=yes (see Adopted Levels). It seems that 1980Vy01 list |a(K) value
147EU2cG (the only one in their |a(K)exp data with no uncertainty). 1977Gr23
147EU2cG give no |a(K)exp for this |g
147EU G 1806.7 3 0.41 4
147EU2 G %IG=0.041 4
147EU L 1816.19 11 5/2+,7/2+
147EU E 1.32 9 6.97 3 1.32 9
147EUS E CK=0.8108 3$CL=0.14575 21$CM+=0.04346 8
147EU G 341.31 13 1.65 19
147EU2 G %IG=0.163 20
147EUF G FLAG=ab
147EU cG $|a(K)exp=0.026 {I16} (1980Vy01)
147EU cG M$(E1) based on |a(K)exp in 1980Vy01. This value is not adopted since
147EU2cG contradicts |D|p=no (see Adopted Levels).
147EU G 416.0 100.3 3 [M1,E2] 0.030 8
147EU2 G %IG=0.030 30
147EUS G KC=0.025 7$LC=0.0039 5$MC=0.00085 10$NC+=0.00023 3
147EUS G NC=0.000193 24$OC=3.0E-5 5$PC=2.6E-6 9
147EU G 580.7 6 0.5 2
147EU2 G %IG=0.049 20
147EU G 693.2 3 2.5 2 M1 0.01031
147EU2 G %IG=0.248 22
147EUS G KC=0.00879 13$LC=0.001195 17$MC=0.000257 4$NC+=6.92E-5 10
147EUS G NC=5.89E-5 9$OC=9.37E-6 14$PC=9.49E-7 14
147EU3 G EKC=0.012 2
147EU G 1061.2 4 1.5 3
147EU2 G %IG=0.148 30
147EU G 1586.88 155.4 3 M1,E2 0.0013621
147EU2 G %IG=0.53 4
147EUS G KC=0.00106 18$LC=0.000142 23$MC=3.0E-5 5$NC+=0.000120 8
147EUS G NC=7.0E-6 11$OC=1.11E-6 18$PC=1.12E-7 20$IPC=0.000112 7
147EU3 G EKC=0.0010 2
147EU G 1816.5 3 1.40 8 M1,E2 0.0011514
147EU2 G %IG=0.139 10
147EUS G KC=0.00080 11$LC=0.000106 15$MC=2.3E-5 3$NC+=0.000222 14
147EUS G NC=5.2E-6 7$OC=8.3E-7 12$PC=8.4E-8 13$IPC=0.000216 14
147EU cG $|a(K)exp=0.00066 {I20} (1977Gr23), |a(K)exp=0.0.0009 {I3} (1980Vy01)
147EU L 1838.45 12
147EUF L FLAG=A
147EU E 0.061 16 8.24 12 0.061 16
147EUS E CK=0.8082 4$CL=0.14769 24$CM+=0.04414 9
147EU G 460.39 10 1.71 8 0.017 11
147EU2 G %IG=0.169 10
147EUF G FLAG=abd
147EU G 976.79 26 0.27 5
147EU2 G %IG=0.027 5
147EUF G FLAG=ab
147EU L 1858.19 11 7/2-,9/2+
147EU E 0.174 13 7.73 4 0.174 13
147EUS E CK=0.8055 4$CL=0.1497 3$CM+=0.04482 10
147EU G 293.05 7 0.92 6 0.06 4
147EU2 G %IG=0.091 7
147EUF G FLAG=d
147EUF G FLAG=ab
147EU G 1232.76 25 0.56 7
147EU2 G %IG=0.055 7
147EUF G FLAG=ab
147EU cG RI$|DI|g not given by 1980Vy01 assumed by evaluator
147EU G 1628.9 5 0.16 3
147EU2 G %IG=0.0158 30
147EU G 1858.1 4 0.06 3
147EU2 G %IG=0.0059 30
147EU L 1874.66 137/2-,9/2-
147EUF L FLAG=A
147EU E 0.41 5 7.31 6 0.41 5
147EUS E CK=0.8030 5$CL=0.1515 3$CM+=0.04548 11
147EU G 751.81 13 1.81 25M2,E3 0.017 6
147EU2 G %IG=0.179 26
147EUF G FLAG=abc
147EUS G KC=0.014 5$LC=0.0023 6$MC=0.00051 11$NC+=0.00014 3
147EUS G NC=0.00012 3$OC=1.8E-5 5$PC=1.6E-6 7
147EU cG $|a(K)exp=0.013 {I4} (1980Vy01)
147EU G 879.57 26 2.3 3 M1+E2 0.0046 12
147EU2 G %IG=0.228 31
147EUF G FLAG=abc
147EUS G KC=0.0039 11$LC=0.00054 12$MC=0.00012 3$NC+=3.2E-5 7
147EUS G NC=2.7E-5 6$OC=4.2E-6 10$PC=4.1E-7 12
147EU cG $|a(K)exp=0.0040 {I13} (1980Vy01)
147EU L 1905.64 13 5/2+
147EU E 1.63 10 6.60 3 1.63 10
147EUS E CK=0.7972 6$CL=0.1558 4$CM+=0.04697 14
147EU G 506.0 100.5 3 M1+E2 0.018 5
147EU2 G %IG=0.049 30
147EUF G FLAG=c
147EUS G KC=0.015 5$LC=0.0022 4$MC=0.00049 9$NC+=0.000130 24
147EUS G NC=0.000111 20$OC=1.7E-5 4$PC=1.6E-6 6
147EU cG $|a(K)exp=0.012 {I3} (1980Vy01)
147EU G 782.6 2 11.5 4 E2+M1 2.1 +13-5 0.0051 4
147EU2 G %IG=1.14 6
147EUS G KC=0.0043 3$LC=0.00062 4$MC=0.000135 8$NC+=3.61E-5 21
147EUS G NC=3.08E-5 17$OC=4.8E-6 3$PC=4.4E-7 4
147EU3 G EKC=0.0043 3
147EU G 910.4 2 5.4 3 ?
147EU2 G %IG=0.53 4
147EUF G FL=995.17
147EU cG M$M1+E2 assignment inconsistent with change in |p
147EU3 G EKC=0.0038 8
147EU G 1044.2 5 1.3 2 (M1) 0.00383
147EU2 G %IG=0.129 20
147EUF G FLAG=c
147EUS G KC=0.00327 5$LC=0.000439 7$MC=9.41E-5 14$NC+=2.54E-5 4
147EUS G NC=2.16E-5 3$OC=3.44E-6 5$PC=3.50E-7 5
147EU cG $|a(K)exp=0.0059 {I18} (1980Vy01)
147EU cG M$M2,E3 based on |a(K)exp is not supported by level scheme arguments
147EU2cG (no |p change); next possible assignment is (M1) (|a(K)(M1) slightly
147EU2cG out the range of |a(K)exp)
147EU G 1151 1 0.5 3
147EU2 G %IG=0.049 30
147EU G 1676.5 2 2.49 13M1,E2 0.0012618
147EU2 G %IG=0.247 16
147EUS G KC=0.00095 15$LC=0.000126 19$MC=2.7E-5 4$NC+=0.000158 10
147EUS G NC=6.2E-6 10$OC=9.8E-7 15$PC=1.00E-7 17$IPC=0.000150 9
147EU3 G EKC=0.0010 2
147EU G 1905.6 4 0.12 4
147EU2 G %IG=0.012 4
147EU L 1910.10 22 5/2,7/2,9/2+
147EU E 0.19 4 7.52 10 0.19 4
147EUS E CK=0.7963 6$CL=0.1565 5$CM+=0.04722 15
147EU G 840.8 3 0.8 4 ?
147EU2 G %IG=0.08 4
147EU G 1048.6 6 0.66 20
147EU2 G %IG=0.065 20
147EU G 1154.7 100.3 3
147EU2 G %IG=0.030 30
147EU G 1680.9 4 0.62 4
147EU2 G %IG=0.061 5
147EU G 1910.0 3 0.37 4
147EU2 G %IG=0.037 4
147EU L 1950.59 9 5/2-,7/2-,9/2-
147EU E 0.95 10 6.66 5 0.95 10
147EUS E CK=0.7855 9$CL=0.1645 6$CM+=0.05003 22
147EU G 714.57 153.1 2 M1 0.00957
147EU2 G %IG=0.307 23
147EUS G KC=0.00816 12$LC=0.001108 16$MC=0.000238 4$NC+=6.41E-5 9
147EUS G NC=5.46E-5 8$OC=8.69E-6 13$PC=8.80E-7 13
147EU3 G EKC=0.0080 7
147EU G 737.0 4 * ?
147EU G 827.8 1 5.0 8 (M2,E3) 0.013 5
147EU2 G %IG=0.50 8
147EUF G FLAG=c
147EUS G KC=0.011 4$LC=0.0018 5$MC=0.00039 9$NC+=0.000103 25
147EUS G NC=8.8E-5 21$OC=1.4E-5 4$PC=1.2E-6 5
147EU cG $|a(K)exp=0.009 {I3} (1980Vy01)
147EU G 882.3 5 0.6 2 (M1) 0.00573
147EU2 G %IG=0.059 20
147EUF G FLAG=c
147EUS G KC=0.00489 7$LC=0.000659 10$MC=0.0001416 20$NC+=3.81E-5 6
147EUS G NC=3.24E-5 5$OC=5.17E-6 8$PC=5.25E-7 8
147EU cG $|a(K)exp=0.007 {I3} (1980Vy01)
147EU G 1721.3 5 0.10 3
147EU2 G %IG=0.0099 30
147EU G 1950.7 2 0.66 8
147EU2 G %IG=0.065 8
147EU L 1961.24 25 5/2+,7/2,9/2+
147EU E 0.056 21 7.84 17 0.056 21
147EUS E CK=0.7818 10$CL=0.1672 7$CM+=0.05099 25
147EU G 1184.7 3 0.25 20
147EU2 G %IG=0.025 20
147EU G 1731 AP0.03 3 ?
147EU2 G %IG=0.0030 30
147EU G 1961.5 4 0.32 3
147EU2 G %IG=0.0317 32
147EU L 1986.88 18 5/2(-),7/2,9/2+
147EU E 0.28 7 7.01 11 0.28 7
147EUS E CK=0.7708 13$CL=0.1753 10$CM+=0.0539 4
147EU G 433.0 5 0.8 6 ?
147EU2 G %IG=0.08 6
147EU G 917.0 5 0.5 2
147EU2 G %IG=0.049 20
147EU G 1125.5 5 1.1 6
147EU2 G %IG=0.11 6
147EU G 1209.4 5 0.33 4
147EU2 G %IG=0.033 4
147EU G 1757.6 3 0.27 3
147EU2 G %IG=0.0267 32
147EU G 1986.7 3 0.64 6
147EU2 G %IG=0.063 6
147EU L 1995.42 15 7/2-,9/2-
147EU E 0.260 20 7.00 4 0.260 20
147EUS E CK=0.7663 15$CL=0.1787 11$CM+=0.0550 4
147EU G 595.97 19 0.98 12M2,E3 0.033 12
147EU2 G %IG=0.097 13
147EUF G FLAG=abc
147EUS G KC=0.027 10$LC=0.0049 9$MC=0.00108 18$NC+=0.00029 5
147EUS G NC=0.00025 5$OC=3.8E-5 8$PC=3.1E-6 13
147EU cG $|a(K)exp=0.030 {I9} (1980Vy01), |a(K)exp=0.026 {I13} (1977Gr23)
147EU G 750.8 8 1.5 5 (M1) 0.00848 ?
147EU2 G %IG=0.15 5
147EUS G KC=0.00723 11$LC=0.000980 14$MC=0.000211 3$NC+=5.67E-5 8
147EUS G NC=4.83E-5 7$OC=7.69E-6 11$PC=7.79E-7 11
147EU3 G EKC=0.012 6
147EU G 1219.4 4 0.45 5
147EU2 G %IG=0.045 5
147EU G 1370.5 3 0.75 8 E2 1.42E-3
147EU2 G %IG=0.074 8
147EUS G KC=0.001179 17$LC=0.0001606 23$MC=3.45E-5 5$NC+=4.51E-5 7
147EUS G NC=7.89E-6 11$OC=1.247E-6 18$PC=1.216E-7 17$IPC=3.58E-5 5
147EU3 G EKC=0.0010 2
147EU G 1765.9 4 0.41 4
147EU2 G %IG=0.041 4
147EU L 2165.44 12 5/2-,7/2-,9/2-
147EU E 0.41 5 4.03 16 0.41 5
147EUS E CL=0.63 3$CM+=0.37 3
147EU G 327.07 11 1.34 11 0.04 3
147EU2 G %IG=0.133 12
147EUF G FLAG=abd
147EU G 804.54 202.4 2 E2(+M1) 0.64 GE 0.0052 11
147EU2 G %IG=0.238 22
147EUS G KC=0.0044 10$LC=0.00063 11$MC=0.000137 23$NC+=3.7E-5 7
147EUS G NC=3.1E-5 6$OC=4.9E-6 9$PC=4.7E-7 11
147EU cG MR from |a(K)exp=0.0041 {I13}
147EU3 G EKC=0.0041 13
147EU G 1096.4 4 0.3 3 (M1) 0.00341
147EU2 G %IG=0.030 30
147EUF G FLAG=c
147EUS G KC=0.00291 4$LC=0.000390 6$MC=8.37E-5 12$NC+=2.26E-5 4
147EUS G NC=1.92E-5 3$OC=3.06E-6 5$PC=3.12E-7 5
147EU3 G CEK=0.0069 38 (1980Vy01)
147EU cG M$M2,E3 based on |a(K)exp is not supported by level scheme arguments
147EU2cG (no |p change); next possible assignment is (M1) (|a(K)(M1) slightly
147EU3cG out of the range of |a(K)exp)
147EU G 1389.5 2 0.54 5 & ?
147EU2 G %IG=0.053 5
147EU G 1936.30 220.037 13 a
147EU2 G %IG=0.0037 13