207BI 207PO EC DECAY 1978SC12,1970AS01 11NDS 201102
207BI H TYP=FUL$AUT=F.G. KONDEV, S. LALKOVSKI$CIT=NDS 112, 707 (2011)$
207BI2 H CUT=1-Aug-2010$
207BI DG CC$ FROM BrIcc v2.2 (31-Mar-2008) 2008KiAA, "Frozen Orbitals" appr.
207PO P 0 5/2- 5.80 H 2 2909 7
207BI N 0.01724 22 0.99979 2 1.00
207BI cN NR$From |S' I(|g+ce)(to g.s.)=99.979 {I2}. The |e+|b{++} branch to the
207BI2cN g.s. is second forbidden and is expected to have a negligible intensity
207BI PN 3
207BI c 1978Sc12: Facility: Goettingen cyclotron; Source: {+207}Po produced in
207BI2c {+209}Bi(d,4n) reaction at E(d)=27 MeV. Detectors: one 100 mm{+2} x 2
207BI3c mm Si(Li), FWHM=1.8 keV at 624 keV; one 10% Ge(Li);
207BI4c Measured: E|g, I|g, Ice(K)
207BI c 1970As01: Facility: Uppsala syncro-cyclotron; Source: {+207}Po from
207BI2c Bi{-2}O{-3}(p,3n) reaction at E(p)=34 MeV. {+207}Po extracted and
207BI3c deposited on 10 cm{+2} Ag foil; Detectors: 3 cm{+2} x 0.8 cm Ge(Li);
207BI c Others: 1986Be07, 1983He09, 1971Sh22, 1969Ho37, 1956St60,
207BI2c 1958Ar56
207BI c |g{+|+}/405.7|g=0.071 {I3} (1971Sh22). Others: 1969Ho37, 1956St60
207BI cL E$From a least-squares fit to E|g
207BI cL J,T$From the adopted levels, unless otherwise noted
207BI cE IB$I|b(893)/I|b(1140)=2.1, I|b{++}/ce(K)(406)=0.29 {I3} (1958Ar56)
207BI cE IE$From an intensity imbalance at each level.
207BI cG E,RI$From 1978Sc12, unless otherwise noted
207BI cG E(a)$From 1958Ar56
207BI cG M$From ce data of 1958Ar56 and 1978Sc12, normalized to
207BI2cG Ice(K)(K)=100 for the 405.75|g, unless otherwise stated
207BI G 177.7 1.3 6 M1(+E2) 0.7 LT 1.77 22 a
207BIS G KC=1.39 24$LC=0.293 12$MC=0.070 5$NC+=0.0220 13
207BIS G NC=0.0180 11$OC=0.00361 16$PC=0.000402 12
207BI cG M$From |a(K)exp>2.0 (Ice(K)=2), K/L1=7.1 (1958Ar56)
207BI cG RI$From Ice(K)=1.8 {I8} (1978Sc12) and |a
207BI G 205.2 2 1.04 6 M1(+E2) 0.6 LT 1.21 13 a
207BIS G KC=0.96 13$LC=0.188 3$MC=0.0449 10$NC+=0.0141 3
207BIS G NC=0.01147 24$OC=0.00231 4$PC=0.000264 12
207BI cG M,MR$K/L=5.1 {I7} (1958Ar56) consistent with M1(+E2) or E1.
207BI2cG If E1, I|g=19.7 (from Ice(K)=1.2 {I2} (1958Ar56)) and such a |g-ray
207BI3cG would have been observed
207BI cG RI$From Ice(K)(K)=1.00 {I6} (1978Sc12) and |a. Photon peak masked in
207BI2cG spectrum
207BI G 214.4 2 LTM1+E2 0.8 5 a
207BIS G KC=0.5 4$LC=0.161 6$MC=0.0400 11$NC+=0.01241 22
207BIS G NC=0.0102 3$OC=0.00200 6$PC=0.00020 4
207BI cG M,RI$|a(K)exp>0.38 (1958Ar56)
207BI G 288.0 3 2.4 5 M1(+E2) 0.7 LT 0.46 7 a
207BIS G KC=0.37 6$LC=0.069 5$MC=0.0164 9$NC+=0.0051 3
207BIS G NC=0.00419 22$OC=0.00085 6$PC=9.8E-5 10
207BI cG M,MR$From |a(K)exp>0.28 and K/L=5.6 {I8} (1958Ar56)
207BI cG RI$From Ice(K)(K)=0.9 {I2} (1958Ar56) and |a
207BI G 466.44 13 5.7 3 (E1,E2)
207BI cG M$|a(K)exp<0.035 based on the evaluator's estimate of Ice(K)(K)<0.2
207BI2cG for a possible 466|g ce(K) line
207BI G 955.6 4 5.54 22
207BI G 1038.3 6 3.1 3
207BI G 1586.8 5 3.1 2(M1)
207BIS G CC=0.00606 9$KC=0.00485 7$LC=0.000800 12$MC=0.000187 3$NC+=0.000219 3
207BIS G NC=4.77E-5 7$OC=9.77E-6 14$PC=1.171E-6 17$IPC=0.0001605 23
207BI cG M$From |a(K)exp=0.0056 {I22} (1978Sc12). Other: |a(K)exp>0.0025
207BIxcG (1958Ar56)
207BI G 1613 0.4 LT
207BI G 1747.4 6 2.2 5
207BIS G CC=0.00487 7$KC=0.00379 6$LC=0.000624 9$MC=0.0001457 21$NC+=0.000309 5
207BIS G NC=3.72E-5 6$OC=7.62E-6 11$PC=9.14E-7 13$IPC=0.000263 4
207BI G 1798.7 6 0.8 2
207BIS G CC=0.00458 7$KC=0.00352 5$LC=0.000579 9$MC=0.0001352 19$NC+=0.000341 5
207BIS G NC=3.46E-5 5$OC=7.08E-6 10$PC=8.49E-7 12$IPC=0.000298 5
207BI cG M$|a(K)exp|?0.0066 compared with 0.0038 (M1)
207BI G 1846.8 2 19.4 11E1 a
207BIS G CC=0.001327 19$KC=0.000762 11$LC=0.0001139 16$MC=2.62E-5 4$NC+=0.000425
207BIS G NC=6.68E-6 10$OC=1.365E-6 20$PC=1.629E-7 23$IPC=0.000417 6
207BI cG M$|a(K)exp=0.00084 {I22} (Ice(K)=0.016 {I4} in 1958Ar56) (1970As01)
207BI G 1926 0.3 LT
207BI G 1953 0.2 LT
207BI G 2600 0.8 LT
207BI cG RI$<4 in 1970As01
207BI L 0.0 9/2- 31.55 Y 4
207BI L 669.79 711/2-
207BI G 669.78 11 36.8 11M1+E2 +0.24 4 0.0522 11
207BIS G KC=0.0427 9$LC=0.00727 14$MC=0.00170 3$NC+=0.000536 10
207BIS G NC=0.000436 8$OC=8.91E-5 16$PC=1.060E-5 20
207BI cG M$From |a(K)exp=0.0366 {I16} (Ice(K)=1.39 {I2}) (1978Sc12). Other:
207BI2cG |a(K)exp=0.061 {I11} (Ice(K)=1.7 {I2} in 1958Ar56) (1970As01)
207BI cG MR$From adopted gammas
207BI L 742.76 7 7/2-
207BI E 2162 12 0.153 10 10.9 7 7.51 3 11.1 7
207BIS E EAV=531.9 31$CK=0.7884 2$CL=0.14868 7$CM+=0.04913 3
207BI cE E$From E|b+=1140 {I12} (1958Ar56)
207BI G 742.72 15 1649 35M1+E2 +0.334 10 0.0386
207BIS G KC=0.0316 5$LC=0.00538 8$MC=0.001262 19$NC+=0.000396 6
207BIS G NC=0.000323 5$OC=6.59E-5 10$PC=7.83E-6 12
207BI cG M$From |a(K)exp=0.0332 {I7} (Ice(K)=56.50 {I7}) and K/L=5.76 {I9}
207BI2cG (1978Sc12). Other: |a(K)exp=0.036 {I3} (Ice(K)=59 {I5} in 1958Ar56)
207BIxcG (1970As01)
207BI cG MR$From A{-2}=0.414 {I8} and A{-4}=0.0048 {I3} in |g(|q, t) (1983He09)
207BI L 892.48 7 9/2-
207BI G 149.6 2 7.4 4M1(+E2) 0.6 LT 3.0 3 a
207BIS G KC=2.3 3$LC=0.50 4$MC=0.120 12$NC+=0.037 4
207BIS G NC=0.031 3$OC=0.0061 5$PC=0.000679 13
207BI cG M,MR$|a(K)exp=2.4 {I4} (Ice(K)=12.0 {I15} in 1958Ar56) (1970As01).
207BI2cG Other: L12/L3|>16 (1958Ar56)
207BI G 222.690 9 5.2 5M1(+E2) 0.51 LE 0.98 8
207BIS G KC=0.79 8$LC=0.148 3$MC=0.0351 5$NC+=0.01101 16
207BIS G NC=0.00898 13$OC=0.00182 3$PC=0.000210 9
207BI cG MR$From L12/L3|>15 (1958Ar56)
207BI G 892.4 3 20.9 5E2+M1 1.4 2 0.0145 13
207BIS G KC=0.0117 11$LC=0.00215 16$MC=0.00051 4$NC+=0.000159 12
207BIS G NC=0.000130 9$OC=2.63E-5 19$PC=3.03E-6 24
207BI cG M$From |a(K)exp=0.0121 {I7} (Ice(K)=0.26 {I1}) (1978Sc12). Other:
207BI2cG |a(K)exp=0.011 {I3} (Ice(K)=0.26 {I5} in 1958Ar56) (1970As01)
207BI L 992.46 7 7/2-
207BI E 1915 10 0.371 14 63.7 14 6.632 11 64.1 14
207BIS E EAV=422.4 33$CK=0.79324 9$CL=0.15100 6$CM+=0.04997 3
207BI cE E$from E|b+=893 {I10} (1958Ar56)
207BI G 99.954 7 8.2 8 M1+E2 0.32 3 9.88 15
207BIS G KC=7.55 17$LC=1.76 6$MC=0.428 16$NC+=0.133 5
207BIS G NC=0.109 4$OC=0.0218 8$PC=0.00236 5
207BI cG RI$From Ice(L1)=9.8 {I10} (1958Ar56) and |a
207BI cG MR$from L12/L3=8.2 {I12} (1958Ar56)
207BI G 249.745 10 94 5M1 0.768
207BIS G KC=0.626 9$LC=0.1086 16$MC=0.0255 4$NC+=0.00802 12
207BIS G NC=0.00653 10$OC=0.001334 19$PC=0.0001588 23
207BI cG M$From |a(K)exp=0.55 {I3} (Ice(K)=53.23 {I12}); K/L=5.52 {I10};
207BI2cG L/M+=3.5 {I8} (1978Sc12). Other: |a(K)exp=0.59 {I5} (Ice(K)=53 {I3} in
207BIxcG 1958Ar56) (1970As01)
207BI cG MR$pure M1 from L12/L3 (1958Ar56); <0.02 from A{-2}=-0.376 {I9} and
207BI2cG A{-4}=-0.0002 {I5} using |g(|q,t) in 1983He09
207BI G 992.39 20 3437 62M1+E2 -0.109 5 0.0195
207BIS G KC=0.01597 23$LC=0.00267 4$MC=0.000624 9$NC+=0.000196 3
207BIS G NC=0.0001596 23$OC=3.27E-5 5$PC=3.90E-6 6
207BI cG M$From |a(K)exp=0.0164 (Ice(K)=54.29 {I6}); K/L=5.94 {I9}; L/M+=3.1
207BI2cG {I8} (1978Sc12). Other: |a(K)exp=0.016 {I1} (Ice(K)=54 {I4} in
207BIxcG 1958Ar56) (1970As01)
207BI cG MR$From A{-2}=-0.005 {I4} and A{-4}=0.0012 using |g(|q,t) (1983He09)
207BI L 1148.47 8 5/2-
207BI E 0.001 LT 0.4 LT 8.8 GT 0.4 LT
207BIS E EAV=354.0 31$CK=0.7944$CL=0.15232 6$CM+=0.05046 3
207BI G 156.1 1 3.2 3M1(+E2) 0.3 LT 2.79 9 a
207BIS G KC=2.25 9$LC=0.416 11$MC=0.099 3$NC+=0.0309 10
207BIS G NC=0.0252 8$OC=0.00512 13$PC=0.000597 9
207BI cG RI$From Ice(K)=7.2 {I7} (1958Ar56) and |a
207BI cG M,MR$K/L=5.8 {I6} (1958Ar56). K/L determines mult=E1 or M1(+E2). If E1,
207BI2cG then I|g=63 and such a |g-ray would be a prominent line in the
207BIxcG spectrum.
207BI G 405.78 8 563 M1 0.205
207BIS G KC=0.1672 24$LC=0.0287 4$MC=0.00673 10$NC+=0.00211 3
207BIS G NC=0.001720 25$OC=0.000352 5$PC=4.19E-5 6
207BI cG M$From |a(K)exp=0.168 (Ice(K)=100); K/L=5.56 {I8}; L/M+=3.3 {I6}
207BI2cG (1978Sc12). Other: |a(K)exp=0.18 {I2} (Ice(K)=100 in 1958Ar56)
207BIxcG (1970As01)
207BI cG MR$<0.01 from A{-2}=0.069 {I6} and A{-4}=0 using |g(|q,t) in 1983He09;
207BI2cG <0.055 from L12/L3 (1958Ar56)
207BI G 1148.47 21 337 6E2
207BIS G CC=0.00536 8$KC=0.00430 6$LC=0.000809 12$MC=0.000192 3$NC+=6.09E-5 9
207BIS G NC=4.90E-5 7$OC=9.87E-6 14$PC=1.117E-6 16$IPC=9.26E-7 15
207BI cG M$From |a(K)exp=0.00394 {I10} (Ice(K)=1.37 {I1}); K/L=5.13 {I21};
207BI2cG L/M+=4.0 {I7} (1978Sc12). Other: |a(K)exp=0.0033 {I7} (Ice(K)=1.50
207BIxcG {I15} in 1958Ar56) (1970As01)
207BI L 1211.4 7 9/2-
207BI G 468.5 1.8 AP[M1] 0.1394 a ?
207BIS G KC=0.1139 16$LC=0.0195 3$MC=0.00456 7$NC+=0.001434 20
207BIS G NC=0.001167 17$OC=0.000239 4$PC=2.84E-5 4
207BI cG RI$From Ice(K)=0.20 (1958Ar56), I|g=1.8 if M1, and 8.1 if E2.
207BI2cG Non observation in the photon spectrum suggests mult=M1
207BI G 1211.4 7 3.9 2M1 0.01176
207BIS G KC=0.00965 14$LC=0.001603 23$MC=0.000375 6$NC+=0.0001265 18
207BIS G NC=9.58E-5 14$OC=1.96E-5 3$PC=2.35E-6 4$IPC=8.81E-6 17
207BI cG RI$Others: 7.4 {I12} (1971Sh22), <7 (1970As01)
207BI cG M$|a(K)exp>0.016 (Ice(K)=0.13 {I2} in 1958Ar56) (1970As01), compared
207BI2cG with 0.0097 (M1); E0 admixtures are possible
207BI L 1360.47 14(7/2)-
207BI E 0.047 24 9.57 23 0.047 24
207BIS E CK=0.7940$CL=0.15413 7$CM+=0.05116 3
207BI G 1360.5 3 30.2 6M1(+E2) 0.5 LT
207BIS G CC=0.0083 5$KC=0.0068 5$LC=0.00113 7$MC=0.000263 15$NC+=0.000128 7
207BIS G NC=6.7E-5 4$OC=1.38E-5 8$PC=1.64E-6 10$IPC=4.55E-5 23
207BI cG M,MR$From |a(K)exp=0.0077 {I14} (Ice(K)=0.24 {I4}) (1978Sc12). Other:
207BI2cG |a(K)exp=0.0066 {I10} (Ice(K)=0.23 {I3} in 1958Ar56) (1970As01)
207BI L 1372.74 8 5/2-
207BI E 0.18 9 8.98 22 0.18 9
207BIS E CK=0.7939$CL=0.15424 7$CM+=0.05121 3
207BI G 224.270 7 11.7 6M1(+E2) 0.5 LT 0.96 8
207BIS G KC=0.77 8$LC=0.145 3$MC=0.0344 5$NC+=0.01078 16
207BIS G NC=0.00880 13$OC=0.00178 3$PC=0.000206 9
207BI cG M,MR$From K/L=5.5 {I9} (1958Ar56) and L12/L3|>15 (1958Ar56) lead to
207BI2cG |d<0.62 and |d|<0.5, respectively;
207BI3cG |a(K)exp=0.44 {I7} from Ice(K)=5.2 {I8} in 1958Ar56 and I|g=11.7 {I6}
207BIxcG (1978Sc12);
207BI G 629.80 9 78.0 20M1(+E2) 0.12 LT 0.0635 10
207BIS G KC=0.0520 8$LC=0.00881 13$MC=0.00206 3$NC+=0.000648 10
207BIS G NC=0.000528 8$OC=0.0001079 16$PC=1.287E-5 19
207BI cG M$From |a(K)exp=0.0536 {I19} (Ice(K)=4.32 {I4}); K/L=5.8 {I3};
207BI2cG L/M+=2.9 {I6} (1978Sc12); Other: |a(K)exp=0.055 {I8} (Ice(K)=4.5 {I5}
207BIxcG in 1958Ar56) (1970As01)
207BI cG MR$From |a(K)exp. L12/L3|>30 (1958Ar56) and K/L=5.8 {I3} (1958Ar56)
207BI2cG lead to |d<0.97 and <0.76, respectively
207BI G 1372.5 4 70.6 14E2
207BIS G CC=0.00386 6$KC=0.00311 5$LC=0.000553 8$MC=0.0001304 19$NC+=6.98E-5 10
207BIS G NC=3.33E-5 5$OC=6.73E-6 10$PC=7.74E-7 11$IPC=2.90E-5 5
207BI cG M$From |a(K)exp=0.0036 {I6} (Ice(K)=0.26 {I4}) (1978Sc12);
207BI2cG Other: |a(K)exp=0.0033 {I4} (Ice(K)=0.25 {I3} in 1958Ar56) (1970As01)
207BI L 1680.28 9(3/2)-
207BI G 307.81 10 35.1 11M1+E2 0.23 +8-11 0.416 14
207BIS G KC=0.338 12$LC=0.0597 13$MC=0.0141 3$NC+=0.00442 9
207BIS G NC=0.00360 7$OC=0.000733 15$PC=8.66E-5 22
207BI cG M$From |a(K)exp=0.338 {I11} (Ice(K)=12.23 {I5}) (1978Sc12);
207BI2cG Other: |a(K)exp=0.39 {I4} (Ice(K)=14 {I1} in 1958Ar56) (1970As01)
207BI cG MR$From |a(K)exp. L12/L3|>18 (1958Ar56) and K/L=5.6 {I6} (1958Ar56)
207BI3cG lead to |d<0.65 and <0.63, respectively
207BI G 531.65 10 20.0 7M1+E2 0.45 10 0.087 5
207BIS G KC=0.071 5$LC=0.0125 6$MC=0.00295 13$NC+=0.00092 4
207BIS G NC=0.00075 4$OC=0.000153 7$PC=1.81E-5 9
207BI cG M$From |a(K)exp=0.071 {I4} (Ice(K)=1.47 {I5}); K/L=5.2 {I6} (1978Sc12);
207BI2cG Other: |a(K)exp=0.049 {I24} (Ice(K)=1.6 {I3} in 1958Ar56) (1970As01)
207BI cG MR$From |a(K)exp
207BI L 1690.86 11 5/2-
207BI G 330.39 12 13.9 5M1+E2 0.35 10 0.328 17
207BIS G KC=0.265 15$LC=0.0478 15$MC=0.0113 3$NC+=0.00354 10
207BIS G NC=0.00289 8$OC=0.000587 18$PC=6.9E-5 3
207BI cG M$|a(K)exp=0.265 {I13} (Ice(K)=3.81 {I5}) (1978Sc12);
207BI2cG Other: |a(K)exp=0.32 {I6} (Ice(K)=4.2 {I5} in 1958Ar56) (1970As01)
207BI cG MR$From |a(K)exp
207BI G 698.33 23 4.6 3M1(+E2) 0.5 LT 0.045 4
207BIS G KC=0.037 3$LC=0.0063 5$MC=0.00148 10$NC+=0.00047 3
207BIS G NC=0.000380 25$OC=7.8E-5 5$PC=9.2E-6 7
207BI cG M,MR$|a(K)exp>0.033 (Ice(K)=0.20 in 1958Ar56) (1970As01)
207BI G 947.9 3 69.3 14M1(+E2) 0.59 LT 0.0202 19
207BIS G KC=0.0166 16$LC=0.00280 24$MC=0.00066 6$NC+=0.000206 17
207BIS G NC=0.000168 14$OC=3.4E-5 3$PC=4.1E-6 4
207BI cG M,MR$From |a(K)exp=0.018 {I3} (Ice(K)=1.24 {I16}) (1989Sc12). K/L1=3.2
207BI2cG {I6} (1958Ar56) and K/L=4.44 {I21} (1978Sc12) are inconsistent with
207BI3cG M1(+E2) (6.0 and 5.96 for M1, and 6.8 and 4.90 for E2, respectively).
207BI4cG Other: |a(K)exp=0.022 {I2} (Ice(K)=1.3 {I1} in 1958Ar56) (1970As01)
207BI L 1762.82 11 5/2-
207BI E 0.06 5 9.2 4 0.06 5
207BIS E CK=0.7883 2$CL=0.1587 1$CM+=0.05299 5
207BI G 390.10 18 9.4 14M1+E2 1.1 LT 0.18 5
207BIS G KC=0.14 4$LC=0.027 5$MC=0.0065 10$NC+=0.0020 3
207BIS G NC=0.00167 25$OC=0.00034 6$PC=3.9E-5 8
207BI cG RI$Other: <6.3 (1971Sh22)
207BI cG M,MR$|a(K)exp>0.11 (Ice(K)=0.65 in 1958Ar56) (1970As01)
207BI G 402.4 4 7.7 8 (M1+E2) 1.1 LT 0.17 5 a
207BIS G KC=0.13 4$LC=0.025 5$MC=0.0060 9$NC+=0.0019 3
207BIS G NC=0.00153 24$OC=0.00031 5$PC=3.6E-5 8
207BI cG RI$From Ice(K)(K)=0.92 {I10} (1958Ar56) and |a
207BI cG M,MR$From K/L=5 {I1} (1958Ar56)
207BI G 770.7 4 22.2 6M1+E2 0.66 11 0.0298 19
207BIS G KC=0.0243 16$LC=0.00425 23$MC=0.00100 6$NC+=0.000314 17
207BIS G NC=0.000256 14$OC=5.2E-5 3$PC=6.1E-6 4
207BI cG RI$Others: <35 (1970As01), 46 {I6} (1971Sh22). The
207BI2cG value of 1971Sh22 leads to |d>1.9, in disagreement with K/L
207BI cG M$From |a(K)exp=0.0240 {I15} (Ice(K)=0.55 {I2}); K/L=6.9 {I15}
207BI2cG (1978Sc12); Other: |a(K)exp>0.018 (Ice(K)=0.74 {I10} in 1958Ar56)
207BIxcG (1970As01)
207BI cG MR$From |a(K)exp; K/L=6.9 {I15} (1978Sc12) gives |d<1.1
207BI G 1020.3 5 8.2 2(M1) 0.0183
207BIS G KC=0.01498 21$LC=0.00250 4$MC=0.000585 9$NC+=0.000184 3
207BIS G NC=0.0001495 21$OC=3.06E-5 5$PC=3.66E-6 6
207BI cG M$|a(L1)exp|?0.005 (Ice(L1)=0.05 in 1958Ar56) compared with 0.0023 (M1)
207BI G 1763.3 4 12.1 10E2
207BIS G CC=0.00258 4$KC=0.00198 3$LC=0.000333 5$MC=7.79E-5 11$NC+=0.000184 3
207BIS G NC=1.99E-5 3$OC=4.04E-6 6$PC=4.73E-7 7$IPC=0.0001593 23
207BI cG M$From |a(K)exp=0.0019 {I3} (Ice(K)=0.024 {I6}) (1978Sc12);
207BI2cG Other: |a(K)exp=0.0019 {I5} (Ice(K)=0.027 {I5} in 1958Ar56) (1970As01)
207BI L 1902.31 9 1/2+
207BI E 0.30 7 8.89 11 0.30 7 1U
207BIS E CK=0.7518 5$CL=0.1846 4$CM+=0.06364 15
207BI G 139.7 0.028 [M2] 24.5
207BIS G KC=16.65 24$LC=5.86 9$MC=1.502 21$NC+=0.477 7
207BIS G NC=0.390 6$OC=0.0784 11$PC=0.00877 13
207BI cG RI$From Ice(K)=0.46 (1958Ar56) if mult=M2. I|g not measured directly
207BI G 222.030 7 74.4 22E1 0.0620
207BIS G KC=0.0504 7$LC=0.00893 13$MC=0.00210 3$NC+=0.000648 9
207BIS G NC=0.000531 8$OC=0.0001051 15$PC=1.137E-5 16
207BI cG M$|a(K)exp=0.041 {I+15-10} (Ice(K)=3.5 {I8} in 1958Ar56) (1970As01)
207BI L 2060.39 9 3/2+ 103 PS 10
207BI cL T$From 345.2K-|g(t) coin. in 1986Be07
207BI E 21.2 5 6.357 13 21.2 5
207BIS E CK=0.7793 3$CL=0.16512 22$CM+=0.05555 9
207BI G 158.084 7 24.5 12M1+E2 4.5 +15-8 1.14 4
207BIS G KC=0.37 5$LC=0.571 9$MC=0.1504 25$NC+=0.0460 8
207BIS G NC=0.0383 7$OC=0.00712 12$PC=0.000576 8
207BI cG M$|a(K)exp=0.37 {I4} (Ice(K)=11.5 {I1} in 1958Ar56) (1970As01)
207BI cG MR$From |a(K)exp. K/L=0.75 {I8} (1958Ar56) gives |d|?4.8
207BI G 297.63 9 57.2 16E1 0.0310
207BIS G KC=0.0253 4$LC=0.00434 6$MC=0.001017 15$NC+=0.000315 5
207BIS G NC=0.000258 4$OC=5.14E-5 8$PC=5.68E-6 8
207BI cG M$From |a(K)exp=0.0206 {I17} (Ice(K)=1.37 {I8}) (1978Sc12);
207BI2cG Other: |a(L1)exp=0.005 (Ice(L1)=0.3 in 1958Ar56) (1970As01)
207BI G 369.51 8 99.1 25E1 0.0190
207BIS G KC=0.01557 22$LC=0.00261 4$MC=0.000610 9$NC+=0.000189 3
207BIS G NC=0.0001548 22$OC=3.10E-5 5$PC=3.47E-6 5
207BI cG M$|a(K)exp=0.016 {I3} (Ice(K)=1.7 {I3} in 1958Ar56) (1970As01); Note
207BI2cG that M1/E2 assigned in 1978Sc12, based on |a(K)exp=0.139 {I8}
207BI3cG (Ice(K)=1.37 {I8}) (1978Sc12)
207BI G 380.10 10 3.5 3E1+M2 0.32 +11-15
207BI cG M,MR$From |a(K)exp=0.07 {I4} (Ice(K)=0.25 {I12}) (1978Sc12)
207BI G 687.53 10 105 3E1
207BIS G CC=0.00524 8$KC=0.00434 6$LC=0.000686 10$MC=0.0001593 23$NC+=4.97E-5 7
207BIS G NC=4.05E-5 6$OC=8.20E-6 12$PC=9.50E-7 14
207BI cG M$From |a(K)exp=0.0041 {I3} (Ice(K)=0.44 {I2}) (1978Sc12);
207BI2cG Other: |a(K)exp=0.0042 {I8} (Ice(K)=0.48 {I8} in 1958Ar56) (1970As01)
207BI G 911.77 23 985 18E1
207BIS G CC=0.00308 5$KC=0.00256 4$LC=0.000397 6$MC=9.19E-5 13$NC+=2.87E-5 4
207BIS G NC=2.34E-5 4$OC=4.75E-6 7$PC=5.57E-7 8
207BI cG M$From |a(K)exp=0.00245 {I7} (Ice(K)=2.49 {I2}) (1978Sc12);
207BI2cG Other: |a(K)exp=0.0026 {I2} (Ice(K)=2.6 {I2} in 1958Ar56) (1970As01)
207BI cG MR$<0.01 from A{-2}=0.0722 {I19} and A{-4}=0 using |g(|q,t) in 1983He09
207BI G 1317.3 5 5.3 4[M2] 0.0224
207BIS G KC=0.0181 3$LC=0.00327 5$MC=0.000774 11$NC+=0.000253 4
207BIS G NC=0.000198 3$OC=4.05E-5 6$PC=4.81E-6 7$IPC=9.14E-6 14
207BI cG RI,M$|a(K)exp>0.0026 (1958Ar56) is consistent with mult=E2
207BI2cG (|a(K)=0.0034); however, the transition is placed from (3/2)+ to 7/2-.
207BI3cG Ice(K)|?0.013 (1958Ar56) leads to I|g=0.72 (M2) and 1.9 (E3). Note
207BI4cG that 1970As01 report I|g<5.0
207BI G 2060.8 4 71 3(E3)
207BIS G CC=0.00372 6$KC=0.00285 4$LC=0.000527 8$MC=0.0001251 18$NC+=0.000213 3
207BIS G NC=3.20E-5 5$OC=6.47E-6 9$PC=7.48E-7 11$IPC=0.0001741 25
207BI cG M$|a(K)exp=0.0025 {I4} (Ice(K)=0.18 {I2}) (1978Sc12) is consistent
207BI2cG with mult=M1 (0.0025), or E3 (0.0029). The |g is placed from (3/2)+ to
207BIxcG 9/2-
207BI L 2120.1 4 (3/2)-
207BI E 0.176 6 8.368 18 0.176 6
207BIS E CK=0.7766 4$CL=0.1671 3$CM+=0.05633 10
207BI G 1377.3 4 10.2 3 [E2]
207BIS G CC=0.00384 6$KC=0.00309 5$LC=0.000549 8$MC=0.0001294 19$NC+=7.06E-5 10
207BIS G NC=3.30E-5 5$OC=6.68E-6 10$PC=7.69E-7 11$IPC=3.01E-5 5
207BI L 2405.68 11 5/2+
207BI E 3.12 9 6.676 19 3.12 9
207BIS E CK=0.7526 11$CL=0.1841 8$CM+=0.0632 3
207BI G 345.32 9 119 3M1(+E2) 0.30 6 0.297 9
207BIS G KC=0.241 8$LC=0.0428 9$MC=0.01009 20$NC+=0.00317 7
207BIS G NC=0.00258 5$OC=0.000525 11$PC=6.19E-5 15
207BI cG M$|a(K)exp=0.241 {I6} (Ice(K)=29.57 {I6}); K/L=4.85 {I7}; L/M+=3.3
207BI2cG {I6} (1978Sc12); Other: |a(K)exp=0.31 {I3} (Ice(K)=34 {I3} in
207BIxcG 1958Ar56) (1970As01)
207BI cG MR$From |a(K)exp. L12/L3|>90 (1958Ar56) gives |d<0.2
207BI G 503.33 10 9.8 5(E2) 0.0302
207BIS G KC=0.0212 3$LC=0.00682 10$MC=0.001705 24$NC+=0.000528 8
207BIS G NC=0.000435 6$OC=8.45E-5 12$PC=8.35E-6 12
207BI cG M$|a(K)exp=0.026 {I13} (Ice(K)=0.26 in 1958Ar56) (1970As01)
207BI G 1662.9 4 16.5 9E1
207BIS G CC=0.001366 20$KC=0.000906 13$LC=0.0001360 19$MC=3.14E-5 5$NC+=0.000293
207BIS G NC=7.99E-6 12$OC=1.630E-6 23$PC=1.94E-7 3$IPC=0.000283 4
207BI cG M$|a(K)exp=0.0010 {I3} (Ice(K)=0.022 {I4} in 1958Ar56) (1970As01)