184W 184RE EC DECAY (35.4 D) 1974MC08 10NDS 201002
184W H TYP=FUL$AUT=CORAL M. BAGLIN$CIT=NDS 111,275 (2010)$CUT=1-Oct-2009$
184W C Others: 1960BO07, 1962BL12, 1963BI04, 1963DZ05, 1963JO03, 1964Ha06,
184W 2C 1966AG03, 1966DZ04, 1968Ag01,
184W 3C 1969GL04, 1969ZU01, 1970Ag06, 1970BLZT, 1970DO08, 1970Ku05, 1971TA19,
184W 4C 1973Ag03, 1973AG07, 1973CA08, 1973HU06, 1973KR01, 1974SvZY, 1975BU01,
184W 5C 1976KL06, 1977GA21, 1982AL05, 1987BU26.
184W C The decay scheme is that proposed by 1974Mc08 based on
184W 2C energy sums and GG-coincidence data.
184W CE TI FROM INTENSITY IMBALANCE AT EACH LEVEL.
184W CG For GG see 1973Ag03, 1974Mc08.
184W CG For (CE)(G) see 1963Dz05, 1966Dz04.
184W CG CE data have been reported by 1966AG03, 1968AG01, 1970Ag06,
184W 2CG 1973Ag03, 1973Ag07, 1973Ca08, 1974Mc08, 1974SvZY.
184W 2CG Others: 1966Dz04, 1964Ha06. Extensive
184W 3CG internal conversion coefficient data have been deduced by 1973Ag07,
184W 4CG 1974Mc08, and 1974SvZY based on their relative I(CE) and I(G)
184W 5CG measurements normalized so that KC(903G)=0.00452 (E2 theory).
184W CG E FROM 1974Mc08, EXCEPT AS NOTED. Others: 1970Ku05, 1971Ta19,
184W 2CG 1973Ag07, 1975Bu01, 1974SvZY, 1988BUZD.
184W CG RI RELATIVE IG BASED ON the decay scheme AND RI FROM 1974MC08
184W 2CG measured for a 184RE ground-state plus metastable-state source in
184W 3CG secular equilibrium. THE MIXED DECAY can be decomposed to obtain
184W 4CG separately the ground-state and metastable-state contributions
184W 5CG BECAUSE 169 D 184RE EC DECAY DIRECTLY POPULATES JUST ONE LEVEL AND THAT
184W 6CG LEVEL IS NOT FED IN 184RE(GS) EC DECAY. THE EVALUATOR HAS REVISED
184W 7CG THE AUTHORS' VALUES TAKING INTO ACCOUNT SMALL CHANGES IN THE
184W 8CG THEORETICAL conversion coefficients.
184W ACG Other RI: 1970Ku05, 1973Ag07, 1973Ca08, 1974SvZY, 1975Bu01.
184W CG RI(A) Photons unobserved. Limit on IG from I(CEK) of 1976Kl06
184W 2CG if multipolarity is as indicated.
184W CG MR(B) from G(|q,H,TEMP); weighted average of -16.7 8 (1972Bu35),
184W 2CG -18.2 12 (1973Hu06), -16.1 9 (1973Kr01)).
184W 3CG Others: 1969Zu01, -19 +3-5 (1970Do08), -22 +6-7
184W 4CG (1973Ca08; GG(|q)), -17.6 +15-18 (1982AL05).
184W 5CG Based on G-G(|q), CE-G(|q), 1969Zu01 and 1970Do08
184W 6CG suggest the possibility of E0 admixture and M1 penetration effects.
184W 7CG Taking MR(E2,M1)=-18 2, and KC=0.0061 6, 1969Zu01 obtain E0/E2<0.37,
184W 8CG -82<|l<+196. Taking MR(E2,M1)=-16.7 +14-12, and KC=0.0064 3, 1970Do08
184W 9CG obtain -0.281.1 from EKC=0.0035 10 (1973Ag07). Others:
184W 2CG 1974Mc08 (EKC=0.0037 19), 1974SvZY. Feeding to 0+ GS rules out
184W 3CG mixed multipolarity.
184W L 1130.046 13 (2)-
184W G 124.06020 0.0042 8 (E1) 0.215
184W S G KC=0.1762 25$LC=0.0297 5$MC=0.00677 10$NC+=0.00186 3
184W S G NC=0.001603 23$OC=0.000245 4$PC=1.294E-5 19
184W CG M from EKC LT 1.1 (1973Ag07) AND LEVEL SCHEME.
184W G 226.74810 0.043 8 E1+M2+E3 0.059 5
184W S G KC=0.059 $LC=0.042 $MC=0.0132 $NC+=0.00088
184W CG M,MR EKC=0.0421 12 (1974MC08), 0.0032 10 (1973AG07).
184W 2CG From G(|q,H,TEMP) (1973Kr01) and EKC,
184W 3CG MR(M2,E1)=-0.02 3, MR(E3,E1)=0.10 3.
184W G 1018.93 5 0.0027 5(E1)
184W CG M FROM EKC=0.0018 12 (1976KL06).
184W L 1133.836 16 4+
184W E 1.23 6 8.60 3 1.23 6
184W S E CK=0.7656 10$CL=0.1770 7$CM+=0.0574 3
184W G 127.67 10 0.0038 16 E2(+M1) 2.8 GT 1.57 6
184W S G KC=0.61 9$LC=0.72 3$MC=0.182 8$NC+=0.0488 19
184W S G NC=0.0429 17$OC=0.00593 21$PC=4.9E-5 9
184W CG E from 1976Kl06.
184W CG RI from I(CEK)/I(903CEK)<0.0047 19 (1976Kl06) if mult=E2.
184W CG M,MR from L1/L2<0.3, L1/L3<0.3, L2/L3=1.2 6 (1976Kl06).
184W G 230.45 6 0.035 8 E2 0.193
184W S G KC=0.1152 17$LC=0.0593 9$MC=0.01467 21$NC+=0.00398 6
184W S G NC=0.00347 5$OC=0.000495 7$PC=9.38E-6 14
184W CG M FROM L1/L2=0.43 20, L2/L3=1.8 7 (1976KL06).
184W G 385.4 0.016 LT [E2] 0.0414 A S
184W S G KC=0.0300 5$LC=0.00877 13$MC=0.00211 3$NC+=0.000579 9
184W S G NC=0.000502 7$OC=7.46E-5 11$PC=2.67E-6 4
184W G 769.77817 1.60 6 M1+E2 -6.3 +20-320.0080 4
184W S G KC=0.0065 7$LC=0.00119 9$MC=0.000275 19$NC+=7.7E-5 6
184W S G NC=6.6E-5 5$OC=1.04E-5 8$PC=6.0E-7 7
184W CG M EKC=0.0065 6 (1974MC08), EKC=0.0053 13 (1973AG07).
184W CG MR from G(|q,H,TEMP) (1973Kr01). Other: 1/MR=-0.01 6 (1973HU06).
184W G 1022.63 3 1.24 9 E2 0.00431 6
184W S G KC=0.00354 5$LC=0.000591 9$MC=0.0001356 19$NC+=3.80E-5 6
184W S G NC=3.25E-5 5$OC=5.19E-6 8$PC=3.29E-7 5
184W CG M from EKC=0.0037 3 (1974MC08), 0.0030 4 (1973AG07);
184W 2CG K:L=1.2:0.22 (1966AG03).
184W L 1386.331 19 2+
184W E 0.254 12 7.61 8 0.254 12
184W S E CK=0.30 5$CL=0.51 4$CM+=0.193 16
184W G 256.3 0.014 LT [E1] 0.0336 A S
184W S G KC=0.0280 4$LC=0.00436 7$MC=0.000989 14$NC+=0.000275 4
184W S G NC=0.000236 4$OC=3.72E-5 6$PC=2.26E-6 4
184W G 265.0 0.0036LT [E2] 0.1240 A S
184W S G KC=0.0792 11$LC=0.0342 5$MC=0.00840 12$NC+=0.00229 4
184W S G NC=0.00199 3$OC=0.000287 4$PC=6.63E-6 10
184W G 380.34 4 0.011 3 M1+E2 1.3 +23-6 0.070 22
184W S G KC=0.055 20$LC=0.0113 18$MC=0.0027 4$NC+=0.00074 11
184W S G NC=0.00064 9$OC=9.9E-5 17$PC=5.3E-6 21
184W CG E from 1976Kl06.
184W CG RI from ADOPTED I(G)/I(1275G)=0.039 10.
184W CG M,MR from EKC=0.055 21 based on I(CEK)/I(903CEK)=0.0015 4
184W 2CG (1976Kl06) and RI.
184W G 482.9816 0.044 8M1+E2 0.042 20
184W S G KC=0.034 17$LC=0.0061 19$MC=0.0014 4$NC+=0.00039 12
184W S G NC=0.00034 10$OC=5.4E-5 18$PC=3.3E-6 18
184W CG M EKC=0.039 19 (1973AG07), but 1974SvZY report EKC=0.16 7. The
184W 2CG latter value, IF CORRECT, would imply an E0 component (KC=0.0174,
184W 3CG 0.0516 from E2,M1 theory, respectively).
184W G 1275.11 3 0.285 14M1+E2 +3 GE
184W S G CC=0.00294 14$KC=0.00243 12$LC=0.000382 16$MC=8.7E-5 4$NC+=3.84E-5 14
184W S G NC=2.08E-5 9$OC=3.36E-6 15$PC=2.26E-7 12$IPC=1.39E-5 4
184W CG M EKC=0.0036 6 (1974MC08), 0.0027 6 (1973AG07).
184W CG MR FROM Adopted Gammas. MR=-0.42 4 OR >18, <-50 from
184W 2CG G(|q,H,TEMP) (1973Kr01). MR=1.2 +10-5 from EKC=0.0032 5
184W 3CG (weighted average of data of 1973Ag07, 1974Mc08).
184W 4CG 1974Mc08 suggest the possible presence of an E0 component.
184W G 1386.33 3 0.245 12 E2 0.00242 4
184W S G KC=0.00199 3$LC=0.000308 5$MC=7.00E-5 10$NC+=5.55E-5 8
184W S G NC=1.682E-5 24$OC=2.72E-6 4$PC=1.84E-7 3$IPC=3.58E-5 5
184W CG M EKC=0.0021 2 (1973AG07), 0.0020 8 (1974MC08). Other:
184W 2CG 1974SvZY. Feeding of 0+ GS rules out mixed multipolarity.
184W CG MR(E2,M1)>2.2 from EKC (1973Ag07).
184W L 1425.03 4 (3)+
184W E 0.036 5 7.78 10 0.036 5
184W S E CL=0.690 8$CM+=0.310 8
184W G 295.01 7 0.052 10 E1 0.0238
184W S G KC=0.0199 3$LC=0.00306 5$MC=0.000694 10$NC+=0.000193 3
184W S G NC=0.0001656 24$OC=2.62E-5 4$PC=1.630E-6 23
184W CG M from EKC AP 0.021 (1976Kl06).
184W G 1061.0414 0.0062 12 E2 0.00400
184W S G KC=0.00330 5$LC=0.000545 8$MC=0.0001247 18$NC+=3.50E-5 5
184W S G NC=2.99E-5 5$OC=4.79E-6 7$PC=3.06E-7 5
184W CG M from EKC AP 0.003 (1976Kl06).
184W G 1313.79 4 0.0266 20 E2 0.00266 4
184W S G KC=0.00220 3$LC=0.000345 5$MC=7.84E-5 11$NC+=4.20E-5 6
184W S G NC=1.88E-5 3$OC=3.03E-6 5$PC=2.04E-7 3$IPC=1.99E-5 3
184W CG M from EKC=0.0018 3 (1977Ga21). OTHER EKC: 0.0026 11
184W 2CG (1973AG07).
184W L 1431.01 7 2+
184W E 0.0047 5 8.55 11 0.0047 5
184W S E CL=0.678 10$CM+=0.322 10
184W G 1319.9414 0.0054 6 M1+E2+E0
184W CG M EKC GE 0.0095 11 (1973AG07), 0.018 3 (1977GA21).
184W G 1430.96 8 0.0057 8 E2 0.00230 4
184W S G KC=0.00187 3$LC=0.000289 4$MC=6.56E-5 10$NC+=6.63E-5 10
184W S G NC=1.576E-5 22$OC=2.55E-6 4$PC=1.735E-7 25$IPC=4.78E-5 7
184W CG M from EKC=0.0020 6 (1977Ga21).