198HG 198TL EC DECAY (5.3 H) 1971PA06,1971BE09 16NDS 201603
198HG H TYP=FUL$AUT=Huang Xiaolong and Kang Mengxiao$CIT=NDS 133, 221 (2016)$
198HG2 H CUT=1-Dec-2015$
198HG c Sources produced by {+197}Au(|a,3n) (1966Vi01,1971Be09,1977Kr04),
198HG2c {+198}Hg(d,2n) (1971Pa06), daughter {+198}Pb (1959Ju39,1961Gu02).
198HG c 1971Pa06: measure E|g, I|g, X|g-(t), |g|g(|q), and |g|g coin with
198HG2c Ge(Li), Ge(Li)-Ge(Li), and Ge(Li)-NaI(Tl).
198HG c 1971Be09: measure E|g, I|g, I(ce), |g|g(|q), ce|g-(t), X|g-(t) with
198HG2c Ge(Li)-NaI(Tl), Ge(Li)-Ge(Li), and Ge(Li).
198HG DG CC$FROM BrIcc v2.3 (29-Mar-2013) 2008Ki07, "Frozen Orbitals" appr.
198HG CG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=1.00 FOR E2/M1,
198HG2CG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
198TL P 0.0 2- 5.3 H 5 3460 80
198HG N 0.106 100.106 101.0 1.0
198HG cN NR Assuming I(|e+|b{++})(to g.s.)|?2.98
198HG PN 0.106 10 3
198HG c Others: 1953Be79, 1955Kn34, 1959Ju39, 1961Gu02, 1968Pe13, 1970Du10.
198HG c E|g, I|g measurements from 1971Pa06 (semi)
198HG c For semi |g|g-coin results (1971Pa06), see drawings
198HG c A{-2}, A{-4} from |g|g(|q): 1971Be09, 1971Pa06
198HG cE Measured E(|b{++}), I(|b{++}) components (1961Gu02)
198HG cE E|b=2440 {I80}, I|b|?0.26% (1U shape factor applied);
198HG2cE E|b=2110 {I70}, I|b|?0.22%;
198HG3cE E|b=1350 {I110}, I|b|?0.19%;
198HG4cE E|b|?720, I|b|?0.08% (doublet);
198HG5cE I(|b{++})/100 decays |?0.74 from I(|b{++})/ce(K)(412|g)|?0.3 (1961Gu02)
198HG cE Q(|e) from max E(|b{++})=2440 {I80} to g.s.
198HG cE IB,IE$From intensity imbalance at each level,
198HG2cE and I(|b{++})/100 decays 0.74 (1961Gu02).
198HG cL E From decay scheme and E|g's by using
198HG2cL least-squares fit to E|g
198HG cL J,T From Adopted Levels.
198HG cL E(J) |g|g(|q) measured.
198HG cL |g|g(|q) measured for the levels with 1048.5, 1087.7,
198HG2cL 1401.5, 1419.4, 1548.5, 1612.4, 1832.6, 1847.2, 1858.8, 1899.4,
198HG3cL 1901.52360.8, and 2451.8
198HG TG
198HG TG
198HG TG $ |g|g(|q)-directional correction measurements
198HG TG $--------------------------------------------------------------
198HG TG
198HG TG $Level Cascade A2 A4 |d(D+Q) Refs.
198HG TG $------ -------- --------- --------- --------- ---------
198HG TG $1048.4 637-412 +0.100 10 -0.006 15 |@ 1969BeZR
198HG TG +0.112 15 +0.020 20 |@ 1971Pa06
198HG TG +0.094 9 +0.002 15 |@ 1971Be09
198HG TG $1087.8 676-412 -0.333 9 +0.232 13 +1.43 14 1964Sa11
198HG TG -0.281 12 +0.202 16 |?+1.1 1969BeZR
198HG TG -0.290 16 +0.194 23 +1.07 14 1971Pa06
198HG TG -0.287 10 +0.194 17 |?+1.1 1971Be09
198HG TG $1401.5 989-412 +0.52 22 +0.74 32 |@ 1971Be09
198HG TG $1419.3 {I1008}-412 +0.260 50 -0.080 70 1969BeZR
198HG TG +0.220 40 -0.120 80 |?+1.3 1971Pa06
198HG TG +0.220 40 -0.070 60 1971Be09
198HG TG $1612.7 {I1201}-412 +0.390 21 +0.040 30 |?-0.26 1969BeZR
198HG TG +0.350 30 +0.030 40 -0.16 7 1971Pa06
198HG TG +0.421 17 +0.017 23 -0.26 2 1971Be09
198HG TG $1635.6 587-636 -0.058 15 +0.033 20 1971Be09
198HG TG $1832.5 {I1421}-412 +0.385 23 +0.050 30 |?-0.26 1969BeZR
198HG TG +0.370 30 +0.050 40 -0.19 7 1971Pa06
198HG TG +0.363 17 +0.021 24 -0.18 3 1971Be09
198HG TG $1847.2 798-412 +0.270 60 -0.250 90 -3 1 1971Be09
198HG TG $ 1436-412 +0.054 36 -0.006 50 +0.15 5 1971Be09
198HG TG +0.020 50 +0.080 80 1971Pa06
198HG TG $1858.9 {I1447}-412 +0.387 31 +0.056 43 -0.20 5 1971Be09
198HG TG +0.420 50 +0.110 80 -0.8 5 1971Pa06
198HG TG $1901.4 {I1489}-412 +0.400 40 +0.015 56 -0.225 75 1971Be09
198HG TG $2360.6 {I1312}-412 -0.066 24 +0.026 34 -0.09 3 1971Be09
198HG TG $ 1312-636 -0.066 22 +0.030 30 |?0 1971Be09
198HG TG $2451.9 {I2040}-412 -0.215 24 -0.031 32 1971Be09
198HG TG
198HG TG
198HG cG E,RI From 1971Pa06, except as noted.
198HG cG RI Relative intensities normalized to I|g(675.8|g)=100.
198HG cG M From |a(K)exp measurements (1971Be09,1971Pa06), except as
198HGxcG noted.
198HG cG M(Z) Assumed by evaluator on the basis of |DJ and |D|p between
198HG2cG transition levels.
198HG cG MR From |g|g(|q) measurements (1971Pa06,1971Be09), except as
198HGxcG noted.
198HG cG |a(K)exp=ce(K)/I|g normalized to |a(K)(411.8|g)=0.0300 (E2
198HGxcG theory)
198HG cG E(A),RI(A)$From |g|g coin
198HG cG RI(K) I(|b{++})/100 decays=0.53 deduced. See 1961Gu02 for E|b, I|b
198HGxcG spectrum
198HG G 511.0 3 9.6 15
198HG3 G FLAG=K$
198HG G 617.0 5 0.9 3 ?
198HG G 704.4 3 1.65 30
198HG G 1341.4 5 0.63 20
198HG G 1368.2 5 1.98 40
198HG G 1702.0 100.88 20
198HG G 2140.6 5 0.86 20
198HG G 2250.1 8 0.70 15
198HG G 2396.2 6 0.26 8
198HG G 2529.0 8 0.24 6
198HG G 2551.0 8 0.26 6
198HG G 2700.7 5 0.72 9
198HG G 2710.3 8 0.20 6
198HG G 3138.8 150.07 3 ?
198HG L 0.0 0+ STABLE
198HG E 0.18 AP 2.80 AP 10.0 AP 2.98 AP 1U
198HGS E EAV=1085 34$CK=0.755 5$CL=0.1389 12$CM+=0.0450 4
198HG cE |e-feeding is estimated from measured |b{++} component to
198HG2cE g.s. (1961Gu02)
198HG L 411.78102+ 23.15 PS 28
198HG E 0.26 AP 2.29 AP 8.4 AP 2.55 AP
198HGS E EAV=918 36$CK=0.728 10$CL=0.1291 18$CM+=0.0415 6
198HG cE |e-feeding is estimated from measured |b{++} component
198HG2cE (1961Gu02); level scheme I(|g+ce) balance suggests I|e|<5%
198HG G 411.8 2 750 60E2 0.0439 C
198HGS G KC=0.0300 5$LC=0.01055 15$MC=0.00263 4
198HGS G NC=0.000655 10$OC=0.0001152 17$PC=3.95E-6 6
198HG cG M From ce ratios, |a(K)exp ({+198}Au |b{+-} decay)
198HG L 1048.50144+
198HG3 L FLAG=J$
198HG E 0.0085AP 0.79 AP 9.9 AP 0.8 AP 1U
198HGS E EAV=642 34$CK=0.7911 10$CL=0.1512 8$CM+=0.0492 3
198HG G 636.7 2 93 6 E2 0.01540 C
198HGS G KC=0.01172 17$LC=0.00280 4$MC=0.000677 10
198HGS G NC=0.0001690 24$OC=3.06E-5 5$PC=1.555E-6 22
198HG cG |a(K)exp=0.010 {I3} (1971Be09), |?0.0092 (1968Pe13)
198HG L 1087.67132+
198HG3 L FLAG=J$
198HG E 0.22 5 7.1 8 7.64 7 7.3 8
198HGS E EAV=620 35$CK=0.784 5$CL=0.1410 11$CM+=0.0454 4
198HG G 675.8 2 100 M1+E2 +1.07 14 0.0267 20 C
198HGS G KC=0.0216 17$LC=0.00389 24$MC=0.00091 6
198HGS G NC=0.000229 14$OC=4.3E-5 3$PC=2.96E-6 25
198HG cG MR From A{-2}=-0.290 {I16} (1971Pa06).
198HG cG |a(K)exp|?0.015 (1968Pe13), 0.0224 {I19} (1954El04, {+198}Au
198HGxcG |b{+-} decay)
198HG G 1087.6 3 22.2 23E2 0.00513 C
198HGS G KC=0.00414 6$LC=0.000752 11$MC=0.0001766 25
198HGS G NC=4.42E-5 7$OC=8.20E-6 12$PC=5.43E-7 8
198HG cG M From |a(K)exp (1954El04,1956Vo20) in {+198}Au |b{+-} decay
198HG L 1401.50240+
198HG3 L FLAG=J$
198HG E 0.0013 5 0.50 9 9.85 12 0.50 9 1U
198HGS E EAV=493 35$CK=0.7920 5$CL=0.1547 9$CM+=0.0506 4
198HG G 989.7 3 6.6 6 E2 0.00616 C
198HGS G KC=0.00495 7$LC=0.000929 13$MC=0.000219 3
198HGS G NC=5.48E-5 8$OC=1.015E-5 15$PC=6.50E-7 10
198HG cG |a(K)exp=0.0058 {I15} (1971Be09)
198HG G 1401.7 8 E0 0.09 2
198HG cG M From |a(K)exp>0.1 (1971Be09), photon unobserved
198HG cG TI From ce(K)(1401.7|g)/I|g(989.7|g)=0.011 {I2} (1971Be09)
198HG L 1419.39143+
198HG3 L FLAG=J$
198HG E 0.008 AP 0.69 AP 8.5 AP 0.7 AP
198HGS E EAV=475 35$CK=0.7970 24$CL=0.1448 9$CM+=0.0467 3
198HG G 331.6 2 5.4 7 C
198HG G 370.8 3 2.7 4 C
198HG G 1007.6 3 25.2 25(M1+E2) +0.04 AP 0.01494AP C
198HGS G KC AP 0.01235$LC AP 0.00199$MC AP 0.000460
198HGS G NC AP 0.0001154$OC AP 2.19E-5$PC AP 1.702E-6
198HG cG |a(K)exp=0.0112 {I28} (1971Be09)
198HG cG MR From A{-2},A{-4} (1971Pa06,1971Be09). Other: |?0.05 from
198HGxcG |a(K)exp (1971Be09)
198HG L 1548.4821(1,2+)
198HG E 0.0028 11 0.39 7 8.71 10 0.39 7
198HGS E EAV=418 36$CK=0.7998 16$CL=0.1460 8$CM+=0.0472 3
198HG G 1136.8 3 3.4 3 C
198HG G 1548.4 3 1.0 2
198HG L 1612.42142+
198HG3 L FLAG=J$
198HG E 0.051 21 9.2 13 7.30 9 9.3 13
198HGS E EAV=390 36$CK=0.8007 13$CL=0.1465 7$CM+=0.04736 25
198HG G 564.0 3 2.8 5 C
198HG G 1200.6 2 89 9 M1+E2 -0.26 2 0.0092514 C
198HGS G KC=0.00765 12$LC=0.001228 19$MC=0.000284 5
198HGS G NC=7.12E-5 11$OC=1.350E-5 21$PC=1.049E-6 16$IPC=6.69E-6 11
198HG G 1612.5 3 8.8 4
198HG L 1635.7 4 5- ?
198HG cL E Determined by 587.2|g (1971Pa06,1971Be09).
198HG2cL Since feeding to 5- is impossible this level is doubt; 587.2|g may be
198HG2cL unplaced here (may be from {+198}Tl |e decay (1.87 h)).
198HG E 0.0009 5 0.19 5 8.98 13 0.19 5
198HGS E EAV=380 36$CK=0.8010 11$CL=0.1467 7$CM+=0.04743 25
198HG G 587.2 3 1.8 4
198HG L 1832.58182+
198HG3 L FLAG=J$
198HG E 0.019 12 11.7 15 7.09 9 11.7 15
198HGS E EAV=293 36$CK=0.8020 2$CL=0.1483 7$CM+=0.04802 25
198HG G 745.0 8 1.2 5 C
198HG G 1420.6 3 73 8 M1(+E2) -0.18 3 0.0062310 C
198HGS G KC=0.00511 8$LC=0.000814 13$MC=0.000188 3
198HGS G NC=4.72E-5 7$OC=8.95E-6 14$PC=6.99E-7 11$IPC=6.79E-5 10
198HG cG |a(K)exp=0.0062 {I16} (1971Be09)
198HG cG MR Consistent with A{-2}, A{-4} (1971Be09).
198HG G 1832.6 3 39 4
198HG L 1834.9 34+
198HG E 5.E-5 6 0.03 3 9.7 5 0.03 3
198HGS E EAV=292 36$CK=0.8020 2$CL=0.1483 7$CM+=0.04803 25
198HG G 747.5 8 0.7 4
198HG G 786.3 4 2.6 4 C
198HG L 1847.2016 3+
198HG3 L FLAG=J$
198HG E 0.009 6 5.9 8 7.37 9 5.9 8
198HGS E EAV=287 36$CK=0.8020 3$CL=0.1484 7$CM+=0.04807 25
198HG G 234.8 2 4.1 6 C
198HG G 759.6 3 13.3 12 C
198HG G 798.7 3 9.8 7 C
198HG G 1435.4 3 32 4 M1(+E2) +0.15 5 0.0061110 C
198HGS G KC=0.00500 9$LC=0.000797 13$MC=0.000184 3
198HGS G NC=4.62E-5 8$OC=8.76E-6 15$PC=6.85E-7 12$IPC=7.44E-5 12
198HG cG |a(K)exp=0.0057 {I14} (1971Be09)
198HG cG MR From |a(K)exp. Value is consistent with A{-2}, A{-4}
198HGxcG (1971Be09)
198HG L 1858.82182+
198HG3 L FLAG=J$
198HG E 0.007 5 4.9 7 7.45 9 4.9 7
198HGS E EAV=282 36$CK=0.8020 3$CL=0.1485 7$CM+=0.0481 3
198HG G 771.2 4 1.4 2 C
198HG G 810.4 4 1.6 3 C
198HG G 1447.0 3 39 4 M1(+E2) -0.20 5 0.0059511 C
198HGS G KC=0.00486 9$LC=0.000775 14$MC=0.000179 3
198HGS G NC=4.49E-5 8$OC=8.51E-6 15$PC=6.65E-7 12$IPC=7.90E-5 13
198HG cG M Deduced from ce(K)/I|g (see 1971Be09, Fig. 1) by evaluator
198HG cG MR Consistent with A{-2}, A{-4} (1971Be09).
198HG G 1859.0 107.1 10
198HG L 1899.39211+,2+
198HG E 0.0027 20 2.6 4 7.70 10 2.6 4
198HGS E EAV=264 36$CK=0.8019 5$CL=0.1489 7$CM+=0.0482 3
198HG G 497.9 3 2.0 4 C
198HG G 1487.5 5 3.1 14
198HG G 1899.3 3 20.4 20
198HG L 1901.4823(2+)
198HG3 L FLAG=J$
198HG E 0.0027 20 2.6 4 7.70 10 2.6 4
198HGS E EAV=263 36$CK=0.8019 5$CL=0.1489 7$CM+=0.0482 3
198HG G 853.0 4 1.3 3 C
198HG G 1489.6 3 24.1 28(M1+E2) -0.23 8 0.0055213 C
198HGS G KC=0.00449 11$LC=0.000716 17$MC=0.000165 4
198HGS G NC=4.15E-5 10$OC=7.87E-6 19$PC=6.15E-7 15$IPC=9.80E-5 20
198HG L 1970.9119 2+,3,4+
198HG E 0.75 14 8.20 11 0.75 14
198HGS E CK=0.8015 7$CL=0.1495 8$CM+=0.0485 3
198HG G 884.0 5 0.8 4 ?
198HG G 922.7 6 1.8 3 C
198HG G 1559.0 3 8.4 9 C
198HG L 2005.3318 0+,1,2,3,4+
198HG E 1.7 3 7.82 11 1.7 3
198HGS E CK=0.8013 8$CL=0.1498 8$CM+=0.0486 3
198HG G 1593.6 2 19.5 20 C
198HG L 2048.6 5 0+,1,2,3,4+
198HG E 0.25 5 8.63 11 0.25 5
198HGS E CK=0.8009 9$CL=0.1501 8$CM+=0.0487 3
198HG G 1636.8 4 2.4 4 C
198HG L 2070.8 31+,2+
198HG E 1.52 22 7.83 10 1.52 22
198HGS E CK=0.8006 10$CL=0.1504 8$CM+=0.0488 3
198HG G 1659.1 3 15.5 15 C
198HG L 2109.7 5 1,2+
198HG E 0.31 5 8.49 10 0.31 5
198HGS E CK=0.8002 11$CL=0.1507 9$CM+=0.0489 4
198HG G 1697.3 102.0 3 C
198HG G 2109.9 5 0.9 2
198HG L 2132.7 31+,2+
198HG E 2.8 4 7.52 10 2.8 4
198HGS E CK=0.7999 12$CL=0.1510 9$CM+=0.0490 4
198HG G 1045.0 101.9 6 C
198HG3 G FLAG=A$
198HG G 1720.8 3 25.4 25 C
198HG L 2169.3823 2+
198HG E 0.86 12 8.01 10 0.86 12
198HGS E CK=0.7994 13$CL=0.1513 10$CM+=0.0492 4
198HG G 336.5 4 0.7 3
198HG G 621.0 5 0.7 3
198HG G 1121.1 4 1.25 25 &
198HG G 1758.6 6 4.1 6 C
198HG G 2168.7 5 1.4 2
198HG L 2177.6524 1,2+
198HG E 2.1 4 7.61 11 2.1 4
198HGS E CK=0.7993 13$CL=0.1514 10$CM+=0.0492 4
198HG G 318.9 4 0.50 25 &
198HG G 758.0 103.6 9 C
198HG3 G FLAG=A$
198HG G 1090.3 106.0 23 C
198HG3 G FLAG=A$
198HG G 1765.8 3 9.0 9 C
198HG G 2177.7 8 0.5 2
198HG L 2209.1915 1,2+
198HG E 3.0 4 7.44 10 3.0 4
198HGS E CK=0.7988 14$CL=0.1518 10$CM+=0.0494 4
198HG G 238.3 2 2.3 5 C
198HG G 350.6 4 0.72 25 &
198HG G 376.8 5 1.8 4
198HG G 596.8 2 9.2 10 C
198HG G 789.6 4 4.5 5 C
198HG G 1121.1 4 1.25 25 &
198HG G 1797.4 3 4.6 6 C
198HG G 2209.2 4 3.8 4
198HG L 2219.4 4 0+,1,2,3,4+
198HG E 0.22 4 8.56 11 0.22 4
198HGS E CK=0.7987 14$CL=0.1519 10$CM+=0.0494 4
198HG G 1131.7 3 2.1 3 C
198HG L 2267.7 3 2+
198HG E 1.54 21 7.68 10 1.54 21
198HGS E CK=0.7979 15$CL=0.1525 11$CM+=0.0496 5
198HG G 1219.2 3 9.9 9 C
198HG G 1856.0 104.4 10 C
198HG G 2267.0 150.26 10
198HG L 2287.3 3 1,2+
198HG E 0.98 16 7.86 11 0.98 16
198HGS E CK=0.7975 16$CL=0.1527 12$CM+=0.0497 5
198HG G 1875.3 3 6.1 6 C
198HG G 2287.5 104.0 10
198HG L 2296.1120 2+,3,4,5,6+
198HG E 1.11 17 7.80 11 1.11 17
198HGS E CK=0.7974 16$CL=0.1529 12$CM+=0.0498 5
198HG G 325.0 4 0.84 30 &
198HG G 437.2 3 1.7 4 C
198HG G 449.0 3 1.1 4
198HG G 876.8 3 2.5 3 C
198HG G 1208.7 103.8 9 C
198HG G 1884.5 100.5 2
198HG L 2320.3 3 1,2+
198HG E 0.34 5 8.30 11 0.34 5
198HGS E CK=0.7969 17$CL=0.1532 12$CM+=0.0499 5
198HG G 1232.6 3 1.9 3 C
198HG G 1908.5 4 1.3 2
198HG G 2319.5 5 1.42 20 & ?
198HG L 2331.55244+
198HG E 0.31 7 8.33 13 0.31 7
198HGS E CK=0.7967 17$CL=0.1533 13$CM+=0.0500 5
198HG G 911.7 5 0.8 3
198HG G 1244.0 3 2.9 4 C
198HG L 2360.76173+
198HG3 L FLAG=J$
198HG E 6.3 8 6.99 10 6.3 8
198HGS E CK=0.7961 19$CL=0.1538 13$CM+=0.0501 5
198HG G 513.6 3 2.4 5 C
198HG G 525.9 3 3.0 4 C
198HG G 941.4 3 5.7 5 C
198HG G 1273.1 4 3.3 4 C
198HG G 1312.2 2 43.5 45M1(+E2) -0.09 3 0.00765 C
198HGS G KC=0.00631 9$LC=0.001008 15$MC=0.000233 4
198HGS G NC=5.84E-5 9$OC=1.108E-5 16$PC=8.66E-7 13$IPC=2.97E-5 5
198HG cG |a(K)exp=0.0066 {I17} (1971Be09)
198HG G 1949.1 5 1.1 2 (M1+E2) -0.19 4 0.00317
198HGS G KC=0.00232 4$LC=0.000366 6$MC=8.46E-5 13
198HGS G NC=2.12E-5 4$OC=4.02E-6 6$PC=3.16E-7 5$IPC=0.000378 6
198HG cG M,MR$From Mult.=D+Q, and |DJ|p (1971Be09)
198HG L 2451.8419(1,3)
198HG3 L FLAG=J$
198HG E 8.6 12 6.78 11 8.6 12
198HGS E CK=0.7940 23$CL=0.1553 16$CM+=0.0507 7
198HG G 318.9 4 0.50 25 &
198HG G 550.2 4 0.94 30
198HG G 1363.9 4 2.9 4 C
198HG G 2040.2 2 77 8 D+Q C
198HG cG |d=-0.035 {I25} if J|p(2451)=1+; |d=-0.19 {I4} if
198HG2cG J|p(2451)=3+ (1971Be09).
198HG L 2465.4221 2+
198HG E 1.54 22 7.51 11 1.54 22
198HGS E CK=0.7937 23$CL=0.1555 17$CM+=0.0508 7
198HG G 1045.5 104.2 3 C
198HG G 1416.8 103.0 13 C
198HG G 2053.7 3 1.6 2 C
198HG G 2465.4 3 5.7 6
198HG L 2486.0717 1,2+
198HG E 2.3 3 7.32 11 2.3 3
198HGS E CK=0.7931 24$CL=0.1559 18$CM+=0.0510 7
198HG G 480.8 2 3.8 4 C
198HG G 1066.3 4 2.0 3
198HG G 1398.0 6 0.72 20 C
198HG G 2074.3 3 5.3 6 C
198HG G 2486.2 3 10.3 10
198HG L 2564.3117 1,2+
198HG E 1.25 18 7.51 12 1.25 18
198HGS E CK=0.791 3$CL=0.1576 21$CM+=0.0516 9
198HG G 664.5 6 1.2 3
198HG G 951.7 5 0.53 20 &
198HG G 1145.0 3 2.0 3 C
198HG G 1476.5 102.2 10 C
198HG G 2152.6 3 4.8 5 C
198HG G 2564.3 3 1.1 3
198HG L 2602.4 3
198HG E 2.8 4 7.11 12 2.8 4
198HGS E CK=0.789 4$CL=0.1585 24$CM+=0.0520 9
198HG G 1515.0 4 1.9 3 C
198HG G 2190.5 3 24.4 24 C
198HG L 2612.5 3 1,2+
198HG E 0.30 5 8.07 13 0.30 5
198HGS E CK=0.789 4$CL=0.1588 24$CM+=0.0521 10
198HG G 325.0 4 0.84 30 &C
198HG G 2612.6 3 2.0 2
198HG L 2644.2 7 2+,3,4+
198HG E 0.40 12 7.91 17 0.40 12
198HGS E CK=0.788 4$CL=0.160 3$CM+=0.0524 11
198HG G 1595.6 103.2 10 C
198HG3 G FLAG=A$
198HG G 2232.5 8 0.6 2 C
198HG L 2694.8 7 1,2+
198HG E 0.52 12 7.74 16 0.52 12
198HGS E CK=0.786 5$CL=0.161 3$CM+=0.0531 12
198HG G 2283.0 104.5 10 C
198HG3 G FLAG=A$
198HG G 2694.8 8 0.37 7
198HG L 2731.2 3 2+,3,4+
198HG E 0.57 9 7.65 14 0.57 9
198HGS E CK=0.784 5$CL=0.163 4$CM+=0.0536 14
198HG G 898.5 4 0.6 3
198HG G 1643.5 4 2.9 4 C
198HG G 1682.5 150.46 20
198HG G 2319.5 5 1.42 20 &C
198HG L 2782.7421 2+
198HG E 1.10 13 7.29 14 1.10 13
198HGS E CK=0.781 6$CL=0.165 4$CM+=0.0544 16
198HG G 712.1 4 0.65 25
198HG G 1734.0 5 0.86 20
198HG G 2370.9 3 4.9 5 C
198HG G 2782.8 4 4.0 4
198HG L 2816.1 8 1,2+
198HG E 0.040 9 8.68 17 0.040 9
198HGS E CK=0.779 7$CL=0.166 5$CM+=0.0550 19
198HG G 350.6 4 0.72 25 & ?
198HG G 2404.5 150.13 6 ?
198HG G 2816.1 8 0.38 7
198HG L 2825.5 3 1,2+
198HG E 0.44 6 7.63 15 0.44 6
198HGS E CK=0.778 7$CL=0.167 5$CM+=0.0552 19
198HG G 2413.7 3 3.1 3 C
198HG G 2825.6 5 1.08 15
198HG L 2835.4825 1,2+
198HG E 0.32 6 7.75 17 0.32 6
198HGS E CK=0.777 7$CL=0.167 5$CM+=0.0554 20
198HG G 503.9 3 0.8 3
198HG G 2423.7 3 2.0 3 C
198HG G 2835.5 8 0.22 5
198HG L 2845.1 4 1,2+
198HG E 0.140 23 8.10 16 0.140 23
198HGS E CK=0.777 8$CL=0.168 6$CM+=0.0556 21
198HG G 2433.8 5 0.76 15 C
198HG G 2844.3 6 0.56 8
198HG L 2861.6 6 1,2+
198HG E 0.085 16 8.29 17 0.085 16
198HGS E CK=0.775 8$CL=0.169 6$CM+=0.0560 22
198HG G 2449.9 8 0.47 10
198HG G 2861.5 8 0.33 7
198HG L 2868.8 6 1,2+
198HG E 0.088 15 8.26 17 0.088 15
198HGS E CK=0.775 8$CL=0.169 6$CM+=0.0561 23
198HG G 2457.0 8 0.59 10
198HG G 2868.8 8 0.24 5
198HG L 2894.3 7 1,2+
198HG E 0.26 11 7.74 25 0.26 11
198HGS E CK=0.773 9$CL=0.171 7$CM+=0.057 3
198HG G 1475.0 102.0 10 C
198HG3 G FLAG=A$
198HG G 2894.2 8 0.45 6
198HG L 2954.6 7 1,2+
198HG E 0.038 8 8.47 21 0.038 8
198HGS E CK=0.766 12$CL=0.175 9$CM+=0.059 4
198HG G 2542.7 8 0.29 6
198HG G 2954.8 100.07 3
198HG L 2975.9 7 1,2+
198HG E 0.12 4 7.92 24 0.12 4
198HGS E CK=0.763 14$CL=0.177 10$CM+=0.059 4
198HG G 1074.0 100.40 15 ?
198HG G 2564.0 100.8 3 C
198HG G 2975.9 8 0.29 5
198HG L 2986.8 8 1,2+
198HG E 0.029 6 8.52 22 0.029 6
198HGS E CK=0.762 15$CL=0.178 11$CM+=0.060 5
198HG G 2986.8 8 0.27 5
198HG L 3013.1 3
198HG E 0.29 4 7.46 22 0.29 4
198HGS E CK=0.758 17$CL=0.181 13$CM+=0.061 5
198HG G 1925.3 5 0.65 15
198HG G 2601.4 3 2.1 2 C
198HG L 3022.3 8 1,2+
198HG E 0.075 23 8.0 3 0.075 23
198HGS E CK=0.756 18$CL=0.182 13$CM+=0.061 6
198HG G 951.7 5 0.53 20 &C
198HG G 3022.1 100.18 4
198HG L 3095.710 1,2+
198HG E 0.028 6 8.3 3 0.028 6
198HGS E CK=0.74 3$CL=0.194 22$CM+=0.066 9
198HG G 3095.7 100.26 5
198HG L 3128.0 7 1,2+
198HG E 0.053 10 7.9 4 0.053 10
198HGS E CK=0.73 5$CL=0.20 3$CM+=0.069 12
198HG G 2716.0 8 0.34 7
198HG G 3128.2 100.16 4
198HG L 3164.7 6 1,2+
198HG E 0.051 9 7.8 4 0.051 9
198HGS E CK=0.71 6$CL=0.21 5$CM+=0.073 18
198HG G 2753.0 100.24 5
198HG G 3164.6 7 0.24 4