209PO 209AT EC DECAY 1974JA26 15NDS 201506
209PO H TYP=FUL$AUT=J. CHEN {+#} AND F.G. KONDEV$CIT=NDS 126, 373 (2015)$
209PO2 H CUT=30-Sep-2013$
209PO C The decay scheme is that of 1974Ja26 based on extensive
209PO2C coincidence data
209PO c 1974Ja26: {+209}At sources were produced by the reaction of
209PO2c {+209}Bi(|a,4n) with 47-51 MeV |a beams on bismuth metal targets of
209PO3c thicknesses 30-59 mg/cm{+2} at the Berkeley lab. |g-ray single spectra
209PO4c were measured by a 35 cm{+3} coaxial Ge(Li) detector (FWHM=2.6 keV at
209PO5c 1332 keV), a 10 cm{+3} planar Ge(Li) (FWHM=1.5 keV at 122 keV) and a
209PO6c 0.784 cm{+2} by 5 mm Si(Li) detector (FWHM=0.8 keV at 60 keV);
209PO7c |g|g-coincidences were measured with two 35 cm{+3} coaxial Ge(Li)
209PO8c detectors; conversion electrons were detected with the Si(Li) detector.
209PO9c Measured E|g, I|g, |g|g-coin, I{-ce}. Deduced levels, J|p, conversion
209POac coefficients, |g-multipolarities, decay branchings, log| {Ift}.
209PO C 1973Af01: 209AT sources were produced from a thorium target bombarded
209PO2c by a 660 MeV proton beam from the synchrocyclotron of the Nuclear
209PO3c Problems Laboratory. |g-rays were detected with Ge(Li) detectors and
209PO4c conversion electrons were detected with two Si(Li) |b-spectrometers.
209PO5c Measured E|g, I|g, E{-ce}, I{-ce}. Deduced levels, |g-branchings,
209PO6c |g-multipolarities, conversion coefficients.
209PO c 1971Al31: {+209}At source was produced from the ISOLDE facility at
209PO2c CERN using {+232}Th(p,spall) reactions. |g-rays were detected by
209PO3c Ge(Li) detectors and |b-particles were detected by a double-focusing
209PO4c magnetic spectrometer (up to 210 keV) and by a 2 mm thick Si(Li)
209PO5c detector (up to 1500 keV). Measured E|g, I|g, |g|g-coin, delayed-coin.,
209PO6c E|b, I|b. Deduced levels, T{-1/2},|g-branchings, |g-multipolarities,
209PO7c conversion coefficients.
209PO c 1987Si14: {+209}At were produced by the reaction of {+209}Bi({+3}He,Xn)
209PO2c with the {+3}He beam from the U-200 cyclotron at JINR. |g-rays were
209PO3c detected by two 30 cm{+3} coaxial Ge(Li) detectors. Measured E|g, I|g,
209PO4c |g|g(|q). Deduced levels, J|p, mixing ratios.
209PO c 2011Ma75: {+209}At nuclei were produced from a 47.6 MeV {+9}Be beam on
209PO2c a Tl{-2}CO{-3} target and from a 46 MeV {+7}Li beam on a PbNO{-3}
209PO3c target. |g-rays were detected with a high-purity germanium detector
209PO4c (FWHM=2.13 keV at 1.33 MeV). Measured production yields, E|g, I|g.
209PO c Others: 1985BuZQ, 1983Ha51, 1969Go23
209PO CG E$Weighted average of values from 1974Ja26, 1973Af01, 1972Ch09,
209POxCG 1971Al31
209PO CG RI$Weighted average of values from 1974Ja26, 1973Af01 and 1971Al31,
209PO2CG unless otherwise noted. Normalized to I(545G)=100. Others:1972Ch09,
209PO CG RI(X)$Weighted average of values from 1974JA26 and 1971AL31
209PO CG RI(Y)$Weighted average of values from 1974JA26 and 1973AF01
209PO CG RI(B)$Reported only by 1974Ja26
209PO CG E(E)$From 1974Ja26
209PO CG RI(C)$Reported only by 1973Af01
209PO CG RI(D)$Reported only by 1971Al31. Not seen by 1974Ja26
209PO CG RI(Z)$1974JA26 report E|g=596.4 with I|g=0.72 4 doubly placed from the
209PO2CG from the 2312 and 2908 levels. |a(K) for the doublet is consistent with
209PO3CG mult=E1+M2 with |d AP 0.33 or mult=M1+E2 with |d AP 1.5. From |g|g,
209PO4CG the authors favor placement from the 2312 level, requiring |D|p=yes;
209PO5CG however, the M2 component is rather large.
209PO CE TI$From TI imbalance at each level
209PO CG M,MR$From Adopted Gammas, unless otherwise noted. Conversion
209PO2CG coefficients are obtained in 1974Ja26, 1973Af01 and 1971Al31,
209PO3CG based on relative I(G) and I(CEK) data normalized to KC(545G)=0.0187
209PO4CG (E2); other: 1972CH09. Mixing ratios obtained in 1987SI14 are from
209PO5CG G(THETA,TEMP) measured with a low-temperature, polarized source
209PO CL E$From a least-squares fit to |g-ray energies.
209PO CL J$From Adopted Levels
209PO DG CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
209PO DG MR$IF NO VALUE GIVEN IT WAS ASSUMED MR=0.00 FOR E2/M1,
209PO2DG MR=1.00 FOR E3/M2 AND MR=0.10 FOR THE OTHER MULTIPOLARITIES
209PO N 0.9481 12 0.959 5 1.0428
209PO CN NR$SUMOF (TI to ground state)=100% by
209PO2CN assuming no direct feedings to the ground state.
209PO PN 1
209AT P 0.0 9/2- 5.42 H 5 3483 5
209AT cP QP$From 2012Wa38.
209PO G 126.0 5 0.051 16 C
209PO G 149.5 5 0.056 12 C
209PO G 161.2 4 0.076 16 C
209PO G 191.0 2 0.45 5 C
209PO G 242.2 4 0.24 4 C
209PO G 342.87 8 0.57 3 E
209PO CG RI$from 1974Ja26. 1973Af01 report a doublet with energies
209PO2CG 342.2 4 and 343.3 4, with IG=0.45 7 and 0.29 5, respectively.
209PO3CG 1974Ja26 report no evidence for a doublet, and do not confirm the
209PO4CG placements of 1973Af01.
209PO CG M$from EKC=0.11 1 (1974JA26) and EKC=0.087 22 (1973AF01) using the
209PO2CG BrIccMixing program, one obtains mult=E1+M2 with MR=0.33 2, or
209PO5CG mult=M1+E2 with MR=1.8 2
209PO G 379.9 7 0.18 5 C
209PO CG M$from EKC=0.20 5 (1973AF01), one obtains mult=E1+M2 with MR=0.64 12,
209PO2CG or mult=M1(+E2) with MR=0.3 +5-3.
209PO G 433.8 3 0.08 2 B
209PO G 447.6 1 0.29 2M1+E2 0.5 3 0.145 25
209POS G KC=0.117 22$LC=0.021 3$MC=0.0051 6
209POS G NC=0.00131 15$OC=0.00027 4$PC=3.5E-5 5
209PO CG E$Placed by 1973Af01 from an 1865 level. This level is not
209PO2CG confirmed by 1974Ja26
209PO CG M,MR$EKC=0.13 2 from 1974JA26; EKC=0.10 3 from 1973AF01
209PO G 515.1 3 0.05 2 B
209PO G 523.0 3 0.04 2(M2) 0.320 B
209POS G KC=0.249 4$LC=0.0540 8$MC=0.01313 19
209POS G NC=0.00340 5$OC=0.000708 10$PC=9.00E-5 13
209PO CG M$EKC=0.32 8 (tentative) from 1974JA26
209PO G 719.6 3 0.08 1(M2) 0.1254 B
209POS G KC=0.0990 14$LC=0.0200 3$MC=0.00482 7
209POS G NC=0.001246 18$OC=0.000260 4$PC=3.32E-5 5
209PO CG M$EKC=0.13 4 (tentative) from 1974JA26
209PO G 750.9 2 0.07 1 B
209PO G 799.1 2 0.11 2 B
209PO G 807.4 2 0.2 1 D ?
209PO G 809.8 3 0.036 8 B
209PO G 817.6 2 0.18 4(M1+E2) 0.5 LT 0.0326 25
209POS G KC=0.0266 21$LC=0.0046 3$MC=0.00108 7
209POS G NC=0.000277 18$OC=5.8E-5 4$PC=7.5E-6 6
209PO CG M,MR$EKC=0.016 8 (tentative) from 1974JA26
209PO G 826.8 3 0.05 1 B
209PO G 895.0 2 0.21 5 D ?
209PO G 910.7 5 0.077 11 B
209PO G 922.2 2 0.078 10 X
209PO G 999.6 2 0.17 1 B
209PO G 1008.4 4 0.038 9 B
209PO G 1037.8 4 0.030 6 B
209PO G 1043.45 20 0.12 2 C
209PO G 1084.0 4 0.037 5 B
209PO G 1092.8 4 0.049 7 B
209PO G 1096.0 2 0.15 3 D
209PO G 1112.9 6 0.022 6 B
209PO G 1183.1 2 0.15 2 X
209PO G 1202.3 4 0.022 6 B
209PO G 1210.2 4 0.047 10 B
209PO G 1243.9 2 0.18 2
209PO G 1272.9 2 0.24 2
209PO G 1295.8 4 0.026 6 B
209PO G 1299.0 4 0.022 6 B
209PO G 1333.4 3 0.15 6 D
209PO G 1342.9 3 0.071 6 B
209PO G 1361.7 6 0.009 4 B
209PO G 1409.0 6 0.019 8 B
209PO G 1411.1 4 0.058 8 B
209PO G 1419.4 4 0.042 9 B
209PO G 1421.5 5 0.023 8 B
209PO G 1510 1 0.06 2 C
209PO G 1529.4 5 0.016 5 B
209PO G 1533.1 2 0.18 2
209PO G 1622.4 1 0.19 1
209PO G 1687.3 1 0.41 2(E2) 0.00289
209POS G KC=0.00225 4$LC=0.000387 6$MC=9.11E-5 13
209POS G NC=2.34E-5 4$OC=4.86E-6 7$PC=6.17E-7 9$IPC=0.0001283 18
209PO CG $EKC AP 0.00167 from 1973AF01
209PO G 1706.1 7 0.006 3 B
209PO G 1786.5 1 0.13 1
209PO G 1804.1 1 0.062 6
209PO G 1810.0 2 0.047 5 Y
209PO G 1861.4 5 0.008 2 B
209PO G 1947.7 4 0.015 2 B
209PO G 2102.0 4 0.008 3 B
209PO G 2105 1 0.04 1 D
209PO G 2204 1 0.04 1 D
209PO G 2245.8 6 0.007 1 B
209PO G 2292.3 5 0.020 7 Y
209PO G 2342.9 4 0.021 5 B
209PO G 2368.3 4 0.012 2 B
209PO G 2448 1 0.02 1 D
209PO G 2555.4 4 0.002 1 B
209PO G 2588.9 4 0.021 3 B
209PO G 2645.6 3 0.012 3 Y
209PO L 0.0 1/2-
209PO L 544.98 8 5/2- 70 PS 20
209PO CL T$from (790.2|g)(545.0|g)(|Dt) (1971AL31)
209PO G 545.0 1 100 E2 0.0262
209POS G KC=0.0186 3$LC=0.00575 8$MC=0.001437 21
209POS G NC=0.000369 6$OC=7.40E-5 11$PC=8.25E-6 12
209PO CG M$EKC=0.019 from 1971AL31; EKC=0.0178 11, ELC=0.0054 5 from 1973AF01
209PO2CG A2=-0.50 7 (1987SI14)
209PO DG $A2=-0.335 2, A4=-0.128 2 (1983HA51)
209PO L 854.35 15 3/2-
209PO G 854.4 2 0.71 6M1 0.0313
209POS G KC=0.0256 4$LC=0.00434 6$MC=0.001020 15
209POS G NC=0.000262 4$OC=5.49E-5 8$PC=7.12E-6 10
209PO CG M$EKC=0.026 5 from 1974JA26, ELC AP 0.0034 from 1973AF01, A2=+0.5 7
209PO2CG (1987SI14)
209PO DG $A2=+0.106 25, A4=-0.043 46 (1983HA51)
209PO L 1175.34 8 5/2-
209PO G 630.3 1 0.75 3M1 0.0691
209POS G KC=0.0564 8$LC=0.00967 14$MC=0.00227 4
209POS G NC=0.000585 9$OC=0.0001225 18$PC=1.587E-5 23
209PO CG M$ELC=0.014 4 from 1974JA26; EKC AP 0.08, ELC=0.016 5 from 1973AF01
209PO DG $A2=-0.379 26, A4=+0.054 45 (1983HA51)
209PO G 1175.3 1 2.1 1E2 0.00540
209POS G KC=0.00432 6$LC=0.000821 12$MC=0.000196 3
209POS G NC=5.02E-5 7$OC=1.037E-5 15$PC=1.283E-6 18$IPC=2.02E-6 3
209PO CG M$EKC=0.0049 8 from 1974JA26; EKC=0.005 3 from 1971AL31; EKC=0.0047 10,
209PO2CG ELC=0.00067 17 from 1973AF01; A2=-0.314 1, A4=-0.285 16 from 1983HA51
209PO L 1213.70 10 1/2-,3/2- ?
209PO G 1213.7 11 0.48 4 ?
209PO CG M$EKC=0.0068 20 (tentative) from 1974JA26, EKC AP 0.0094 from 1973AF01
209PO DG $A2=-0.132 30, A4=+0.234 54 (1983HA51)
209PO L 1326.85 9 9/2-
209PO G 151.4 2 0.089 16[E2] 1.319 Y
209POS G KC=0.294 5$LC=0.761 12$MC=0.202 3
209POS G NC=0.0519 8$OC=0.00992 15$PC=0.000910 14
209PO G 781.9 1 91.6 26E2 0.01200
209POS G KC=0.00918 13$LC=0.00213 3$MC=0.000519 8
209POS G NC=0.0001333 19$OC=2.71E-5 4$PC=3.21E-6 5
209PO CG M$EKC=0.0091 7, ELC=0.0019 2 from 1974JA26; EKC=0.0100 8 from 1971AL31;
209PO2CG EKC=0.0089 8, ELC=0.00184 21 from 1973AF01
209PO3CG A2=-0.433 (1987SI14)
209PO DG $A2=-0.339 2, A4=-0.126 2 (1983HA51)
209PO L 1408.90 9 7/2-
209PO G 233.6 1 1.10 9M1(+E2) -0.30 +22-300.95 14
209POS G KC=0.76 13$LC=0.142 5$MC=0.0337 7
209POS G NC=0.00867 19$OC=0.00180 6$PC=0.000229 17
209PO CG M$EKC=0.76 5, ELC=0.136 10, EMC=0.028 10 (tentative) from 1974JA26;
209PO2CG EKC=0.75 10 from 1971AL31; EKC=0.79 12, ELC=0.17 3 from 1973AF01.
209PO3CG A2=+0.5 4 (1987SI14)
209PO DG $A2=+0.154 14, A4=+0.096 23 (1983HA51)
209PO CG MR$-0.1 5 from G(THETA,TEMP) (1987SI14)
209PO G 554.6 2 0.63 10 E2 0.0252
209POS G KC=0.0179 3$LC=0.00546 8$MC=0.001362 20
209POS G NC=0.000350 5$OC=7.02E-5 10$PC=7.85E-6 11
209PO CG M$EKC AP 0.022 from 1973AF01
209PO G 863.9 1 2.26 10M1(+E2) -0.4 +3-4 0.028 6
209POS G KC=0.022 5$LC=0.0039 7$MC=0.00091 15
209POS G NC=0.00023 4$OC=4.9E-5 9$PC=6.3E-6 11
209PO CG M$EKC=0.027 5, ELC=0.0028 8 from 1973AF01
209PO2CG A2=+0.92 22 (1987SI14)
209PO DG $A2=+0.899 11, A4=+0.184 15 (1983HA51)
209PO CG MR$from G(THETA,TEMP) (1987SI14). EKC of 1973Af01 is consistent with
209PO2CG pure M1; however, the CEK line is not fully resolved from CEL(790G)
209PO L 1417.66 9 13/2- 24.8 NS 14
209PO CL T$from (90.8|g-CEL)(239.190|g)(|Dt) (1971AL31)
209PO G 90.8 1 2.01 20E2 10.77 Y
209POS G LC=7.98 12$MC=2.13 4
209POS G NC=0.545 9$OC=0.1036 16$PC=0.00924 14
209PO CG RI$TI=22 1 in 1971Al31
209PO CG M$from EL12C/EL3C=1.34 10 (1974JA26), ELC=8.7 11 (1973AF01),
209PO2CG EL2C/EL3C=1.25 6 (1971AL31)
209PO DG $A2=-0.016 1, A4=+0.004 3 (1983HA51)
209PO L 1521.85 9 11/2- 70 PS 20
209PO CL T$from (790.2|g)(781.9|g)(|Dt) (1971AL31)
209PO E 0.05 4 8 6 7.6 4 8 6
209POS E EAV=442.8 22$CK=0.7906$CL=0.15223 5$CM+=0.05075 2
209PO G 104.187 3 2.6 4M1 9.87 E
209PO2 G FLAG=Y
209POS G KC=8.00 12$LC=1.429 20$MC=0.337 5
209POS G NC=0.0869 13$OC=0.0182 3$PC=0.00235 4
209PO cG RI$1.4 {I1} from 1971Al31. 1973Af01 propose a doublet at E|g=113 based
209PO2cG on conversion data arguments. The evaluators feel that the data are
209PO3cG consistent with a single transition. No doublet is reported by 1974Ja26
209PO CG M$from EL1C=2.4 4 from 1971AL31
209PO2CG A2=+0.4 4 (1987SI14)
209PO DG $A2=+0.181 6, A4=+0.021 10 (1983HA51)
209PO G 113.1 1 0.20 4 E2 4.29 X
209POS G KC=0.429 6$LC=2.86 5$MC=0.764 12
209POS G NC=0.196 3$OC=0.0373 6$PC=0.00335 5
209PO cG E$1973Af01 report two |g-rays at E=112.6 {I3} and 113.35 {I30} with
209PO2cG I(112.6|g)=0.120 {I19}, I(113.35|g)=0.144 {I16}.
209PO3cG 1974Ja26 report no evidence for a doublet.
209PO CG M$from EKC=1.0 6 (1971AL31), one gets mult=M1+E2 with MR=3.1 4.
209PO2CG The uncertainty in I(CEK) due to the required window absorption
209PO3CG correction is not included.
209PO G 195.0 1 25.8 12M1+E2 +0.40 +17-221.51 13
209POS G KC=1.19 13$LC=0.241 4$MC=0.0577 14
209POS G NC=0.0149 4$OC=0.00307 6$PC=0.000381 11
209PO CG M$EKC=1.17 12, ELC=0.22 2, EMC=0.061 7 from 1974JA26; EKC=1.18 10 from
209PO2CG 1971AL31; EKC=1.21 8, ELC=0.24 3 from 1973AF01.
209PO3CG A2=+0.15 5 (1987SI14)
209PO DG $A2=+0.176 2, A4=+0.009 2 (1983HA51)
209PO CG MR$+0.090 6 in GG(THETA) (1985BuZQ) and
209PO2CG +0.08 5 from G(THETA,TEMP) (1987SI14)
209PO L 1715.69 9 9/2-
209PO G 388.8 1 0.54 3M1(+E2) 0.6 LE 0.22 3
209POS G KC=0.182 22$LC=0.0329 25$MC=0.0078 6
209POS G NC=0.00201 14$OC=0.00042 3$PC=5.3E-5 5
209PO CG M$EKC=0.19 2 from 1974JA26; EKC=0.20 9 from 1971AL31; EKC=0.19 4,
209PO2CG ELC=0.028 7 from 1973AF01
209PO G 1170.6 1 3.3 1E2 0.00544
209POS G KC=0.00435 6$LC=0.000828 12$MC=0.000197 3
209POS G NC=5.07E-5 7$OC=1.046E-5 15$PC=1.294E-6 19$IPC=1.77E-6 3
209PO CG M$EKC=0.0046 6, ELC=0.00094 32 from 1974JA26; EKC=0.0030 15 from
209PO2CG 1971AL31; EKC=0.0036 8, ELC=0.00067 17 from 1973AF01
209PO DG $A2=-0.357 10, A4=-0.144 16 (1983HA51)
209PO L 1761.03 9 13/2+
209PO G 239.190 18 13.8 5E1 0.0533 E
209POS G KC=0.0432 6$LC=0.00769 11$MC=0.00181 3
209POS G NC=0.000462 7$OC=9.40E-5 14$PC=1.119E-5 16
209PO CG M$EKC=0.037 4, ELC=0.005 1 from 1974JA26; EKC=0.038 3 from 1971AL31;
209PO2CG EKC=0.041 7, ELC=0.0069 15 from 1973AF01
209PO3CG A2=+0.28 8 (1987SI14)
209PO DG $A2=+0.220 3, A4=+0.018 3 (1983HA51)
209PO CG MR$ 0.00 4 from G(THETA,TEMP) (1987SI14)
209PO L 1990.99 9 7/2-
209PO E 0.17 7 8.98 18 0.17 7
209POS E CK=0.7909$CL=0.15632 5$CM+=0.05233 2
209PO G 815.6 1 0.29 6M1+E2 0.6 4 0.029 6
209POS G KC=0.023 5$LC=0.0041 7$MC=0.00097 17
209POS G NC=0.00025 5$OC=5.2E-5 9$PC=6.7E-6 13
209PO CG M$EKC=0.029 8 (tentative) from 1974JA26; EKC=0.022 5 from 1973AF01
209PO G 1446.1 1 0.59 2M1+E2 1.2 +8-4 0.0055 10
209POS G KC=0.0045 8$LC=0.00077 13$MC=0.00018 3
209POS G NC=4.6E-5 8$OC=9.7E-6 16$PC=1.24E-6 21$IPC=6.3E-5 9
209PO CG M$EKC=0.0044 10 (tentative) from 1974JA26; EKC=0.0044 10 from 1973AF01
209PO L 2312.04 9 9/2+
209PO E 70.9 19 6.138 13 70.9 19
209POS E CK=0.7860 1$CL=0.16016 8$CM+=0.05387 3
209PO G 321.1 1 0.69 3E1 0.0268
209POS G KC=0.0219 3$LC=0.00377 6$MC=0.000885 13
209POS G NC=0.000226 4$OC=4.63E-5 7$PC=5.62E-6 8
209PO CG M$EKC=0.026 15 (tentative) from 1974JA26; EKC AP 0.027 from 1973AF01
209PO G 551.0 1 5.4 2(E2) 0.0256
209POS G KC=0.0182 3$LC=0.00557 8$MC=0.001390 20
209POS G NC=0.000357 5$OC=7.16E-5 10$PC=7.99E-6 12
209PO CG M$EKC=0.0183 from 1974JA26; EKC=0.018 (tentative) from 1971AL31;
209PO2CG EKC=0.024 4 from 1973AF01. K-conversion electrons of 551.0|g and
209PO3CG 552.5|g are not resolved. 1974Ja26 and 1971AL31 assume mult(551|g)=E2.
209PO DG $A2=-0.200 6, A4=-0.027 2 (1983HA51)
209PO G 596.2 1 0.76 LE(E1+M2) 0.0093 21 &
209PO3 G FLAG=Z$
209POS G KC=0.0076 17$LC=0.0013 4$MC=0.00031 9
209POS G NC=7.9E-5 22$OC=1.6E-5 5$PC=2.1E-6 6
209PO CG M$EKC=0.031 5 from 1974JA26 and EKC=0.018 5 from 1973AF01 for the
209PO2CG 596.2G doublet
209PO G 790.2 1 69.8 20E1(+M2) -0.02 +4-3 0.0042221
209POS G KC=0.04 4$LC=0.008 8$MC=0.0019 18
209POS G NC=0.0005 5$OC=0.00010 10$PC=1.3E-5 12
209PO CG M$EKC=0.0033 3, ELC=0.00050 7 from 1974JA26; EKC=0.0040 4 from
209PO2CG 1971AL31; EKC=0.0034 3, ELC=0.00056 14 from 1973AF01
209PO3CG A2=+0.13 4 (1987SI14)
209PO DG $A2=+0.155 1, A4=+0.011 2 (1983HA51)
209PO CG MR$from G(THETA,TEMP) (1987SI14)
209PO G 903.0 1 4.04 12E1(+M2) +0.10 +6-16 0.0039 10
209POS G KC=0.0033 7$LC=0.00055 13$MC=0.00013 3
209POS G NC=3.3E-5 8$OC=6.8E-6 16$PC=8.7E-7 21
209PO CG M$EKC=0.0033 4 from 1974JA26;0.0025 13 from 1971AL31; EKC=0.0028 3 from
209PO2CG 1973AF01
209PO3CG A2=+0.18 13 (1987SI14)
209PO DG $A2=+0.329 8, A4=+0.017 12 (1983HA51)
209PO CG MR$from G(THETA,TEMP) (1987SI14)
209PO G 985.2 1 0.94 10E1 0.00279 Y
209POS G KC=0.00232 4$LC=0.000361 5$MC=8.37E-5 12
209POS G NC=2.14E-5 3$OC=4.46E-6 7$PC=5.69E-7 8
209PO CG M$EKC=0.003 1 from 1973AF01, EKC<0.003 from 1971AL31
209PO DG $A2=-0.345 18, A4=+0.047 30 (1983HA51)
209PO G 1136.5 3 0.075 10(M2) 0.0356 B
209POS G KC=0.0286 4$LC=0.00534 8$MC=0.001273 18
209POS G NC=0.000328 5$OC=6.86E-5 10$PC=8.83E-6 13$IPC=2.24E-7 4
209PO CG M$EKC=0.037 12 (tentative) from 1974JA26
209PO G 1767.0 1 0.56 3M2 0.01151
209POS G KC=0.00925 13$LC=0.001634 23$MC=0.000386 6
209POS G NC=9.95E-5 14$OC=2.08E-5 3$PC=2.69E-6 4$IPC=0.0001172 17
209PO CG M$EKC=0.0096 20 from 1974JA26, EKC AP 0.0045 from 1973AF01
209PO L 2654.38 20 (5/2+)
209PO E 0.084 6 8.74 4 0.084 6
209POS E CK=0.7752 3$CL=0.1678 2$CM+=0.05697 7
209PO G 1478.9 3 0.044 4 B
209PO G 2109.5 3 0.045 4 Y
209PO CG E$from 1974Ja26. 1973Af01 report 2108.2 6, 1971Al31 report
209POxCG 2111 1
209PO G 2654.4 4 0.003 1 B
209PO L 2835.67 13(9/2+,11/2-)
209PO E 0.17 3 8.19 8 0.17 3
209POS E CK=0.7641 5$CL=0.1757 3$CM+=0.06018 12
209PO G 1074.6 1 0.22 2
209PO G 1427.0 3 0.031 6 B
209PO L 2864.50 11 11/2+
209PO E 8.4 3 6.453 18 8.4 3
209POS E CK=0.7616 5$CL=0.1775 4$CM+=0.06090 14
209PO G 552.5 2 1.7 2M1(+E2) 0.4 LT 0.093 6
209POS G KC=0.076 5$LC=0.0132 6$MC=0.00310 14
209POS G NC=0.00080 4$OC=0.000167 8$PC=2.15E-5 11
209PO CG M$K-conversion electrons of 551.0|g and 552.5|g are not
209PO2CG resolved. 1974JA26 and 1971AL31 assume mult=E2 for the 551|g, as
209PO3CG required by the decay scheme, and deduce |a(K)(552|g)=0.086 10 and
209PO4CG 0.070 25, respectively, giving mult(552|g)=M1(+E2).
209PO DG $A2=-0.643 26, A4=+0.313 43 (1983HA51)
209PO G 1103.4 1 5.93 20M1+E2 1.6 +8-5 0.0089 18
209POS G KC=0.0072 15$LC=0.00130 23$MC=0.00031 6
209POS G NC=7.9E-5 14$OC=1.6E-5 3$PC=2.1E-6 4$IPC=2.0E-7 3
209PO CG M$EKC=0.0090 9, ELC=0.0016 4 from 1974JA26; EKC=0.0085 17 from
209PO2CG 1971AL31; EKC=0.0059 10, ELC=0.00081 21 from 1973AF01
209PO3CG A2=+0.83 12 (1987SI14)
209PO DG $A2=+0.866 5, A4=+0.097 8 (1983HA51)
209PO CG MR$2.2 6 from G(THETA,TEMP) (1987SI14).
209PO G 1148.8 3 0.86 10[E1] 0.00213 B
209POS G KC=0.001769 25$LC=0.000272 4$MC=6.32E-5 9
209POS G NC=1.619E-5 23$OC=3.37E-6 5$PC=4.32E-7 6$IPC=4.04E-6 7
209PO CG M$EKC=0.0018 (tentative) from 1974JA26, K-conversion electrons of
209PO2CG 1147.6|g and 1148.8|g are not resolved. 1974JA26 assumed
209PO3CG mult(1148.8|g)=E1 and divided the I(ceK) intensity accordingly.
209PO G 1537.7 1 0.53 4
209PO G 2319.6 4 0.008 2 B
209PO L 2902.35 11 11/2+
209PO E 1.30 5 7.201 20 1.30 5
209POS E CK=0.7579 6$CL=0.1801 4$CM+=0.06198 16
209PO G 1141.3 1 0.36 2M1+E2 1.2 +7-4 0.0094 19
209POS G KC=0.0077 16$LC=0.00135 24$MC=0.00032 6
209POS G NC=8.2E-5 14$OC=1.7E-5 3$PC=2.2E-6 4$IPC=9.8E-7 14
209PO CG M$EKC=0.019 6 from 1974JA26; EKC=0.0069 15 from 1973AF01
209PO G 1484.7 2 0.10 1[E1] 1.52E-3
209POS G KC=0.001140 16$LC=0.0001735 25$MC=4.02E-5 6
209POS G NC=1.029E-5 15$OC=2.15E-6 3$PC=2.77E-7 4$IPC=0.0001566 22
209PO G 1575.5 1 0.96 5E1 1.46E-3
209POS G KC=0.001033 15$LC=0.0001567 22$MC=3.63E-5 5
209POS G NC=9.29E-6 13$OC=1.94E-6 3$PC=2.50E-7 4$IPC=0.000218 3
209PO CG M$EKC AP 0.00116 from 1973AF01
209PO2CG A2=+0.4 4 (1987SI14)
209PO DG $A2=+0.349 14, A4=-0.012 25 (1983HA51)
209PO G 2357.7 6 0.006 2 B
209PO L 2908.46 10 11/2+
209PO E 4.59 13 6.643 16 4.59 13
209POS E CK=0.7572 6$CL=0.1806 4$CM+=0.06217 16
209PO G 596.2 1 0.76 LE(M1+E2) 0.0800 &
209PO3 G FLAG=Z$
209POS G KC=0.0653 10$LC=0.01121 16$MC=0.00264 4
209POS G NC=0.000678 10$OC=0.0001421 20$PC=1.84E-5 3
209PO CG M$EKC=0.031 5 from 1974JA26 and EKC=0.018 5 from 1973AF01 for the
209PO2CG 596.2G doublet
209PO G 1147.6 1 1.50 10E2(+M1) 0.01459
209POS G KC=0.01195 17$LC=0.00201 3$MC=0.000472 7
209POS G NC=0.0001215 17$OC=2.55E-5 4$PC=3.30E-6 5$IPC=1.720E-6 25
209PO CG M$EKC=0.005 1 (tentative) from 1974JA26; EKC=0.005 3 from 1971AL31;
209PO2CG EKC=0.0038 7 from 1973AF01. K-conversion electrons of 1147.6|g and
209PO3CG 1148.8|g are not resolved. 1974JA26 assumed mult(1148.8|g)=E1,
209PO4CG divided the I(ceK) intensity accordingly, and deduced |a(K)(1147.6|g).
209PO DG $A2=+0.631 13, A4=+0.059 19 (1983HA51)
209PO cG RI$from 1974Ja26. 2.4 {I1} from 1971Al31 and 2.4 {I2} from 1973Af01 are
209PO2cG for the doublet
209PO G 1192.8 2 0.18 2[E1] 0.00200
209POS G KC=0.001657 24$LC=0.000255 4$MC=5.90E-5 9
209POS G NC=1.513E-5 22$OC=3.15E-6 5$PC=4.05E-7 6$IPC=1.264E-5 19
209PO G 1490.8 1 0.30 2[E1] 1.52E-3
209POS G KC=0.001133 16$LC=0.0001723 25$MC=3.99E-5 6
209POS G NC=1.022E-5 15$OC=2.13E-6 3$PC=2.75E-7 4$IPC=0.0001606 23
209PO G 1581.6 1 1.98 7E1 1.45E-3
209POS G KC=0.001026 15$LC=0.0001557 22$MC=3.60E-5 5
209POS G NC=9.23E-6 13$OC=1.93E-6 3$PC=2.49E-7 4$IPC=0.000223 4
209PO CG M$EKC=0.00087 40 (tentative) from 1974JA26, EKC AP 0.00076 from
209PO2CG 1973AF01, A2=+0.36 20 (1987SI14)
209PO DG $A2=+0.319 8, A4=+0.020 13 (1983HA51)
209PO CG MR$0.0 2 from G(THETA,TEMP) (1987SI14)
209PO G 2363.7 4 0.015 2 B
209PO L 2978.26 10 11/2+
209PO E 5.08 13 6.468 16 5.08 13
209POS E CK=0.7484 8$CL=0.1869 6$CM+=0.06473 22
209PO G 666.1 1 2.05 7E2(+M1) +3.6 GT 0.0183 16
209POS G KC=0.0138 14$LC=0.00343 19$MC=0.00084 5
209POS G NC=0.000216 12$OC=4.38E-5 24$PC=5.1E-6 4
209PO CG M$EKC=0.013 2, ELC=0.0030 8 from 1974JA26; EKC=0.0140 14 from 1973AF01
209PO2CG A2=-0.54 26 (1987SI14)
209PO DG $A2=-0.192 10, A4=+0.386 17 (1983HA51)
209PO CG MR$sign from G(THETA,TEMP) (MR=+4.7 +390-18) (1987SI14)
209PO G 1217.2 1 1.22 8M1+E2 1.0 +12-6 0.009 3
209POS G KC=0.0072 23$LC=0.0012 4$MC=0.00029 9
209POS G NC=7.5E-5 21$OC=1.6E-5 5$PC=2.0E-6 6$IPC=7.6E-6 18
209PO CG M$EKC=0.0071 20 (tentative) from 1974JA26, EKC AP 0.0036 from 1973AF01,
209PO2CG A2=+0.6 3 (1987SI14)
209PO DG $A2=+0.884 17, A4=+0.130 26 (1983HA51)
209PO G 1262.6 1 2.07 8E1(+M2) +0.09 +12-270.0020 9
209POS G KC=0.0019 5$LC=0.00031 8$MC=7.2E-5 19
209POS G NC=1.9E-5 5$OC=3.9E-6 11$PC=5.0E-7 14$IPC=3.52E-5 9
209PO CG M$EKC=0.0018 4 from 1974JA26; EKC=0.00102 22 from 1973AF01
209PO2CG A2=+0.2 2 (1987SI14)
209PO DG $A2=+0.258 10, A4=+0.040 17 (1983HA51)
209PO CG MR$from G(THETA,TEMP) (1987SI14)
209PO G 1456.6 2 0.13 1
209PO G 1651.3 3 0.045 4 Y
209PO G 2433.44 20 0.015 2 B
209PO L 3072.66 12(9/2+)
209PO E 0.304 12 7.475 22 0.304 12
209POS E CK=0.7303 13$CL=0.1997 9$CM+=0.0700 4
209PO G 1311.7 2 0.060 6
209PO G 1356.9 1 0.18 1
209PO G 1745.9 2 0.091 5
209PO G 2528.1 6 0.003 1 B
209PO L 3251.63 24 ?
209PO E 0.112 21 7.25 9 0.112 21
209POS E CK=0.631 7$CL=0.270 5$CM+=0.0996 20
209PO G 415.8 6 0.06 2 B
209PO G 939.5 3 0.05 1 B
209PO G 1730.0 4 0.013 2 B