176HF 176TA EC DECAY 1971BE10 06NDS 200602
176HF H TYP=ERR$AUT=M.S. BASUNIA$DAT=13-Dec-2013$COM=Removed 2912.3G from
176HF2 H 2912.3 keV level (0- to 0+ in 1971Be10) and presented as unplaced.
176HF H TYP=FUL$AUT=M.S. BASUNIA$CIT=NDS 107, 791 (2006)$CUT=15-Sep-2005$
176HF c Others: 1971Br32, 1969Bo23, 1966St01, 1960Ha18.
176HF c Q(|e)=3050+380-40 (1969Bo23); Q(|e)=3050+125-45 (1971Be10)
176HF cE %I|b+=0.69 {I9} (1971Be10), based on I|g(|g{+|+})=26 {I4},
176HF2cE measured with a Ge detector (spectrum not shown by authors) and with
176HF3cE the source placed between 6-mm thick aluminum absorbers to annihilate
176HF4cE all the |b{++} radiation. Other value: 0.38 {I4} (1969Bo23).
176HF cG RI(B) Complex line.
176HF cG CC Conversion coefficients for |g-rays with mixed
176HF2cG multipolarities and no |d given are average values for the
176HF3cG individual multipolarities, unless otherwise specified.
176HF cG |g|g(|q): 1971Bo26, 1972Lo03.
176HF cG RI |DI|g|?8%, unless otherwise specified.
176HF cG M$From |a(K)exp and ce(K)/ce(L), normalized to |a(K)exp(201.8|g)=0.165
176HFxcG (E2, theory).
176HF cG RI(R) From I(1621|g)/I(1420|g)=0.8 {I2} in (|a,2n|g).
176HF cG MR Estimated by evaluator from the deduced |a(K)exp.
176HF cL J From adopted levels.
176HF cL E$Deduced by evaluator from a least-squares fit to |g-ray energies.
176TA P 0.0 (1)- 8.09 H 5 3210 30
176HF N 0.054 4 0.054 4 1.0 1.0
176HF cN NR From decay scheme and |SI(|g+ce)(g.s.)=98 {I2%}. A possible
176HF2cN 8% fractional systematic uncertainty, due to unplaced |g rays, may
176HF3cN affect the normalization factor.
176HF PN 3
176HF G 110.1 2 0.36 5
176HF G 111.3 2 0.31 5
176HF G 117.5 2 0.23 5
176HF G 140.9 100.97 10
176HF G 179.10 6 0.72 7
176HF G 185.72 6 0.50 6
176HF G 192.80 8 0.24 4
176HF G 230.88 8 0.49 4
176HF G 248.29 8 0.52 5
176HF G 271.58 9 0.24 4
176HF G 277.74 8 0.20 4
176HF G 280.77 7 0.22 4
176HF G 306.79 200.50 5
176HF G 314.53 200.57 7
176HF G 327.05 300.26 4
176HF G 337.51 200.23 3
176HF G 343.38 200.69 7
176HF G 366.20 250.24 3
176HF G 382.71 250.44 8
176HF G 411.67 200.34 5
176HF G 421.08 300.33 7
176HF G 423.15 300.32 8
176HF G 433.51 9 0.80 9
176HF G 440.01 8 0.41 5
176HF G 459.10 9 0.60 7
176HF G 494.98 130.26 4
176HF G 517.4 4 0.60 30
176HF G 524.90 111.10 25
176HF G 529.08 170.26 10
176HF G 541.24 121.7 2
176HF G 545.74 114.1 7
176HF G 550.4 5 0.81 20
176HF G 560.0 2 0.51 7
176HF G 561.6 3 0.25 6
176HF G 566.6 2 0.23 4
176HF G 584.9 2 0.36 5
176HF G 586.72 9 1.6
176HF G 589.9 1 0.30 4
176HF G 594.9 2 0.23 4
176HF G 632.12 9 1.3
176HF G 642.85 8 1.8
176HF G 656.8 1 0.64 7
176HF G 670.2 2 0.22 5
176HF G 693.2 1 0.38 5
176HF G 717.45 8 1.2
176HF G 735.9 2 0.30 6
176HF G 740.97 9 2.5
176HF G 766.5 1 0.56 7
176HF G 774.0 3 0.24 6
176HF G 779.3 1 0.54 6
176HF G 782.7 1 0.62 7
176HF G 784.2 2 0.34 7
176HF G 787.1 1 0.53 6
176HF G 789.4 2 0.26 4
176HF G 799.5 3 0.39 20
176HF G 801.7 2 0.26 5
176HF G 803.8 1 0.65 7
176HF G 808.6 1 0.68 8
176HF G 837.7 3 0.35 10
176HF G 842.6 5 0.38 20
176HF G 857.66 102.6
176HF G 863.19 102.2
176HF G 872.3 2 0.31 5
176HF G 876.6 2 0.46 6
176HF G 878.4 2 0.45 6
176HF G 884.7 3 0.26 10
176HF G 886.3 2 0.72 9
176HF G 900.3 1 0.69 8
176HF G 907.3 1 0.89 10
176HF G 971.8 1 0.89 10
176HF G 975.1 2 0.81 10
176HF G 977.0 2 0.91 11
176HF G 979.94 221.1
176HF G 986.7 2 0.60 12
176HF G 998.30 101.8 3
176HF G 1002.62 111.3 2
176HF G 1035.0 2 0.46 9
176HF G 1043.29 111.1 2
176HF G 1097.24 101.2 2
176HF G 1107.81 9 4.7
176HF G 1125.45 9 2.6
176HF G 1211.30 131.5 2
176HF G 1234.26 151.2 2
176HF G 1250.01 182.3 3
176HF G 1277.90 112.9
176HF G 1281.2 2 0.87 13 ?
176HF G 1308.30 121.2
176HF G 1427.64 112.2
176HF G 1462.6 2 0.49 10
176HF G 1467.5 2 0.80 9
176HF G 1470.0 2 0.93 20
176HF G 1482.8 3 0.54 14
176HF G 1573.3 2 0.66 16
176HF G 1603.46 181.0 3
176HF G 1608.68 112.7
176HF G 1628.53 302.5 6
176HF G 1659.21 112.0
176HF G 1665.0 2 0.91 14
176HF G 1712.0 3 0.82 20
176HF G 1718.1 4 1.8 6
176HF G 1725.9 4 1.2 4
176HF G 1736.7 2 0.71 8
176HF G 1745.29 142.1
176HF G 1751.1 3 0.51 9
176HF G 1754.94 161.3
176HF G 1768.22 163.4
176HF G 1793.17 153.7
176HF G 1820.0 3 1.6 3
176HF G 1855.69 162.2
176HF G 1875.1 3 0.47 9
176HF G 1937.9 2 0.45 7
176HF G 1948.40 182.2 5
176HF G 1960.60 161.1
176HF G 1970.6 2 0.57 7
176HF G 2042.7 5 0.65 22
176HF G 2049.2 4 0.52 11
176HF G 2057.4 3 0.32 5
176HF G 2071.0 2 0.31 5
176HF G 2077.0 2 0.76 9
176HF G 2090.6 3 0.26 5
176HF G 2140.1 2 0.72 8
176HF G 2246.92 202.4
176HF G 2257.9 4 0.44 12
176HF G 2260.4 3 0.57 10
176HF G 2272.1 3 0.32 5
176HF G 2278.6 3 0.49 7
176HF G 2304.5 4 0.50 22
176HF G 2314.8 5 0.50 25
176HF G 2361.5 2 3.8
176HF G 2374.2 3 0.35 7
176HF G 2421.7 3 0.37 6
176HF G 2460.3 3 0.54 7
176HF G 2480.5 4 0.80 10
176HF G 2506.2 3 0.51 9
176HF G 2531.6 5 0.40 12
176HF G 2534.2 3 0.65 12
176HF G 2548.4 3 0.63 10
176HF G 2571.6 2 0.85 9
176HF G 2586.1 3 0.63 10
176HF G 2681.6 3 0.60 15
176HF G 2689.7 3 0.85 20
176HF G 2703.4 3 1.3 3
176HF G 2705.6 3 0.45 17
176HF G 2729.3 2 0.65 10
176HF G 2744.5 3 0.48 7
176HF G 2755.3 3 0.25 7
176HF G 2769.1 3 0.85 9
176HF G 2773.8 2 2.1 3
176HF G 2789.98 201.5
176HF G 2845.1 3 0.12 3
176HF G 2854.1 9 0.10 7
176HF G 2863.88 202.0
176HF G 2882.5 4 0.57 11
176HF G 2890.3 4 0.15 5
176HF G 2912.3 6 0.39 6
176HF cG E$Placement is from 2912.3 (J|p=0-) to 0 (J|p=0+) in 1971Be10.
176HF2cG It is a forbidden transition and evaluator has removed the placement.
176HF G 2940.7 3 0.34 4
176HF G 2952.4 2 0.69 8
176HF G 2971.6 3 0.21 3
176HF G 2978.7 3 0.34 3
176HF G 2995.4 3 0.092 14
176HF L 0.0 0+
176HF E 0.50 AP 1.9 AP 8.4 AP 2.4 AP
176HFS E EAV=989 14$CK=0.654 6$CL=0.1052 10$CM+=0.0321 3
176HF cE IB from total %I|b+=0.69 {I9}, %I|b+(88 level)=0.14 {I12}, and
176HF2cE %I|b+(1247 level)=0.10 {I4} (1971Be10).
176HF cE I(|e+|b{++}): from I|b{++} and |e/|b{++} (theory)=5.0.
176HF L 88.35 3 2+ 1.43 NS 4
176HF cL T from adopted levels.
176HF E 0.16 AP 0.71 AP 8.8 AP 0.87 AP
176HFS E EAV=949 14$CK=0.671 6$CL=0.1079 10$CM+=0.0329 3
176HF cE IB from |g{+|+}|g coin (1971Be10).
176HF cE I(|e+|b{++}): from I|b{++} and |e/|b{++} (theory)=5.0.
176HF G 88.35 4 220 E2 5.86
176HF cG %I|g=11.8 {I4}
176HFS G KC=1.21 4$LC=3.53 11$MC=0.88 3$NC+=0.250 8
176HF L 290.23 4 4+
176HF G 201.84 6 105 E2 0.282
176HF cG M from ce(K):ce(L1):ce(L2):ce(L3) exp=48:6:13:10 (1960Ha18).
176HFS G KC=0.164 5$LC=0.089 3$MC=0.0218 7$NC+=0.00618 19
176HF L 1149.91 8 0+
176HF E 0.0081 14 0.35 5 8.74 7 0.36 5
176HFS E EAV=479 14$CK=0.8052 18$CL=0.1320 4$CM+=0.04039 13
176HF G 1061.61 9 10.0 E2
176HF cG M from |a(K)exp=0.0054.
176HFS G CC=0.00366$KC=0.00301 9$LC=0.00048 2
176HF G 1149.8 E0 0.09 2
176HF cG TI ce(K), from ce data of 1971Be10.
176HF L 1226.63 5 2+ 0.8 PS 1
176HF cL T from adopted levels.
176HF E 0.010 2 0.69 10 8.42 7 0.7 1
176HFS E EAV=446 14$CK=0.8092 15$CL=0.1329 4$CM+=0.04069 12
176HF G 76.7 S
176HF G 936.42 8 10.4 E2
176HF cG M from |a(K)exp=0.005.
176HFS G CC=0.00472$KC=0.00386 12$LC=0.00064 2
176HF G 1138.26 8 12.6 E0+E2 0.037 AP
176HF cG M$From |a(K)exp=0.028 and ce(K)/ce(L)exp |? 4.
176HF cG CC$experimental value.
176HF G 1226.8525 6.8 9
176HF L 1247.69 4 2- 4.66 NS 17
176HF cL T$weighted average of 4.75 ns {I25} (1969Ho17)
176HF2cL and 4.58 ns {I23} (1972Lo03). Other: 1971Br32.
176HF E 0.18 4 11 2 7.21 8 11 2
176HFS E EAV=436 14$CK=0.8101 14$CL=0.1331 4$CM+=0.04077 11
176HF cE IB from |g|g coin (1971Be10).
176HF G 957.40 8 10.6 M2+E3 0.017 7
176HF cG MR from |a(K)exp=0.0092.
176HFS G KC=0.014 6$LC=0.0024 8
176HF G 1159.3010 458. E1+M2+E3 0.008 7
176HF cG M from |a(K)exp=0.0029 and ce(K)/ce(L) exp=6.2. Matrix element
176HF2cG ratios / =0.359 {I49}; / =0.529 {I66} were deduced by
176HF3cG 1972Lo03 from |a(K)exp and ce(K)/ce(L) of 1971Be10. See also 1972Lo03
176HF4cG for a reanalysis of |g|g(|q) data from 1971Bo16.
176HFS G KC=0.006 6$LC=0.0010 9
176HF G 1247.6815 8.5 9M2 0.0119
176HF cG M$M2(+E3) from |a(K)exp=0.011 and ce(K)/ce(L) exp|?5. Level scheme
176HFxcG requires M2.
176HFS G KC=0.0098 3$LC=0.00154 5
176HF L 1293.14 8 0+
176HF E 0.0040 7 0.30 4 8.75 6 0.30 4
176HFS E EAV=416 14$CK=0.8121 13$CL=0.1336 4$CM+=0.04093 11
176HF G 1204.8510 6.1
176HF G 1293.2 E0 1.8 3
176HF cG TI ce(K)+ce(L), from ce data of 1971Be10.
176HF L 1313.38 4 3-
176HF G 65.6 S
176HF G 1023.1010 49.4 E1
176HF cG M from |a(K)exp=0.0016.
176HFS G CC=0.00158$KC=0.00133 4$LC=0.00019 1
176HF G 1224.9610 105 E1
176HF cG M from |a(K)exp|?9|*10{+-4}.
176HFS G CC=0.00114$KC=0.00096 3$LC=0.00013
176HF L 1341.31 4 2+ 0.29 PS 3
176HF cL T from adopted levels.
176HF E 0.0018 4 0.16 3 9.00 9 0.16 3
176HFS E EAV=395 14$CK=0.8138 11$CL=0.1341 3$CM+=0.04109 10
176HF G 1051.0311 2.0 3
176HF G 1252.9010 57.1 M1 + E2
176HF cG M from |a(K)exp=0.0034 and ce(K)/ce(L) exp=7.6.
176HFS G CC=0.0038 12$KC=0.0032 10$LC=0.00047 14
176HF G 1341.3310 61.9 E2
176HF cG M$E2(+M1) from |a(K)exp=0.0026 and ce(K)/ce(L) exp=6.3. Level scheme
176HFxcG requires E2
176HFS G CC=0.00231$KC=0.00192 6$LC=0.00029 1
176HF L 1379.40 5 2+
176HF E 0.005 1 0.5 1 8.49 9 0.5 1
176HFS E EAV=379 14$CK=0.8150 10$CL=0.1345 3$CM+=0.04121 10
176HF G 1089.0610 3.7
176HF G 1291.0110 24.6 (E2 + E0) 0.022
176HF cG From |a(K)exp=0.019 and ce(K)/ce(L) exp|?6.
176HF cG CC experimental value.
176HF G 1379.2915 1.0 3 ?
176HF L 1404.63 4 4-
176HF G 91.23 4 1.1 E2(+M1) 5.26 11
176HF cG M from ce(K):ce(L1):ce(L2):ce(L3) exp=>4:weak:5.5:5.5
176HFxcG (1960Ha18).
176HFS G KC=2.8 17$LC=1.9 12$MC=0.5 3$NC+=0.13 9
176HF G 156.84 7 6.6 E2 0.671
176HF cG M$from |a(K)exp=0.37, deduced in 1971Be10 with ce data from 1960Ha18.
176HFS G KC=0.328 10$LC=0.261 8$MC=0.0641 20$NC+=0.0183 6
176HF G 1115.0 9 9.2 &
176HF L 1412.96 7 ?
176HF G 1122.80 9 1.9 3
176HF G 1412.8411 2.1 &
176HF L 1445.82 5 3+
176HF E 0.0006 2 0.5 1 9.50 10 0.5 1 1U
176HFS E EAV=364 14$CK=0.8105 3$CL=0.1437 4$CM+=0.04456 12
176HF G 198.0712 0.7015
176HF G 1155.5 2 12.015(E2 + M1)
176HF cG M from |a(K)exp|?0.003.
176HFS G CC=0.0046 15$KC=0.0038 13$LC=0.00057 17
176HF G 1357.5210 37.0 (M1)
176HF cG M from |a(K)exp|?0.003.
176HFS G CC=0.00409$KC=0.00342 11$LC=0.00050 2
176HF L 1577.63 5 (3+)
176HF E 0.17 2 9.83 7 0.17 2 1U
176HFS E CK=0.8092 4$CL=0.1452 4$CM+=0.04509 14
176HF G 173.00 7 0.28 4
176HF G 264.13 6 1.4 ?
176HF G 1287.4012 1.7
176HF G 1489.3310 13.5 (E2)
176HF cG M from |a(K)exp=0.0017.
176HFS G CC=0.00190$KC=0.00158 5$LC=0.00024 1
176HF L 1591.31 5 (4+) ?
176HF G 1301.1011 1.4
176HF L 1643.41 4 1-
176HF E 0.0066 19 3.2 5 7.54 7 3.2 5
176HFS E EAV=262 14$CK=0.8194 2$CL=0.13662 22$CM+=0.04193 8
176HF G 1555.0510 74.1 E1
176HF cG M from |a(K)exp=7.8|*10{+-4} and ce(K)/ce(L) exp|>3.6.
176HF G 1643.4510 44.4 E1
176HF cG M from |a(K)exp=6.5|*10{+-4}.
176HF L 1672.36 4 (1)+
176HF E 0.0081 25 4.9 8 7.34 8 4.9 8
176HFS E EAV=249 14$CK=0.8195 2$CL=0.13683 22$CM+=0.04201 8
176HF G 292.8810 0.73 7
176HF G 424.4815 0.9210
176HF G 445.52 8 1.0 &
176HF G 1584.0210 97.6 M1 + E2
176HF cG M from |a(K)exp=0.0017.
176HF G 1672.3212 22.0
176HF L 1704.62 6 (2+)
176HF E 0.0025 8 2.0 3 7.71 7 2.0 3
176HFS E EAV=235 14$CK=0.8196$CL=0.13706 22$CM+=0.04209 8
176HF G 1616.1810 23.8 (M1)
176HF cG M from |a(K)exp=0.0024.
176HF G 1704.7012 25.9 (E2)
176HF cG M from |a(K)exp=0.0014 and ce(K)/ce(K) exp|>3.4.
176HF L 1710.24 5 (3-)
176HF E 0.0004716 0.39 7 8.41 8 0.39 7
176HFS E EAV=232 14$CK=0.8196$CL=0.13710 22$CM+=0.04210 8
176HF G 118.93 2 0.22 4
176HF G 1420.0410 8.4
176HF G 1621.8710 6.7 18 @
176HF3 G FLAG=R
176HF L 1722.05 5 1-
176HF E 0.0014 5 1.3 2 7.88 7 1.3 2
176HFS E EAV=227 14$CK=0.8196$CL=0.13718 22$CM+=0.04213 8
176HF G 428.8520 0.27 4
176HF G 1633.7410 54.3 E1
176HF cG M from |a(K)exp=6.0|*10{+-4}.
176HF G 1722.0413 60.6 E1
176HF cG M from |a(K)exp=6.0|*10{+-4}.
176HF L 1767.52 7 2-,3-
176HF E 0.7 1 8.12 7 0.7 1
176HFS E CK=0.8195 1$CL=0.13750 22$CM+=0.04225 8
176HF G 362.7130 0.38 9
176HF G 388.0620 0.56 5
176HF G 1679.1811 22.3 E1
176HF cG M from |a(K)exp=5.7|*10{+-4}.
176HF L 1786.13 8
176HF E 0.3 1 8.48 15 0.3 1
176HFS E CK=0.8195 2$CL=0.13764 22$CM+=0.04229 8
176HF G 1495.8515 3.5
176HF G 1697.8 2 6.0 2
176HF cG RI Presented as 6. (2).
176HF L 1793.60 6
176HF G 216.00 7 2.2
176HF G 414.3415 1.4
176HF cG RI 1971Be10 also placed this transition from an additional 1819
176HF2cG level based only on energy differences.
176HF G 452.1810 0.45 &
176HF G 1503.7 2.LE B
176HF G 1705.4AP 3LE B ?
176HF L 1818.91 6 (0)-
176HF E 0.8 1 8.03 6 0.8 1
176HFS E CK=0.8193 2$CL=0.13787 23$CM+=0.04238 8
176HF G 175.50 7 7.8 M1 0.833
176HF cG M$M1(+E2) from |a(K)exp=0.51, deduced in 1971Be10 with ce data from
176HF2cG 1960Ha18. Level scheme requires M1.
176HFS G KC=0.694 21$LC=0.108 4$MC=0.0242 8$NC+=0.00715 22
176HF G 571.30 9 4.9 ?
176HF L 1854.03 7
176HF E 0.24 4 8.53 8 0.24 4
176HFS E CK=0.8191 3$CL=0.13813 23$CM+=0.04247 9
176HF G 474.64 8 1.6 &
176HF G 1563.5313 3.6 6
176HF G 1765.7515 8.8
176HF L 1856.91 5 (2)-
176HF E 0.8 1 8.01 6 0.8 1
176HFS E CK=0.8191 3$CL=0.13816 23$CM+=0.04248 9
176HF G 146.74 5 3.9 M1 (+E2) 0.74 1.19
176HF cG M$from |a(K)exp=0.88, deduced in 1971Be10 with ce data from 1960Ha18.
176HFS G KC=0.88 3$LC=0.239 8$MC=0.0564 17$NC+=0.0164 5
176HF G 213.50 6 7.815M1 (+E2) 0.87 0.376 B
176HF cG M from |a(K)exp=0.29.
176HFS G KC=0.290 9$LC=0.0659 20$MC=0.0154 5$NC+=0.00445 14
176HF G 452.1810 0.45 &
176HF G 609.25 9 1.4 2
176HF L 1862.82 5 1+
176HF E 0.002 1 9 1 6.95 6 9 1
176HFS E EAV=164 14$CK=0.8191 3$CL=0.13820 23$CM+=0.04250 9
176HF G 158.19 7 4.2 M1 1.12
176HF cG M$from |a(K)exp=0.86, deduced in 1971Be10 with ce data from 1960Ha18.
176HFS G KC=0.93 3$LC=0.144 5$MC=0.0325 10$NC+=0.0096 3
176HF G 190.36 7 7.6 M1+E2 0.72 0.554
176HF cG M from |a(K)exp=0.43 and ce(K)/ce(L) exp=7.2.
176HFS G KC=0.430 13$LC=0.095 3$MC=0.0222 7$NC+=0.00644 20
176HF G 483.28 9 0.50 6
176HF G 521.6 1 45.AP
176HF G 569.7711 2.1 3
176HF G 615.22 9 1.9 3
176HF G 1774.5615 28.9 M1 (+E2)
176HF cG M from |a(K)exp=0.0019 and ce(K)/ce(L) exp=10.
176HF G 1862.7415 74.0 M1
176HF cG M$M1(+E2) from |a(K)exp=0.0016 and ce(K)/ce(L) exp=7.6. Level scheme
176HFxcG requires M1
176HF L 1912.02 5 (2)+
176HF E 8 1 6.97 6 8 1
176HFS E CK=0.8187 3$CL=0.13858 25$CM+=0.04263 9
176HF G 125.4 4.LE
176HFF G FL=1786.13
176HF cG Obscured by {+175}Ta 125.9- and 126.6-keV |g rays.
176HF2cG Assignment to {+176}Ta based on coincidence results.
176HF G 207.5 1.5LE
176HF cG Obscured by {+175}Ta 207.4-keV |g ray, and {+177}Ta
176HF2cG 208.4-keV |g ray. Assignment to {+176}Hf based on coincidence results.
176HF G 239.62 6 10.0 M1 0.352
176HF cG M from |a(K)exp=0.25 and ce(K)/ce(L) exp|>5.7.
176HFS G KC=0.293 9$LC=0.0452 14$MC=0.0102 3$NC+=0.00298 9
176HF G 466.16 7 20.6 M1 0.0593
176HF cG M from |a(K)exp=0.047.
176HFS G KC=0.0497 15$LC=0.00749 23$MC=0.00168 5$NC+=0.00049 2
176HF G 532.5411 4.5 7
176HF G 570.7610 8.5 &
176HF G 598.6 2 0.46 8
176HF G 685.55 8 2.2 M1 0.0221
176HF cG M from |a(K)exp=0.015.
176HFS G KC=0.0184 6$LC=0.00275 9
176HF G 1621.8710 4.0 20 @
176HF G 1823.7015 83.4 M1
176HF cG M from |a(K)exp=0.016.
176HF G 1911.6 3 0.24 5
176HF L 1924.57 6 (2,3)-
176HF E 0.12 2 8.79 8 0.12 2
176HFS E CK=0.8186 3$CL=0.13868 25$CM+=0.04267 9
176HF G 131.015 0.40 &
176HF G 346.9020 2.1
176HF G 519.7 2 6.AP B
176HF G 583.5 2 0.24 4
176HF G 611.16 8 23.4 M1 0.0296
176HF cG M from |a(K)exp=0.026 and ce(K)/ce(L) exp=6.8.
176HFS G KC=0.0247 8$LC=0.00370 12
176HF G 677.09 8 5.9 &
176HF G 1836.3416 4.0 (E1)
176HF cG M from |a(K)exp|<0.001.
176HF L 1949.70 5
176HF G 131.015 0.40 &
176HF G 636.6 1 0.95 &
176HF G 701.96 9 1.3
176HF G 723.10 8 2.4
176HF G 1861.1525 4.812
176HF G 1949.8017 2.4 5
176HF L 1958.19 4 2-
176HF E 8 1 6.94 6 8 1
176HFS E CK=0.8182 4$CL=0.1390 3$CM+=0.04277 10
176HF G 236.19 7 1.5 M1 (+E2) 0.87 0.281
176HF cG M from |a(K)exp=0.22.
176HFS G KC=0.219 7$LC=0.0471 15$MC=0.0110 4$NC+=0.00316 10
176HF G 380.4820 2.4 E1(+M2) 0.18 18
176HF cG M from |a(K)exp=0.018.
176HFS G KC=0.15 14$LC=0.03 3$MC=0.007 7$NC+=0.0019 19
176HF G 512.3 2 7.4 7
176HF G 553.5 2 0.40 6
176HF G 579.0815 1.1
176HF G 616.79 8 18.6 E1
176HF cG M from |a(K)exp=0.0044.
176HFS G CC=0.00423$KC=0.00355 11$LC=0.00051 2
176HF G 644.86 8 18.4 M1 0.0258
176HF cG M from |a(K)exp=0.021.
176HFS G KC=0.0215 7$LC=0.00322 10
176HF G 710.50 8 100. M1 0.0202
176HF cG M from |a(K)exp=0.018 and ce(K)/ce(L) exp=6.0.
176HFS G KC=0.0168 5$LC=0.00251 8
176HF G 1869.7816 1.5
176HF L 2044.82 6 (1+)
176HF E 2.0 3 7.47 7 2.0 3
176HFS E CK=0.8172 4$CL=0.1397 3$CM+=0.04306 11
176HF G 401.4420 0.36 4
176HF G 1956.4815 15.9 (M1,E2)
176HF cG M from |a(K)exp=0.0011.
176HF G 2044.8715 25.0 (M1,E2)
176HF cG M from |a(K)exp=9.4|*10{+-4}.
176HF L 2066.28 9 (+)
176HF E 0.9 2 7.80 10 0.9 2
176HFS E CK=0.8169 5$CL=0.1400 4$CM+=0.04313 12
176HF G 361.7620 0.62 9
176HF G 474.64 8 1.6 &
176HF G 1977.8515 16.2 (M1,E2)
176HF cG M from |a(K)exp=9.8|*10{+-4}.
176HF G 2066.2816 1.3
176HF L 2265.28 5 (2)-
176HF E 1.1 2 7.54 9 1.1 2
176HFS E CK=0.8136 7$CL=0.1424 5$CM+=0.04403 18
176HF G 315.5015 1.5 2
176HF G 479.1410 0.55 7
176HF G 543.1811 1.5
176HF G 555.2 2 0.27 5
176HF G 819.4910 4.8
176HF G 861.0 0.75 &
176HF G 923.94 8 13.5 E1
176HF cG M from |a(K)exp|?0.0013.
176HFS G CC=0.00190$KC=0.00161 5$LC=0.00022 1
176HF G 951.8610 1.3 2
176HF G 1017.5811 2.2 3
176HF L 2280.83 9
176HF E 0.39 6 7.98 8 0.39 6
176HFS E CK=0.8132 7$CL=0.1426 5$CM+=0.04412 18
176HF G 2192.3320 4.2
176HF G 2280.6 2 3.3
176HF L 2307.78 6
176HF E 0.54 8 7.81 8 0.54 8
176HFS E CK=0.8126 8$CL=0.1431 6$CM+=0.04428 19
176HF G 450.9413 0.31 5
176HF G 540.2713 1.1 2
176HF G 994.4612 1.0 &
176HF G 2219.4920 5.4
176HF G 2307.7 2 3.7
176HF L 2308.34 5 1-,2-,3-
176HF E 0.36 6 7.98 8 0.36 6
176HFS E CK=0.8126 8$CL=0.1431 6$CM+=0.04428 20
176HF G 350.1820 1.5 M1 (+E2) 0.56 0.108
176HF cG M from |a(K)exp=0.089.
176HFS G KC=0.089 3$LC=0.0148 5$MC=0.00336 10$NC+=0.00098 3
176HF G 358.7220 1.8
176HF G 383.6020 0.9710
176HF G 445.52 8 1.0 &
176HF G 665.0112 1.1 3
176HF G 730.7 1 0.60 7
176HF G 967.06 9 2.4 3
176HF L 2405.37 7
176HF E 0.7 1 7.59 8 0.7 1
176HFS E CK=0.8101 10$CL=0.1449 7$CM+=0.04496 25
176HF G 480.83 9 0.54 7
176HF G 551.4 2 0.35 6
176HF G 1178.5 2 0.7012
176HF G 2317.0 2 4.6
176HF G 2405.2 2 9.1
176HF L 2432.32 7 -
176HF E 2.0 3 7.10 8 2.0 3
176HFS E CK=0.8093 10$CL=0.1455 8$CM+=0.0452 3
176HF G 507.7915 26.7 M1 0.0477
176HF cG M from |a(K)exp=0.038 and ce(K)/ce(L) exp=6.4.
176HFS G KC=0.0398 12$LC=0.00599 18
176HF G 638.83 8 3.7
176HF G 1052.7 2 0.8012
176HF G 1090.9413 1.4 2
176HF G 1184.5513 2.0 3
176HF L 2452.32 10 ?
176HF G 861.0 1 0.75 &
176HF G 2162.1 2 0.72 8
176HF L 2470.84 52-
176HF E 7 1 6.51 8 7 1
176HFS E CK=0.8080 12$CL=0.1465 9$CM+=0.0455 3
176HF G 521.3 1 5.AP B
176HF G 546.5310 9.8 (M1) 0.0395
176HF cG M from |a(K)exp|?0.045.
176HFS G KC=0.0329 10$LC=0.00495 15
176HF G 677.09 8 5.9 &
176HF G 760.4 2 0.31 5
176HF G 798.5 2 0.8715
176HF G 893.3 2 0.4812
176HF G 1066.20 9 11.9
176HF G 1157.4110 62.9 M1
176HFS G CC=0.00602$KC=0.00504 16$LC=0.00074 2
176HF G 1222.9510 37.0 E2+M1+E0 0.042 AP
176HF cG M from |a(K)exp|?0.036 and ce(K)/ce(L) exp|>6.
176HF cG CC experimental value.
176HF L 2482.87 6 ?
176HF G 533.2316 1.2 4
176HF G 570.7610 8.5 &
176HF G 626.1 2 0.31 5
176HF G 664.0710 1.6 2
176HF G 1333.1 2 0.6918
176HF G 2394.6 2 2.3
176HF G 2482.8 2 1.6
176HF L 2602.18 9
176HF E 1.0 2 7.17 10 1.0 2
176HFS E CK=0.8022 18$CL=0.1507 13$CM+=0.0471 5
176HF G 196.8214 0.4612
176HF G 2513.8220 12.4
176HF G 2602.1520 6.5 7
176HF L 2762.50 8
176HF E 0.43 6 7.24 10 0.43 6
176HFS E CK=0.790 4$CL=0.160 3$CM+=0.0505 10
176HF G 454.63 9 0.32 5
176HF G 1612.6312 3.2
176HF G 2674.2 2 3.4
176HF G 2762.8 2 0.9012
176HF L 2791.67 7
176HF E 0.8 1 6.90 10 0.8 1
176HFS E CK=0.786 5$CL=0.162 4$CM+=0.0514 12
176HF G 386.1020 0.45 5
176HF G 833.5010 1.4 &
176HF G 841.5 2 0.7818
176HF G 1148.3 2 0.8515
176HF G 1346.0825 1.3 3
176HF G 1450.4010 6.7
176HF G 1543.7315 4.7
176HF L 2817.55 5 (2)+
176HF E 2.0 3 6.44 11 2.0 3
176HFS E CK=0.782 5$CL=0.165 4$CM+=0.0524 14
176HF G 960.7712 1.4 2
176HF G 1112.9 2 0.9410
176HF G 1174.1710 3.8
176HF G 1239.8612 2.1 &
176HF G 1371.7512 2.8
176HF G 1412.8411 2.1 &
176HF G 1438.1 3 0.5512
176HF G 1476.1810 8.8 E2
176HF cG M from |a(K)exp=0.0016.
176HFS G CC=0.00193$KC=0.00161 5$LC=0.00024 1
176HF G 1504.2410 14. 2
176HF L 2878.32 7
176HF E 1.0 2 6.57 14 1.0 2
176HFS E CK=0.771 8$CL=0.173 6$CM+=0.0555 22
176HF G 833.5010 1.4 &
176HF G 1021.0 5 0.6630
176HF G 1432.5611 1.6
176HF G 1536.6211 7.1
176HF G 1564.9511 7.6
176HF L 2885.52 7 ?
176HF G 577.3 1 0.83 9
176HF G 604.6 1 0.48 &
176HF G 1213.2011 2.7
176HF G 1637.6018 1.5 3
176HF G 2797.1420 1.2
176HF G 2885.5522 2.0
176HF L 2905.71 7 ?
176HF G 303.5515 0.42 4
176HF G 434.8510 0.89 9
176HF G 839.2511 1.3 2
176HF G 861.0 1 0.75 &
176HF G 981.0 3 0.9235
176HF G 2817.0 4 0.8512
176HF G 2905.7 4 0.40 6
176HF L 2912.27 6 (0)-
176HF E 6.1 9 5.67 13 6.1 9
176HFS E CK=0.762 11$CL=0.180 8$CM+=0.058 3
176HF G 604.6 1 0.48 &
176HF G 867.4 1 0.63 8
176HF G 962.7414 1.0 &
176HF G 1190.2210 84.1 M1
176HF cG M from |a(K)exp=0.0054 and ce(K)/ce(L) exp=6.6.
176HFS G CC=0.00562$KC=0.00471 15$LC=0.00069 2
176HF G 1239.8612 2.1 &
176HF G 1268.7810 24.6 M1
176HF cG M$E2+M1 from |a(K)exp=0.0025. Level scheme requires M1.
176HFS G CC=0.00481$KC=0.00403 12$LC=0.00059 2
176HF G 2823.6040 1.0 2
176HF L 2920.27 7 1-
176HF E 7.5 9 5.55 13 7.5 9
176HFS E CK=0.760 12$CL=0.182 9$CM+=0.059 3
176HF G 1198.1511 1.2 2
176HF G 1540.8211 6.5
176HF G 1693.7 2 9.6
176HF G 2832.0020 80.5 E1
176HF cG M from |a(K)exp=8.8|*10{+-5} and ce(K)/ce(L) exp|>6.
176HF G 2920.4120 40.6 E1
176HF cG M from |a(K)exp=7.1|*10{+-5}.
176HF L 2921.01 8 1+,2+
176HF E 0.8 1 6.52 13 0.8 1
176HFS E CK=0.759 12$CL=0.182 9$CM+=0.059 4
176HF G 318.8330 0.21 4
176HF G 962.7414 1.0 &
176HF G 1064.0312 1.6 2
176HF G 1579.9 2 5.2 5M1+E2
176HF cG M from |a(K)exp=0.0018.
176HF G 1673.4016 8.320
176HF L 2944.19 5 2-
176HF E 7.3 9 5.47 15 7.3 9
176HFS E CK=0.751 15$CL=0.188 11$CM+=0.061 4
176HF G 461.41 8 1.1 2
176HF G 473.21 7 5.1
176HF G 636.6 1 0.95 &
176HF G 678.85 8 3.8 M1 0.0226
176HF cG M from |a(K)exp=0.019.
176HFS G KC=0.0189 6$LC=0.00282 9
176HF G 994.4612 1.0 &
176HF G 1366.4911 4.0
176HF G 1630.8310 32.8 M1
176HF cG M from |a(K)exp=0.0022.
176HF G 1696.5513 85.8 M1
176HF cG M from |a(K)exp=0.0022.
176HF G 2856.1 5 0.22 9
176HF L 2969.02 6 (2-)
176HF E 1.3 2 6.11 17 1.3 2
176HFS E CK=0.739 20$CL=0.196 14$CM+=0.064 6
176HF G 660.67 8 2.2
176HF G 1011.1 3 0.5720
176HF G 1115.0 9 9.2 &
176HF G 1201.4810 6.7
176HF G 1258.7511 3.5 5
176HF G 1325.6713 1.5 2
176HF G 1721.3 B
176HF cG RI weak.