199HG    199AU B- DECAY (3.139 D)      1989CH45,1977DR06,1975BO0507NDS    200703
199HG  H TYP=FUL$AUT=BALRAJ SINGH$CIT=NDS 108, 79 (2007)$CUT=15-Oct-2006$
199HG C  BG(T), GG(T): 1974Do01, 1972Si42, 1971Si20, 1967Ba27,
199HG2C  1966Ra28, 1964Li12, 1963Li08.
199HG C  BG(THETA): 1975Ve14, 1965DEZZ, 1962Ge10, 1961El01
199HG C  (ELECTRON)G(THETA): 1968TH03, 1965TH03
199HG C  B(CE,TRANSVERSE POL)(THETA): 1962BL05
199HG C  BG(CIRC POL)(THETA): 1971VA15
199HG CB $ EB, IB, SPECTRUM SHAPE: 1968Be06, 1966Le03, 1965Ke04, 1955Ha50,
199HGxCB 1952Be26, 1952De34
199HG CB IB$From TI balance at each level and measured
199HG2CB IB(to GS)=6.5 13.
199HG CB $ B(LONGITUDINAL POLARIZATION): 1968BE06, 1965LO06
199HG CG           EG, IG: 1989Ch45, 1991Ma65, 1975Bo05, 1972De67, 1972Si42,
199HG2CG 1970Gr13, 1968Mu09, 1965Ke04, 1964Ka17, 1963Ha16, 1961Ha11, 1960De15,
199HG2CG 1958Av89, 1958Cr09, 1951Sh58, 1952Si47.
199HG CG           ICE, ICC and CE-ratios: 1977Dr06, 1974Do01, 1965Ke04,
199HG2CG 1964He19, 1960De17, 1960Na06, 1958Ba36, 1958Cr09, 1952De34, 1952Si47,
199HGxCG 1951Sh58, 1950Hi59
199HG CG           I(XK)=43.6 5 (1989Ch45), 48 2 (1963Ha16); I(XL)=36.9 6
199HG2CG (1989Ch45), 56 4 (1963Ha16). Measured I(XK) and XL subshell ratios
199HG3CG (1989Ch45). (I(x) relative to I(158G)=100)
199HG CG           1977Dr06 calculated the ICC for the transitions in this
199HG2CG decay using HARTREE-FOCK wave functions. They also analyzed their
199HG3CG experimental CE-ratios allowing for the nuclear structure effect
199HG4CG in the M1 component. Their deduced MR and LAMBDA are given below
199HG5CG in a footnote to the individual gammas.
199HG5CG However, the experimental data can also be fitted
199HG6CG without the penetration factor using the theoretical ICC of 1968Ha53.
199HG CG E$From curved-crystal measurement of 1975Bo05, and as revised
199HG2CG in the recommended values of 2000He14. The curved crystal spectrometer
199HG3CG measurements have been adjusted for the change in 198AU calibration
199HG4CG standard (1980De40,2000He14).
199HG CG RI$From 1989Ch45
199HG CG MR$Deduced from CEL- and CEM-subshell ratios of 1977Dr06
199HG2CG using theoretical values of 1968Ha53.
199HG CG CC$Theoretical CC from 1968Ha53 for the multipolarity and MR
199HG2CG given.
199HG CG MR(A),CC(A)$1977Dr06 analyzed the ICE subshell ratios including
199HG2CG nuclear penetration effects in the wave functions. The results:
199HG3CG 50 KEV G: MR=0.039 4, nuclear structure parameter LAMBDA=2.4 10;
199HG4CG 208 KEV G: MR=0.350 13, nuclear structure parameter LAMBDA=3.8 5
199HG CL E$ From E|g's
199HG CL J$From 'adopted levels'
199AU  P    0.0       3/2+               3.139 D 7               452.0    6
199HG  N  0.400     6          1.0        1.0
199HG CN NR$ From TI(208|g+158|g)=100-IB(GS), (IB-(GS)=6.5 13).
199HG PN                                                                     3
199HG  L    0.0         1/2-
199HG  B               6.5   13           7.50   9
199HGS B EAV=132.77 24
199HG CB E$from F-K plot: EB=453 2 (1968Be06), 460 6 (1966Le03), 461.7
199HG2CB (1965Ke04); B-group has non statistical shape: A'=-0.24 3 (1968Be06),
199HG3CB -0.3 1 (1966Le03)
199HG CB IB$unweighted average of 6.0% (1965Ke04), 6.4% (1955Ha50), 7%
199HG2CB (1952De34). DIB=20% assigned by evaluator.
199HG CB           Longitudinal polarization: p=-0.84 v/c 3 (1968Be06),
199HG2CB p=-0.83 v/c 5 (1965Lo06); based on p(32P)=-1.0 v/c
199HG  L 158.37859 10   5/2-             2.46 NS 3
199HG CL T$weighted average of 2.49 NS 3 (1971Si20), 2.38 NS 7 (1967Ba27),
199HG2CL 2.37 NS 7 (1966Ra28), 2.42 NS 15 (1963Li08), 2.35 NS 20 (1952Be26).
199HG  B              72.0   13           5.850  9
199HGS B EAV=82.29 22
199HG CB E,IB$from F-K plot: EB=295.8, IB=71.6% (1965Ke04), EB=302, IB=69.3%
199HG2CB (1955Ha50), EB=291 5 (1952De34), EB=297 10 (1952Be26)
199HG CB           B(158G)(THETA) is isotropic (1975Ve14,1962Ge10,1961El01)
199HG  G 158.37851 10 100.0  8    E2                    0.914
199HGS G KC=0.296$ L1C=0.0382$ L2C=0.251$ L3C=0.172$ MC=0.119$  NC+=0.0374
199HG CG RI$absolute measurement with 4PI(BG): RI=36.8% 11 (1963Ha16)
199HG CG M         EKC=0.284 11, EL1C=0.0387 8, EL2C=0.252 3, L3C=0.172,
199HG2CG EMC=0.121 8, ENC=0.0304 20, normalized to theoretical L3C (1977Dr06)
199HG  L 208.20494 10   3/2-             69 PS   3
199HG CL T$weighted average of 71 PS 5 (1974Do01), 70 PS 15 (1972Si42),
199HG2CL 71 PS 7 (1966Ra28), 66 PS 6 (1963Li08,1964Li12)
199HG  B              21.5   4            6.118  9
199HGS B EAV=67.21 21
199HG CB E,IB$from F-K plot: EB=250, IB=22.4% (1965Ke04), EB=251, IB=24.3%
199HG2CB (1955Ha50), EB=250 15 (1952Be26)
199HG CB           B(208G)(THETA) is isotropic (1975Ve14,1962Ge10,1961El01)
199HG CB           Transverse polarization of (B-)(CEK 208G) (1962Bl05)
199HG CB           Circular polarization of (B-)(208G) (1971Va15)
199HG  G  49.82635 12  0.901 23  M1+E2    -0.044 4      11.7                A
199HGS G L1C=7.85$  L2C=0.895 19$  L3C=0.176 19$  LC=8.92 4$ MC=2.08 1
199HG CG M,MR$L1:L2:L3=7.85 12: 0.902 20: 0.157 23, M1:M2:M3=
199HG2CG 1.77 4: 0.244 14: 0.063 18 (1977Dr06), sign from: MR=-0.017 6 from
199HG3CG CEG(THETA) (1968Th03).
199HG  G 208.20481 12 21.8   3   M1+E2   -0.388  9      0.937               A
199HGS G KC=0.751 4$ LC=0.142$ MC=0.0334 2$ NC+=0.0106
199HG CG M,MR$L1:L2:L3=0.114 2: 0.0218 5: 0.00692 10, M1:M2:M3=
199HG2CG 0.0261 8: 0.0054 6: 0.0021 3, K:L:M=0.74 6: 0.142 2: 0.0337 10
199HG3CG normalized to theoretical L3C (1977Dr06); sign of MR from COUL EX.
199HG4CG theory: L1C:L2C:L3C=0.114 1: 0.0210 3: 0.0069 2,
199HG5CG M1C:M2C:M3C=0.0261 1: 0.00536 9: 0.00183 6.