187RE 187W B- DECAY 1979YA14,1976BR09,1966RE0109NDS 201701
187RE H TYP=UPD$AUT=N.K.Kuzmenko$CUT=10-JAN-2017$
187RE H TYP=FUL$AUT=M. S. Basunia$CIT=NDS 110, 999 (2009)$CUT=1-Nov-2008$
187RE c History: Type=UPD;Author=N.K.Kuzmenko;UPD only Q-, revised half-life.
187RE c Measurements: 1986Ha21, 1983Si18, 1979Ya14, 1976Br09, 1974HeYW,
187RE2c 1970He14, 1969GuZW, 1966Wi17, 1966Re01, 1965Se03, 1965Fu08,
187RE3c 1965Bi07, 1963Ha26, 1963Ma08, 1963Mi15, 1962Bi08, 1962St21, 1960Ar03,
187RE4c 1960Dz04, 1960Ga11, 1958Ve35, 1957Ma16, 1957Du49, 1953Co11, and
187RE5c 1952Mu45.
187RE c
187RE c The {+187}W |b{+-} decay scheme is a synthesis of several papers which
187RE2c are not fully consistent. The intense transitions agree well in
187RE4c most references, but considerable disagreement exists for many weak
187RE5c transitions in observation and placement in the decay scheme.
187RE c
187RE cB IB From decay scheme except where indicated. Direct measurement
187RE2cB from |b|g coincidence measurements of 1970He14 agree well with these
187RE3cB results and are given in comments.
187RE cB IB(A) From 1970He14, except otherwise noted.
187RE cG E,RI From 1976Br09, except otherwise noted.
187RE cG E(Y) From 1966Re01.
187RE cG E(X),RI(X)$From 1986Ha21.
187RE cG E(Z) From 1986Ha21
187RE cG E(W) Weighted average of 1966Re01 and 1976Br09.
187RE cG E(V) From 1983Si18.
187RE cG E(U) Weighted average of 1983Si18 and 1976Br09.
187RE cG E(T),RI(T)$From 1979Ya14.
187RE cG E(B,F) Tentative assignment to {+187}W decay by 1976Br09 on the
187RE2cG basis of approximate half-life.
187RE cG E(C) Observed only in coincidence.
187RE cG E(F) Placed in the decay scheme by the evaluator on the basis of
187RE2cG energy sums.
187RE cG E(E) Observed only by 1979Ya14 and not confirmed by 1986Ha21.
187RE cG RI(S) Weighted average of 1983Si18 and 1976Br09.
187RE cG RI(R) Weighted average of 1983Si18 and 1986Ha21.
187RE cG RI(Q) From 1986Ha21.
187RE cG RI(P) From 1999Mb04.
187RE cG TI(G) From ce|g data of 1965Bi07, the intensity of the 70.2|g and
187RE2cG 582|g deexciting the 582 level are about equal. The total intensity for
187RE3cG these transitions has been calculated assuming an intensity balance
187RE4cG at the 582 level.
187RE cG M From ce measurements of 1963Ha26, 1966Wi17, 1970He14,
187RE2cG 1971Br45, and 1979Ya14. Ice's of 1966Wi17 and 1971Br45 have been
187RE3cG renormalized to |a(K)(480)=0.0183 (E2 theory) and compared to the
187RE4cG adopted |g ray intensities.
187RE cG MR From 1973Kr05, except otherwise noted.
187RE cG Experimental and theoretical Auger-electron and x-ray
187RE2cG intensities are given below. The Auger-electron intensities from
187RE3cG 1966Wi17 and the K|a{-1}| x ray intensity from 1960Ga11 are compared
187RE4cG with the theoretical values from 1986BrZQ.
187RE tG
187REAtG Auger-electron{+a}
187REBtG
187RECtG Intensity
187REDtG energy transition experiment theory
187REEtG ------ ---------- -------------------
187REFtG 46.37 KL{-1}L{-1} 1.0 {I1} 1.00
187REGtG 46.91 KL{-1}L{-2} 1.50 {I15} 1.51
187REHtG 47.41 KL{-2}L{-2} 0.10 {I5} 0.10
187REItG 48.35 KL{-1}L{-3} 0.9 {I1} 1.00
187REJtG 48.91 KL{-2}L{-3} 1.70 {I15} 1.85
187REKtG 50.32 KL{-3}L{-3} 0.8 {I1} 0.88
187RELtG 56.18 KL{-1}M{-1}+KL{-1}M{-2} 0.80 {I15} 0.72
187REMtG 56.65 KL{-1}M{-3}+KL{-2}M{-1} 0.69 {I15} 0.48
187RENtG 57.25 KL{-2}M{-3} 0.55 {I15} 0.35
187REOtG 57.76 KL{-2}M{-4} 0.39 {I20} 0.02
187REPtG 58.19 KL{-3}LM{-1}+KL{-3}M{-2} 0.75 {I20} 0.49
187REQtG 58.69 KL{-3}M{-3} 0.7 {I2} 0.33
187RERtG 60.57 KL{-3}N 0.61 {I20} 0.22
187REStG 66.1 KM{-2}N{-2}+KM{-2}M{-3}+KM{-3}M{-3} 0.30 {I15} 0.08
187RETtG
187REUtG x-ray{+b}
187REVtG
187REWtG 59.72 K|a{-2}| x ray -- 7.25 {I19}
187REXtG 61.14 K|a{-1}| x ray 11.0 {I5} 12.6 {I4}
187REYtG 69.21 K|b{-1} x ray -- 4.22 {I12}
187REZtG 71.47 K|b{-2} x ray -- 1.07 {I4}
187RE2tG -----------------------------------------
187RE3tG {+a}multiply by 0.106 {I3} for absolute intensity per 100 decays.
187RE4tG This normalization is based on the decay scheme (26.3 {I5} K-vacancies
187RE5tG per 100 decays) and table 8 in 1986BrZQ. The normalization factor
187RE6tG 0.089 {I8} is obtained from the relative KL{-1}L{-2}+KL{-1}L{-3}+KL{-3
187RE+tG }L{-3} intensities of
187RE7tG 1960Ga11.
187RE8tG {+b}multiply by 1.0 for absolute intensity per 100 decays.
187RE tG
187RE2tG Summary of |g|g(|q) results
187RE3tG
187RE4tG Cascade(spin sequence) A{-2} A{-4} |d* Refer
187RE+tG ence
187RE5tG ---------------------- --------- --------- ------------ ---------
187RE6tG 72-134 -0.23 +0.09 {I5} 1958Be2
187RE+tG 2
187RE7tG 5/2(E1)7/2(M1+E2)5/2 +0.010 {I11} 1959Ka0
187RE+tG 9
187RE8tG -0.047 {I24} 0.00 {I4} 1963
187RE+tG Mi10
187RE9tG -0.022 {I15} -0.04 {I4} 1966
187RE+tG Gu12
187REAtG -0.035 {I23} 0.003 {I32} 1971
187RE+tG Ni01
187REBtG -0.006 {I2} 1972Ke3
187RE+tG 4
187RECtG -0.066 {I11} 0.030 {I23} 1983
187RE+tG Si18
187REDtG -0.002 {I1} -0.004 {I3} +0.182 {I+3-4} 1
187RE+tG 979Ya14
187REEtG
187REFtG 480-72 -0.12 {I3} 1963Ko1
187RE+tG 9
187REGtG 5/2(E2)9/2(E1)7/2 -0.071 {I5} 1963Wa1
187RE+tG 6
187REHtG -0.116 {I3} -0.003 {I6} E1 pure 1979
187RE+tG Ya14
187REItG
187REJtG 551-134 -0.015 1959Ka09
187REKtG 5/2(E1)7/2(M1+E2)5/2 +0.316 {I18} -0.086 {I27} 1960
187RE+tG Ar03
187RELtG -0.034 {I17} -0.007 {I30} 1963
187RE+tG Mi10
187REMtG -0.024 {I13} +0.03 {I2} 1966
187RE+tG Gu12
187RENtG -0.028 {I15} +0.012 {I17} 1970
187RE+tG Na15
187REOtG -0.026 {I22} +0.003 {I27} 1971
187RE+tG Ni01
187REPtG -0.058 {I19} -0.023 {I39} 1983
187RE+tG Si18
187REQtG -0.019 {I3} -0.002 {I4} +0.202 {I+14-4} 1
187RE+tG 979Ya14
187RERtG
187REStG 246-618 +0.284 {I18} -0.007 {I30} 0.5<|d(1)<5.0 197
187RE+tG 9Ya14
187RETtG 3/2(M1+E2)3/2(M1+E2)5/2 or -2.0<|d(1)<-0.2
187REUtG
187REVtG 480-(72)-134 -0.04 {I3} 1959Kl9
187RE+tG 0
187REWtG -0.001 {I4} -0.004 {I6} +0.134 {I+37-38} 1
187RE+tG 979Ya14
187REXtG -------------------------------------------------------------------
187REYtG *Mixing ratio for the second transition except where indicated
187RE cL E From a least-squares adjustment to the |g-ray energies.
187RE cL J From adopted levels.
187W P 0.0 3/2- 23.94 H 6 1310.9 13
187RE N 0.332 5 1.000 1.0 1.0
187RE cN NR$from |SI(|g+ce) to g.s.=83.1 {I6}; 1999Mb04 deduced the %G.S.
187RE2cN feeding = 16.9 {I6} from measured %I|g of 134.2|g, 551.5|g, 618.4|g,
187RE3cN 625.5|g, 685.8|g, and 772.9|g.
187RE PN 3
187RE G 16.45 16 0.028 17 B
187RE2 G FLAG=US
187RE G 578.72 11 0.0035 13 B
187RE L 0.0 5/2+
187RE B 1312 2 16.9 9 8.081 24
187RES B EAV=457.08 70
187RE cB IB$other value: 25.1 {I24} from 1970He14.
187RE L 134.247 6 7/2+
187RE B 1178 8 2.2 10 9.9 7 A1U
187RES B EAV=401.69 65
187RE cB IB$From decay scheme. 0.7 {I10} (1970He14).
187RE G 134.247 7 31.2 4M1+E2 +0.167 7 2.20 YC
187RES G KC=1.81 3$LC=0.305 5$MC=0.0702 10$NC+=0.0200 3
187RES G NC=0.01700 25$OC=0.00283 4$PC=0.000197 3
187RE cG RI$The Limitation of Relative Statistical Weight (LWM) of 31.09 {I12}
187RE2cG and 30.71 {I10} (1999Mb04) and also 32.43 {I15} (1976Br09). Weighted
187RE3cG average 31.16 {I7}.
187RE cG MR$Weighted average of +0.175 {I6} (Coul Ex.) and +0.160 {I6}
187RExcG (1973Kr05).
187RE cG M$K:L1:L2:L3:M:N:O=1752 {I35}:268 {I5}:34.1 {I7}:10:66 {I7}:16 {I2}:5
187RE2cG {I2}, |a(K)exp=1.84 {I4}, |a(L)exp=0.27 {I4}, |a(M)exp=0.075 {I15}.
187RE3cG Weighted average of values from 1960Ga11, 1962Bi08, 1964No08,
187RE4cG 1964Se11, 1966As02, 1966Wi17, 1970He14, 1971Br45, and 1979Ya14. 20%
187RE5cG uncertainty assumed when not given by authors. Other measurements:
187RE6cG 1953Co11, 1957Be56, 1957Du49, 1957Mc34, 1958Ve35, 1959Kl90, 1962St21,
187RExcG 1963Ha26, and 1966As02.
187RE L 206.252 7 9/2- 555.3 NS 17
187RE cL T$from 1972Gu03 (479|g)(72|g)t. Other values: 526 ns {I12} (1949Bu09),
187RE2cL 550 ns {I50} (1949Mc29), 568 ns {I12} (1964Ha51), 557 ns {I12}
187RE3cL (1963Ko19), 570 ns {I5} (1963Wa16), 505 ns {I13} (1965Br26), and 550
187RExcL ns {I20} (1971Ni01).
187RE G 72.002 4 40.8 1 E1(+M2) -0.008 11 0.960 15 Y
187RES G KC= 0.722 14$LC= 0.141 10$MC= 0.0322 25$NC+= 0.0093 11
187RE cG M$L1:L2:L3:M1:M2:M3:M4:M5:N1:N23:O1=100:42 {I2}:47 {I3}:25 {I4}:12
187RE2cG {I2}:15 {I1}:3.5 {I9}: 2.0 {I7}:8.7 {I9}:4.5 {I9}:2.7 {I9},
187RE3cG |a(K)exp=0.722 {I21}, |a(L1)exp=0.080 {I16}, |a(L2)exp=0.032 {I6},
187RE4cG |a(L3)exp=0.033 {I5}. Weighted average of measurements from 1960Ga11,
187RE5cG 1962Bi08, 1962St21, 1963Ha26, 1964Se11, 1965Ba25, 1965Bi07, 1966Wi17,
187RExcG 1970He14, 1971Br45, and 1979Ya14. 20% uncertainty has been assumed
187RExcG when not explicitly given.
187RE cG CC from 1993Zh27. |a(K)exp=0.765 {I9} (1993Zh27).
187RE G 206.247 19 0.46 5 M2+E3 -0.07 1 3.35 Y
187RES G KC=2.53 4$LC=0.622 9$MC=0.1503 22$NC+=0.0431 6
187RES G NC=0.0367 6$OC=0.00605 9$PC=0.000395 6
187RE cG RI$using limitation of weighted average (LWM) of 0.52 {I1} (1976Br09)
187RE2cG and 0.419 {I8} (1999Mb04).
187RE cG M$|a(K)exp=2.47 {I6} (1979Ya14); |a(K)exp=1.94 {I11} and
187RE2cG |a(L)exp=0.462 {I24} (1993Mi29). Other: 17 {I5} (1971Br45).
187RE3cG K:L1:L23:M:N=2.0 {I2}:0.48 {I18}:<0.06:0.27 {I5}:0.06 {I3} from
187RExcG 1966Wi17, 1962Bi08.
187RE cG MR |<0.1 (1993Mi29).
187RE L 303.13 8 9/2+
187RE G 168.5 4 0.009 3M1+E2 +0.168 7 1.155 18
187RES G KC=0.951 15$LC=0.1573 25$MC=0.0361 6$NC+=0.01032 17
187RES G NC=0.00875 14$OC=0.001461 23$PC=0.0001034 17
187RE cG MR From adopted gammas.
187RE G 303 0.0017 3 E2 0.0855 S
187RES G KC=0.0566 8$LC=0.0221 3$MC=0.00542 8$NC+=0.001497 21
187RES G NC=0.001296 19$OC=0.000195 3$PC=5.28E-6 8
187RE cG E,RI From adopted gammas.
187RE L 511.768 7 1/2+
187RE G 511.76 1 2.43 4E2 0.0206
187RES G KC=0.01572 22$LC=0.00378 6$MC=0.000900 13$NC+=0.000252 4
187RES G NC=0.000216 3$OC=3.41E-5 5$PC=1.558E-6 22
187RE cG RI$Using Limitation of weighted average of 2.364 {I25} (1976Br09) and
187RE2cG 2.460 {I15} (1999Mb04).
187RE cG M$|a(K)exp=0.020 {I2}, weighted average of values from 1966Wi17,
187RE2cG 1970He14, and 1971Br45. K:L=3.6 from 1962Bi08. Other measurement:
187RExcG 1979Ya14.
187RE L 581.99 3 (5/2+)
187RE G 70.2 0.02 [E2] 17.50 0.4 CAX
187REF G FLAG=FG
187RE cG RI From calculated I(|g+ce)=0.4.
187RES G L/T=0.715 7$M/T=0.182 4$N+/T=0.0493 10
187RES G N/T=0.0431 9$O/T=0.00611 12$P/T=9.90E-6 19
187RE cG E$this transition was inferred from ce|g coincidence data of 1965Bi07.
187RE2cG The total intensity was reported equal to the 582 transition intensity.
187RE G 375.93 13 0.013 3[M2] 0.454 F ?
187RES G KC=0.359 5$LC=0.0726 11$MC=0.01713 24$NC+=0.00491 7
187RES G NC=0.00417 6$OC=0.000694 10$PC=4.78E-5 7
187RE cG E$this transition was previously unplaced. 1965Bi07 reported a 448-keV
187RE2cG transition deexciting the 582 level which was poorly resolved in
187RE3cG ce|g (NaI) coincidence. No 448|g transition has been observed.
187RE G 582 0.394 [E2] 0.01517 0.4 CAG
187RE2 G FLAG=X
187RE cG RI From calculated I(|g+ce)=0.4.
187RES G K/T=0.01161 16$L/T=0.00256 4$M/T=0.000605 9$N+/T=0.0001698 24
187RES G N/T=0.0001455 21$O/T=2.31E-5 4$P/T=1.158E-6 17
187RE L 589.145 16 3/2+
187RE G 77.37 5 0.026 6M1 10.77 C
187RES G KC=8.90 13$LC=1.450 21$MC=0.332 5$NC+=0.0949 14
187RES G NC=0.0804 12$OC=0.01351 19$PC=0.000986 14
187RE cG M$|a(L1)exp=1.4 {I5} from 1971Br45
187RE G 454.92 2 0.109 5E2 0.0278 C
187RES G KC=0.0206 3$LC=0.00544 8$MC=0.001304 19$NC+=0.000364 5
187RES G NC=0.000313 5$OC=4.88E-5 7$PC=2.03E-6 3
187RE cG RI$Weighted average of 0.108 {I7} (1976Br09) and 0.113 {I10}
187RExcG (1999Mb04).
187RE cG M$|a(K)exp|?0.015 from 1971Br45
187RE G 589.06 5 0.452 5M1(+E2) 0.036 22 WC
187RES G KC=0.030 19$LC=0.0048 23$MC=0.0011 5$NC+=0.00031 15
187RES G NC=0.00027 12$OC=4.4E-5 22$PC=3.2E-6 21
187RE cG RI$Weighted average of 0.446 {I9} (1976Br09) and 0.456 {I7} (1999Mb04).
187RE cG M$from |a(K)exp=0.03 {I8} (1979Ya14).
187RE L 618.370 8 (3/2+) 50 PS LT
187RE cL T from 1974Da31 |b(ce(K) 107|g)t.
187RE B 687 2 5.4 10 7.59 8
187RES B EAV=217.61 62
187RE cB IB$other value: 5.2 {I5} from 1970He14.
187RE G 29.23 3 0.018 4[M1] 32.8 S
187RES G LC=25.4 4$MC=5.81 9$NC+=1.661 24
187RES G NC=1.408 21$OC=0.236 4$PC=0.01721 25
187RE G 36.38 3 0.027 3 M1+E2 0.12 5 23 6 V
187RE2 G FLAG=R
187RES G LC=18 5$MC=4.2 11$NC+=1.2 3
187RES G NC=1.0 3$OC=0.16 4$PC=0.00891 16
187RE cG RI$from 1966Wi17 and adopted |a value. Other values: 0.066 {I4}
187RE2cG (1983Si18), <0.08 (1976Br09); I(|g+ce)=0.2% (1965Bi07) corresponds to
187RE3cG I|g=0.03. The adopted I|g is consistent with the intensity balance
187RE3cG through lower levels. This transition was placed deexciting
187RE2cG the 625 level by 1976Br09 and 1979Ya14 but it is too
187RE3cG intense to feed the 589 level. The placement is consistent with
187RE4cG the ce|g coincidence arguments of 1965Bi07 and confirmed by 1986Ha21.
187RE cG M$L1:L2:L3:M=100:19 {I3}:18 {I2}:32 {I2}, |a(L1)exp=12.1 {I3}.
187RE2cG Weighted average of values from 1962Bi08, 1965Bi07, and 1966Wi17.
187RExcG Other measurement: 1971Br45. Other measurement: 1971Br45.
187RE cG MR Deduced by the evaluator from |a(L1)exp=12.1 {I3}.
187RE G 106.596 13 0.093 2M1+E2 0.9 2 3.81 15 Y
187RES G KC=2.3 4$LC=1.14 16$MC=0.28 4$NC+=0.078 11
187RES G NC=0.067 10$OC=0.0101 13$PC=0.00025 4
187RE cG M$K:L1:L2:L3:N=0.70 {I7}:0.16 {I2}:<0.03:<0.03:<0.04, from 1966Wi17.
187RE2cG |a(K)exp=2.3 {I4}, |a(L)exp=0.47 {I12} from 1965Bi07, 1971Br45. Other
187RE3cG measurement: 1962Bi08.
187RE cG MR Deduced by the evaluator from |a(K)exp=2.3 {I4}.
187RE2cG |a(L)exp=0.47 {I12} gives 0.27 {I14}.
187RE G 484.15 3 0.063 3[E2] 0.0237
187RES G KC=0.01785 25$LC=0.00447 7$MC=0.001069 15$NC+=0.000299 5
187RES G NC=0.000257 4$OC=4.02E-5 6$PC=1.763E-6 25
187RE G 618.37 1 22.80 9M1+E2 -0.50 25 0.031 4 P
187RES G KC=0.026 3$LC=0.0041 4$MC=0.00093 9$NC+=0.000266 25
187RES G NC=0.000225 21$OC=3.8E-5 4$PC=2.7E-6 4
187RE cG M$|a(K)exp=0.0282 {I8}, weighted average of 0.0290 {I9} (1993Mi29),
187RE2cG 0.0257 {I21} (1979Ya14), 0.027 {I3} (1971Br45), and 0.026 {I3}
187RE3cG (1970He14). Other: 2.6 (1965Bi07). |a(L)exp=0.0039 {I16} (1979Ya14)
187RExcG and 0.00424 {I21} (1993Mi29).
187RE cG MR 0.37 {I6} (1993Mi29).
187RE L 625.517 8 (1/2+) 540 PS 11
187RE cL T$Weighted average of 534 ps {I20} (1973SaZD |b(618|g)T{-1/2} ), 530
187RE2cL ps {I50} (1966Pe03), 520 ps {I30} (1969An17), 550 ps {I20} (1971Be82),
187RE3cL and 548 ps {I20} (1974Da31).
187RE B 682 4 4.3 10 7.67 11
187RES B EAV=215.02 62
187RE cB IB$other value: 5.2 {I5} from 1970He14.
187RE G 7.1 3 0.011 3 M1(+E2) 0.03 LE 6.6E2 20 V
187RES G MC=5.2E2 15$NC+=1.5E2 4
187RES G NC=1.2E2 4$OC=20 6$PC=1.16 16
187RE cG RI$deduced using I(|g+ce)(7|g)/I(|g+ce)(625|g)=1.87 {I24} (1970He14)
187RE2cG and |a=660 {I20}. Other: I|g=0.014 {I7} (1983Si18).
187RE cG M M1:M2:M3=100:<20:<5 from 1966Wi17.
187RE cG MR from 1966Wi17.
187RE G 113.746 8 0.277 4M1 3.57 Y
187RE2 G FLAG=S
187RES G KC=2.96 5$LC=0.475 7$MC=0.1087 16$NC+=0.0311 5
187RES G NC=0.0264 4$OC=0.00443 7$PC=0.000323 5
187RE cG M$K:L1:L2:M1:N1=1.3 {I1}:0.35 {I4}:<0.04:0.07 {I2}:<0.04 from 1966Wi17.
187RE2cG |a(K)exp=2.4 {I3}, weighted average of 1965Bi07 and 1971Br45. Other
187RE3cG measurement: 1962Bi08.
187RE G 491.2 0.09 3 XC ?
187RE cG E 492.80 {I20} in 1986Ha21 not placed in the decay scheme.
187RE G 625.52 1 3.958 18E2 0.01284 PC
187RES G KC=0.01007 15$LC=0.00212 3$MC=0.000500 7$NC+=0.0001406 20
187RES G NC=0.0001204 17$OC=1.92E-5 3$PC=1.007E-6 15
187RE cG M$|a(K)exp=0.0108 {I7}, weighted average of values from 0.0109 {I8}
187RE2cG (1993Mi29), 0.011 {I11} (1979Ya14), 0.009 {I3} (1971Br45), and 0.011
187RExcG {I2} (1970He14).
187RE L 647.31 25 5/2+
187RE G 65.4 [M1,E2] 14 11 C
187RE2 G FLAG=Z
187RES G LC=10 9$MC=2.6 21$NC+=0.7 6
187RES G NC=0.6 5$OC=0.09 7$PC=0.0009 7
187RE cG RI$this transition was reported by 1986Ha21 with I|g=0.76 {I3}. This
187RE2cG intensity is too large to be consistent with the decay scheme.
187RE3cG Presumably either a misprint or an unrecognized impurity is present.
187RE G 647.30 25 0.003 1 [M1,E2] 0.022 10
187RES G KC=0.018 9$LC=0.0030 11$MC=0.00069 24$NC+=0.00020 7
187RES G NC=0.00017 6$OC=2.8E-5 10$PC=1.9E-6 10
187RE L 685.797 7 5/2- 11.5 PS 21
187RE cL T$Weighted average of 10 ps {I3} from 1974Da31 |b(ce(K) 686|g) and 13
187RE2cL ps {I3} (1967Be62). Other value: 5.9 ps (1973SaZD).
187RE B 622 2 66.2 3 6.350 5
187RES B EAV=193.42 61
187RE cB IB$other value: 53.1 {I16} from 1970He14.
187RE G 103.8 0.032 1[E1] 0.348 X
187RE2 G FLAG=Q
187RES G KC=0.283 4$LC=0.0500 7$MC=0.01147 16$NC+=0.00318 5
187RES G NC=0.00273 4$OC=0.000428 6$PC=2.18E-5 3
187RE G 479.53 1 80.1 3 E2 0.0243 C
187RES G KC=0.0183 3$LC=0.00461 7$MC=0.001102 16$NC+=0.000308 5
187RES G NC=0.000265 4$OC=4.14E-5 6$PC=1.80E-6 3
187RE cG M$K:L1:L2:L3:M=5.9 {I2}:0.85 {I8}:0.43 {I6}:0.27 {I4}:0.35 {I2} from
187RE2cG 1966Wi17. |a(K)exp=0.0177 {I9}, weighted average of values from
187RE3cG 1970He14, 1971Br45, and 1979Ya14. Other measurements: 1953Co11,
187RE4cG 1957Du49, 1958Ve35, 1960Ga11, 1962Bi08, and 1963Ha26.
187RE G 551.55 1 18.48 7E1(+M2) +0.001 5 0.00599 PC
187RES G KC=0.00503 7$LC=0.000747 11$MC=0.0001690 24$NC+=4.80E-5 7
187RES G NC=4.07E-5 6$OC=6.75E-6 10$PC=4.65E-7 7
187RE cG M$|a(K)exp=0.0048 {I2}, from weighted average of 0.00484 {I21}
187RE2cG (1993Mi29), 0.0054 {I6} (1979Ya14), 0.0048 {I6} (1970He14), and 0.0040
187RExcG {I1} (1971Br45).
187RE cG MR |<0.019 (1993Mi29).
187RE G 685.81 1 100.00 27E1(+M2) -0.008 13 0.00384 PC
187RES G KC=0.00323 5$LC=0.000472 8$MC=0.0001068 18$NC+=3.03E-5 5
187RES G NC=2.58E-5 5$OC=4.29E-6 7$PC=3.02E-7 5
187RE cG M$|a(K)exp=0.0034 {I2}, weighted average of 0.0034 {I2} (1993Mi29),
187RE2cG 0.0032 {I4} (1979Ya14), 0.0036 {I7} (1971Br45), 0.0033 {I3}
187RE3cG (1970He14), and 0.0038 {I8} (1966Wi17). Other measurements: 1953Co11,
187RE4cG 1958Ve35, 1962Bi08, 1963Ha26, and 1965Ba25.
187RE cG MR |<0.08 (1993Mi29).
187RE L 718.73 4 ?
187RE G 93.22 4 0.018 3[M1,E2] 5.9 5 F ?
187RE2 G FLAG=S
187RE cG CC$for an [E1], |a=0.459 {I7}
187RES G KC=3.1 22$LC=2.1 13$MC=0.5 4$NC+=0.15 10
187RES G NC=0.13 8$OC=0.019 11$PC=0.00033 25
187RE G 100.38 24 0.032 3[M1,E2] 4.6 6 F ?
187RE2 G FLAG=US
187RE cG CC$for an [E1], |a=0.379 {I6}
187RES G KC=2.5 17$LC=1.6 9$MC=0.39 24$NC+=0.11 7
187RES G NC=0.09 6$OC=0.014 8$PC=0.00027 20
187RE L 767.8 4 (7/2+) ?
187RE G 767.4 8 0.0057 22[M1,E2] 0.014 6 F ?
187RES G KC=0.012 6$LC=0.0019 7$MC=0.00044 16$NC+=0.00013 5
187RES G NC=0.00011 4$OC=1.8E-5 7$PC=1.2E-6 6
187RE L 772.876 19 (3/2+)
187RE B 539 2 5.10 4 7.243 6
187RES B EAV=162.93 59
187RE cB IB$other value: 4.2 {I4} from 1970He14.
187RE G 147.3 [M1,E2] 1.3 4 C
187RE2 G FLAG=Z
187RES G KC=0.9 6$LC=0.33 10$MC=0.08 3$NC+=0.022 8
187RES G NC=0.019 7$OC=0.0029 8$PC=9.E-5 7
187RE G 154.4 0.050 2[M1,E2] 1.1 4 X
187RES G KC=0.8 5$LC=0.27 8$MC=0.066 21$NC+=0.018 6
187RES G NC=0.016 5$OC=0.0024 6$PC=8.E-5 6
187RE G 261 0.04 1[M1,E2] 0.24 11 X
187RES G KC=0.19 11$LC=0.042 4$MC=0.0100 5$NC+=0.00282 18
187RES G NC=0.00242 12$OC=0.00038 5$PC=1.9E-5 12
187RE G 638.65 13 0.012 4[M1,E2] 0.022 11 &C
187RES G KC=0.018 9$LC=0.0031 11$MC=0.00071 24$NC+=0.00020 7
187RES G NC=0.00017 6$OC=2.9E-5 11$PC=1.9E-6 10
187RE G 772.87 2 15.12 6M1+E2 0.41 +47-410.018 4 W
187RE2 G FLAG=P
187RES G KC=0.015 3$LC=0.0024 4$MC=0.00054 9$NC+=0.00015 3
187RES G NC=0.000130 22$OC=2.2E-5 4$PC=1.6E-6 4
187RE cG M$|a(K)exp=0.0166 {I5}, weighted average of 0.0167 {I5} (1993Mi29),
187RE2cG 0.0155 {I19} (1979Ya14), 0.018 {I4} (1971Br45), and 0.015 {I3}
187RE3cG (1970He14). K:L:M=1.2 {I6}:0.20 {I3}:0.05 {I1} from 1966Wi17. Other
187RE4cG measurements: 1958Ve35, 1962Bi08, and 1963Ha26.
187RE cG MR from 1979Ya14. Other: |<0.32 (1993Mi29).
187RE L 816.562 19(5/2+)
187RE B 0.051 12 9.12 11
187RES B EAV=148.00 58
187RE G 43.66 5 0.007 2 [M1] 10.04 U
187RE2 G FLAG=S
187RES G LC=7.76 12$MC=1.77 3$NC+=0.508 8
187RES G NC=0.430 7$OC=0.0722 11$PC=0.00526 8
187RE G 191.1 [E2] 0.373 C
187RE2 G FLAG=Z
187RES G KC=0.191 3$LC=0.1381 20$MC=0.0346 5$NC+=0.00948 14
187RES G NC=0.00826 12$OC=0.001205 17$PC=1.638E-5 23
187RE G 198.34 12 0.006 2 [M1,E2] 0.54 21
187RES G KC=0.39 23$LC=0.108 11$MC=0.026 4$NC+=0.0073 9
187RES G NC=0.0062 9$OC=0.00097 6$PC=4.E-5 3
187RE G 682.34 20 0.025 25[M1,E2] 0.019 9
187RES G KC=0.016 8$LC=0.0026 10$MC=0.00060 21$NC+=0.00017 6
187RES G NC=0.00014 5$OC=2.4E-5 9$PC=1.6E-6 8
187RE G 816.56 2 0.046 8 [M1,E2] 0.012 5
187RES G KC=0.010 5$LC=0.0016 6$MC=0.00038 13$NC+=0.00011 4
187RES G NC=9.E-5 4$OC=1.5E-5 6$PC=1.1E-6 5
187RE cG RI$Weighted average of 0.0361 {I25} (1976Br09) and 0.052 {I2}
187RExcG (1999Mb04).
187RE L 826.84 12 (3/2+,5/2+)
187RE B 0.0126 12 9.70 5
187RES B EAV=144.52 58
187RE G 141.22 0.024 [E1] 0.1572 T
187RES G KC=0.1292 18$LC=0.0217 3$MC=0.00496 7$NC+=0.001383 20
187RES G NC=0.001185 17$OC=0.000188 3$PC=1.039E-5 15
187RE G 201.3 [M1,E2] 0.51 20 C
187RE2 G FLAG=Z
187RES G KC=0.38 22$LC=0.103 9$MC=0.025 4$NC+=0.0069 8
187RES G NC=0.0059 8$OC=0.00092 5$PC=3.9E-5 25
187RE G 208.29 16 0.003 1 [M1,E2] 0.46 19
187RES G KC=0.34 20$LC=0.091 6$MC=0.0218 23$NC+=0.0061 6
187RES G NC=0.0052 5$OC=0.00082 3$PC=3.6E-5 23
187RE G 693.06 22 0.005 3[M1,E2] 0.018 8
187RES G KC=0.015 7$LC=0.0025 9$MC=0.00057 20$NC+=0.00016 6
187RES G NC=0.00014 5$OC=2.3E-5 9$PC=1.6E-6 8
187RE G 826.65 25 0.0008513 [M1,E2] 0.012 5
187RES G KC=0.010 5$LC=0.0016 6$MC=0.00036 13$NC+=0.00010 4
187RES G NC=9.E-5 3$OC=1.5E-5 6$PC=1.0E-6 5
187RE L 844.7 4 (9/2+)
187RE G 262.7 0.04 1[E2] 0.1321 X
187RES G KC=0.0821 12$LC=0.0380 6$MC=0.00939 14$NC+=0.00259 4
187RES G NC=0.00224 4$OC=0.000334 5$PC=7.48E-6 11
187RE cG RI$value is consistent with no |b feeding to this level but
187RE2cG inconsistent with B(E2) to this level in Coulomb excitation.
187RE G 638.65 13 0.012 4[E1] 0.00442 & ?
187RES G KC=0.00372 6$LC=0.000547 8$MC=0.0001236 18$NC+=3.51E-5 5
187RES G NC=2.98E-5 5$OC=4.96E-6 7$PC=3.46E-7 5
187RE G 844.7 5 0.0009 5[E2] 0.00667
187RES G KC=0.00540 8$LC=0.000981 14$MC=0.000228 4$NC+=6.44E-5 9
187RES G NC=5.49E-5 8$OC=8.95E-6 13$PC=5.42E-7 8
187RE L 864.556 10 3/2+
187RE B 450 4 0.751 17 7.806 12
187RES B EAV=131.89 57
187RE cB IB$other value: 0.67 {I8} from 1970He14.
187RE G 178.8 0.04 2[E1] 0.0857 X
187RES G KC=0.0708 10$LC=0.01156 17$MC=0.00264 4$NC+=0.000739 11
187RES G NC=0.000631 9$OC=0.0001014 15$PC=5.88E-6 9
187RE G 239.13 8 0.30 1 M1+E2 -0.53 16 0.38 3 WC
187RES G KC=0.31 3$LC=0.0575 9$MC=0.01338 20$NC+=0.00380 6
187RES G NC=0.00323 5$OC=0.000529 10$PC=3.3E-5 4
187RE cG RI$Weighted average of 0.32 {I1} (1976Br09) and 0.0290 {I8} (1999Mb04).
187RE cG M$|a(K)exp=0.31 {I2} from weighted average of values in 1965Bi07,
187RE2cG 1970He14, 1971Br45, and 1979Ya14. K:L1=0.31 {I2}:0.08 {I3} from
187RE3cG 1966Wi17. Other measurement: 1962Bi08.
187RE G 246.20 4 0.41 3 M1+E2 +0.50 15 0.359 25 WC
187RES G KC=0.290 24$LC=0.0528 9$MC=0.01225 18$NC+=0.00348 6
187RES G NC=0.00296 5$OC=0.000486 10$PC=3.1E-5 3
187RE cG RI$using limitation of weighted average (LWM) of 0.44 {I1} (1976Br09)
187RE2cG and 0.379 {I8} (1999Mb04).
187RE cG M$from |a(K)exp=0.28 {I3}, weighted average of values in 1965Bi07,
187RE2cG 1970He14, 1971Br45, and 1979Ya14. K:L1=0.24 {I4}:0.08 {I3} from
187RE3cG 1966Wi17. Other measurement: 1962Bi08.
187RE G 275.61 12 0.008 2 [M1,E2] 0.21 10
187RES G KC=0.16 9$LC=0.035 4$MC=0.0084 7$NC+=0.00236 22
187RES G NC=0.00202 17$OC=0.00032 5$PC=1.7E-5 11
187RE G 352.86 17 0.0057 22[M1,E2] 0.10 5
187RES G KC=0.08 5$LC=0.016 4$MC=0.0038 8$NC+=0.00109 23
187RES G NC=0.00093 19$OC=0.00015 4$PC=9.E-6 5
187RE G 730.32 0.06LT[E2] 0.00909 ?
187RES G KC=0.00726 11$LC=0.001408 20$MC=0.000329 5$NC+=9.28E-5 13
187RES G NC=7.93E-5 12$OC=1.281E-5 18$PC=7.29E-7 11
187RE G 864.55 1 1.233 7M1(+E2) -0.05 9 0.0150 3 PC
187REX G FL=0.0
187RES G KC=0.01253 22$LC=0.00191 4$MC=0.000435 8$NC+=0.0001246 21
187RES G NC=0.0001055 18$OC=1.78E-5 3$PC=1.325E-6 23
187RE cG M$|a(K)exp=0.15 {I3} from weighted average of values in 1966Wi17,
187RE2cG 1970He14, 1971Br45, and 1979Ya14.
187RE L 879.456 20 (5/2+)
187RE B 433 4 0.550 4 7.893 7
187RES B EAV=126.95 57
187RE cB IB$other value: 0.52 {I6} from 1970He14.
187RE G 106.596 13 0.093 2 [E2] 3.19 & ?
187RE2 G FLAG=Y
187RES G KC=0.754 11$LC=1.84 3$MC=0.469 7$NC+=0.1273 18
187RES G NC=0.1113 16$OC=0.01588 23$PC=6.66E-5 10
187RE G 576.31 8 0.024 3[E2] 0.01552
187RES G KC=0.01204 17$LC=0.00267 4$MC=0.000632 9$NC+=0.0001773 25
187RES G NC=0.0001520 22$OC=2.41E-5 4$PC=1.201E-6 17
187RE G 745.21 2 1.107 9 M1(+E2) 0.4 5 0.020 4 WC
187RES G KC=0.017 4$LC=0.0026 5$MC=0.00059 11$NC+=0.00017 3
187RES G NC=0.000144 25$OC=2.4E-5 5$PC=1.8E-6 4
187RE cG RI$Weighted average of 1.109 {I13} (1976Br09) and 1.112 {I7}
187RExcG (1999Mb04).
187RE cG M$|a(K)exp=0.020 {I6} from 1970He14. Other: 0.021 {I15} from 1979Ya14.
187RE cG MR Deduced by the evaluator from |a(K)exp=0.020 {I6} (1970He14).
187RE G 879.44 5 0.514 3 E2 0.00614 WC
187RES G KC=0.00498 7$LC=0.000891 13$MC=0.000206 3$NC+=5.85E-5 9
187RES G NC=4.98E-5 7$OC=8.14E-6 12$PC=5.00E-7 7
187RE cG RI$Weighted average of 0.519 {I6} (1976Br09) and 0.512 {I4} (1999Mb04).
187RE cG M$|a(K)exp=0.11 {I3} from weighted average of values in 1966Wi17,
187RE2cG 1970He14, and 1971Br45.
187RE L 933.62 14 (5/2-,7/2+) ?
187RE G 165.7 4 0.003 1 F ?
187RE G 727.22 0.13 [E1,E2] 0.006 3 E ?
187RE2 G FLAG=T
187RES G KC= 0.0051 22$LC= 0.0009 4
187RE G 933.80 0.04 E ?
187RE2 G FLAG=T
187RE L 960.17 5 (5/2+)
187RE B 433 4 0.0205 12 9.03 3
187RES B EAV=100.76 55
187RE G 115.5 0.017 1[E2] 2.33 X
187RE2 G FLAG=Q
187RES G KC=0.646 9$LC=1.274 18$MC=0.324 5$NC+=0.0880 13
187RES G NC=0.0769 11$OC=0.01100 16$PC=5.52E-5 8
187RE G 825.95 25 0.0008513 [M1,E2] 0.012 5
187RES G KC=0.010 5$LC=0.0016 6$MC=0.00037 13$NC+=0.00010 4
187RES G NC=9.E-5 3$OC=1.5E-5 6$PC=1.0E-6 5
187RE G 960.17 5 0.0048 3[M1,E2] 0.008 4
187RES G KC=0.007 3$LC=0.0011 4$MC=0.00025 9$NC+=7.2E-5 24
187RES G NC=6.1E-5 21$OC=1.0E-5 4$PC=7.E-7 3
187RE L 969.3 4 (3/2+,5/2,7/2+) ?
187RE G 835.55 0.03 [M1,E2] 0.012 5 E ?
187RE2 G FLAG=T
187RES G KC=0.010 4$LC=0.0015 6$MC=0.00035 12$NC+=0.00010 4
187RES G NC=9.E-5 3$OC=1.4E-5 6$PC=1.0E-6 5
187RE G 968.78 0.14 [M1,E2] 0.008 4 E ?
187RE2 G FLAG=T
187RES G KC=0.007 3$LC=0.0011 4$MC=0.00025 9$NC+=7.0E-5 24
187RES G NC=5.9E-5 20$OC=1.0E-5 4$PC=7.E-7 3
187RE L 1000.93 12 (5/2-,7/2+) ?
187RE G 40.75 20 0.007 2 [E1,M1] 7 6 F ?
187RE2 G FLAG=US
187RES G LC=5 5$MC=1.2 11$NC+=0.3 3
187RES G NC=0.28 25$OC=0.05 5$PC=0.003 4
187RE G 794.80 0.08 [E1,E2] 0.0053 24 E ?
187RE2 G FLAG=T
187RES G KC= 0.0043 19$LC= 0.0007 3
187RE G 1000.82 0.015 [E1,M1] 0.006 5 E ?
187RE2 G FLAG=T
187RES G KC=0.005 4$LC=0.0008 6$MC=0.00018 13$NC+=5.E-5 4
187RES G NC=4.E-5 3$OC=7.E-6 6$PC=5.E-7 4
187RE L 1003.14 5 ?
187RE G 123.66 12 0.009 2 [M1,E2] 2.3 6 F ?
187RE2 G FLAG=US
187RE cG CC$for an [E1], |a=0.222 {I4}
187RES G KC=1.4 9$LC=0.7 3$MC=0.16 8$NC+=0.044 20
187RES G NC=0.039 18$OC=0.0058 23$PC=0.00015 11
187RE G 138.50 5 0.016 6 [M1,E2] 1.6 5 F ?
187RE2 G FLAG=U
187RE cG CC$for an [E1], |a=0.165 {I2}
187RES G KC=1.1 7$LC=0.42 15$MC=0.10 4$NC+=0.028 11
187RES G NC=0.024 10$OC=0.0037 12$PC=0.00011 8
187RE L 1190.46 5 (5/2+)
187RE B 0.015 6 7.71 18
187RES B EAV=32.08 47
187RE G 345.7 [E2] 0.0583 C
187RE2 G FLAG=Z
187RES G KC=0.0404 6$LC=0.01367 20$MC=0.00333 5$NC+=0.000924 13
187RES G NC=0.000798 12$OC=0.0001215 17$PC=3.85E-6 6
187RE G 374.31 14 0.009 3[M1,E2] 0.09 5 F ?
187RES G KC=0.07 4$LC=0.014 4$MC=0.0032 7$NC+=0.00091 22
187RES G NC=0.00078 18$OC=0.00013 4$PC=7.E-6 5
187RE G 564.62 19 0.044 16[E2] 0.01629
187RES G KC=0.01260 18$LC=0.00283 4$MC=0.000670 10$NC+=0.000188 3
187RES G NC=0.0001613 23$OC=2.56E-5 4$PC=1.255E-6 18
187RE G 1056.24 5 0.0008222[M1,E2] 0.0067 25
187RES G KC=0.0055 21$LC=0.0009 3$MC=0.00020 7$NC+=5.7E-5 19
187RES G NC=4.8E-5 16$OC=8.E-6 3$PC=5.8E-7 23
187RE G 1190.38 12 0.00079 9[M1,E2] 0.0051 17
187RES G KC=0.0042 15$LC=0.00065 21$MC=0.00015 5$NC+=4.7E-5 14
187RES G NC=3.6E-5 11$OC=6.0E-6 19$PC=4.4E-7 16$IPC=4.5E-6 9
187RE L 1220.8 3
187RE B 0.00021 7 9.18 15
187RES B EAV=23.79 47
187RE G 573.71 14 0.0019 6 F ?
187RE G 1086.6 0.0003LT ?
187RE G 1220.80 25 0.0006319
187RE L 1230.12 4 (3/2+,5/2+)
187RE B 0.041 14 6.75 15
187RES B EAV=21.28 46
187RE G 612.9 4 0.008 4[M1,E2] 0.025 12
187RES G KC=0.020 10$LC=0.0034 12$MC=0.0008 3$NC+=0.00023 8
187RES G NC=0.00019 7$OC=3.2E-5 12$PC=2.1E-6 11
187RE G 641.1 0.11 4[M1+E2] 0.022 10 X
187RES G KC=0.018 9$LC=0.0031 11$MC=0.00070 24$NC+=0.00020 7
187RES G NC=0.00017 6$OC=2.8E-5 11$PC=1.9E-6 10
187RE G 1095.9 0.0003LT[M1,E2] 0.0061 22 ?
187RES G KC=0.0051 19$LC=0.0008 3$MC=0.00018 6$NC+=5.2E-5 17
187RES G NC=4.4E-5 14$OC=7.4E-6 25$PC=5.3E-7 21
187RE G 1230.10 4 0.0048 5