210AT 210RN EC DECAY (2.4 H) 1978VY01,1973JO09 14NDS 201408
210AT H TYP=FUL$AUT=M. SHAMSUZZOHA BASUNIA$CIT=NDS 121, 561 (2014)$
210AT2 H CUT=31-Mar-2014$
210AT c Measured E|g, I|g, |g|g coin, Ice. Detectors: Ge(Li), Si(Li), magnetic
210AT2c spectrometer.
210AT cG E Weighted average of values from 1978Vy01 and 1973Jo09.
210AT cG RI Weighted average with |h{+2} minimization of values from
210AT2cG 1978Vy01 and 1973Jo09.
210AT cG $|a(K)exp presented here have been deduced by evaluator using
210AT2cG weighted averages with |h{+2} minimization of K-electron and photon
210AT3cG intensities from 1978Vy01 and 1973Jo09. These intensities were
210AT4cG normalized to the same scale using |a(K)(571|g)=0.0793 (M1, theory).
210AT5cG K/L subshell ratios are from 1978Vy01.
210AT cG Measured x-ray intensities: I(K|a{-1}| x ray)=1300 {I120}
210AT2cG (1978Vy01), 1560 {I200} (1973Jo09); I(K|a{-2}| x ray)=760 {I70},
210AT3cG I(K|b{-1}'| x ray)=450 {I45}, I(K|b{-2}'| x ray)=145 {I15} (1978Vy01),
210AT4cG compare with I(K|a{-1}| x ray)=1365, I(K|a{-2}| x ray)=818,
210ATxcG I(K|b{-1}'| x ray)=482, and I(K|b{-2}'| x ray)=150 deduced by
210AT5cG evaluator from decay scheme, and thus confirm the quality and
210ATxcG interpretation of the data.
210AT cG E(A) From 1978Vy01. Tentatively assigned to {+210}Rn |e decay.
210AT DG CC$FROM BrIcc v2.3a (30-Jun-2013) 2008Ki07, "Frozen Orbitals" appr.
210AT cG MR$If no value given it was assumed |d=1.00 for E2/M1,
210AT2cG |d=1.00 for E3/M2 and |d=0.10 for the other multipolarities
210AT cL E$Deduced by evaluator from a least-squares fit to |g-ray energies.
210AT cL J From Adopted Levels.
210RN P 0.0 0+ 2.4 H 1 2367 9
210AT N 0.0471 0.04 1 1.0
210AT cN NR from decay scheme using |SI(|g+ce) (g.s. + 72.2 level)=4
210ATxcN % {I1}.
210AT PN 3
210AT G 147.3 1 9.3 9
210AT G 248 5 AP A
210AT G 437.85 7 21 2 M1 0.197
210ATS G KC=0.1605 23$LC=0.0281 4$MC=0.00665 10
210ATS G NC=0.001721 25$OC=0.000369 6$PC=5.09E-5 8
210AT cG M from |a(K)exp=0.17 {I3}.
210AT G 484.5 5 AP A
210AT G 591.9 1 23 5
210AT cG |a(K)exp|<0.03.
210AT G 673 20 AP A
210AT G 689 10 AP A
210AT G 828 3.5 AP A
210AT G 879.65 7 28 2 (E2) 0.00994
210ATS G KC=0.00769 11$LC=0.001703 24$MC=0.000414 6
210ATS G NC=0.0001070 15$OC=2.24E-5 4$PC=2.90E-6 4
210AT cG M from |a(K)exp|?0.01.
210AT G 1164.5 6 AP A
210AT G 1202.5 1 27 3 M1 0.01398
210ATS G KC=0.01143 16$LC=0.00195 3$MC=0.000458 7
210ATS G NC=0.0001185 17$OC=2.54E-5 4$PC=3.52E-6 5$IPC=7.60E-6 11
210AT cG E,RI from 1978Vy01.
210AT cG M from |a(K)exp=0.013 {I4}.
210AT G 1743 A
210AT L 0.0 (5)+ 8.1 H 4
210AT L 72.65 5 (4)+
210AT G 72.70 7 34717M1 5.87
210ATS G LC=4.47 7$MC=1.059 16
210ATS G NC=0.274 4$OC=0.0588 9$PC=0.00812 12
210AT cG M from |a(L)exp=4.8 {I6}.
210AT L 496.17 5 (4)+
210AT G 423.5 1 91 3M1 0.216
210ATS G KC=0.1755 25$LC=0.0308 5$MC=0.00727 11
210ATS G NC=0.00188 3$OC=0.000403 6$PC=5.58E-5 8
210AT cG M from |a(K)exp=0.19 {I2}, ce(K)/ce(L) exp=4.8 {I7}.
210AT G 496.15 7 86 3M1 0.1414
210ATS G KC=0.1150 17$LC=0.0201 3$MC=0.00474 7
210ATS G NC=0.001228 18$OC=0.000263 4$PC=3.64E-5 5
210AT cG M from |a(K)exp=0.09 {I1}.
210AT L 530.88 6 (3)+
210AT G 458.25 7 1000 M1+E2 0.68 AP 0.1326 AP
210ATS G KC AP 0.1058$LC AP 0.0204$MC AP 0.00487
210ATS G NC AP 0.001261$OC AP 0.000268$PC AP 3.61E-5
210AT cG M,MR from |a(K)exp=0.11 {I1}, ce(K)/ce(L) exp=5.2 {I8}.
210AT L 721.28 6 (3)+
210AT G 190.35 7 86 4M1 1.95
210ATS G KC=1.577 23$LC=0.281 4$MC=0.0665 10
210ATS G NC=0.01724 25$OC=0.00369 6$PC=0.000510 8
210AT cG M from |a(K)exp=1.5 {I2}, ce(K)/ce(L) exp=4.4 {I8}.
210AT G 225.1 1 30 3M1 1.217
210ATS G KC=0.987 14$LC=0.1755 25$MC=0.0415 6
210ATS G NC=0.01076 16$OC=0.00230 4$PC=0.000318 5
210AT cG M from |a(K)exp=1.2 {I2}, ce(K)/ce(L) exp=3.8 {I13}.
210AT G 648.70 7 49613M1 0.0696
210ATS G KC=0.0567 8$LC=0.00982 14$MC=0.00232 4
210ATS G NC=0.000600 9$OC=0.0001285 18$PC=1.778E-5 25
210AT cG M from |a(K)exp=0.056 {I6}, ce(K)/ce(L) exp=5.8 {I8}.
210AT G 721.2 1 40.618(E2) 0.01488
210ATS G KC=0.01116 16$LC=0.00281 4$MC=0.000692 10
210ATS G NC=0.000179 3$OC=3.72E-5 6$PC=4.70E-6 7
210AT cG M M1+E2 from |a(K)exp=0.028 {I3}. Level scheme requires E2.
210AT L 768.95 7 (2)+
210AT G 238.1 1 88 4M1 1.041
210ATS G KC=0.844 12$LC=0.1500 21$MC=0.0355 5
210ATS G NC=0.00919 13$OC=0.00197 3$PC=0.000272 4
210AT cG M from |a(K)exp=0.93 {I10}, ce(K)/ce(L) exp |?6.
210AT G 696.25 7 172 5E2 0.01602
210ATS G KC=0.01193 17$LC=0.00309 5$MC=0.000762 11
210ATS G NC=0.000197 3$OC=4.09E-5 6$PC=5.14E-6 8
210AT cG M from |a(K)exp=0.012 {I1}.
210AT L 984.9 1 (3+)
210AT G 488.7 1 22.010(M1+E2) 0.09 6
210ATS G KC=0.07 5$LC=0.015 7$MC=0.0036 14
210ATS G NC=0.0009 4$OC=0.00019 8$PC=2.6E-5 12
210AT cG M from |a(K)exp|?0.08.
210AT G 911.9 1 35 4
210AT L 1036.7 1(3)+
210AT G 540.0 2 38 5(M1+E2) 0.07 5
210ATS G KC=0.06 4$LC=0.011 5$MC=0.0027 11
210ATS G NC=0.0007 3$OC=0.00015 7$PC=2.0E-5 10
210AT cG M from |a(K)exp|?0.04.
210AT G 964.05 7 76 5M1(+E2) 0.017 9
210ATS G KC=0.013 7$LC=0.0024 11$MC=0.00057 25
210ATS G NC=0.00015 7$OC=3.2E-5 14$PC=4.3E-6 20
210AT cG M from |a(K)exp=0.016 {I3}.
210AT L 1052.76 7 (2)+
210AT G 283.75 7 30.021M1 0.641
210ATS G KC=0.520 8$LC=0.0921 13$MC=0.0218 3
210ATS G NC=0.00564 8$OC=0.001208 17$PC=0.0001669 24
210AT cG M from |a(K)exp=0.73 {I18}.
210AT G 331.7 3 10.015
210AT G 521.9 2 71 5M1 0.1236
210ATS G KC=0.1006 15$LC=0.01754 25$MC=0.00414 6
210ATS G NC=0.001072 15$OC=0.000230 4$PC=3.18E-5 5
210AT cG M from |a(K)exp=0.12 {I2}.
210AT G 980.15 7 16311E2 0.00804
210ATS G KC=0.00630 9$LC=0.001319 19$MC=0.000318 5
210ATS G NC=8.23E-5 12$OC=1.731E-5 25$PC=2.26E-6 4
210AT cG M from |a(K)exp=0.0068 {I11}.
210AT L 1129.00 7(2)+
210AT G 360.00 7 28.717M1 0.335
210ATS G KC=0.272 4$LC=0.0479 7$MC=0.01132 16
210ATS G NC=0.00293 5$OC=0.000628 9$PC=8.67E-5 13
210AT cG M from |a(K)exp=0.30 {I4}.
210AT G 598.2 1 45 4(M1+E2) 0.05 4
210ATS G KC=0.04 3$LC=0.008 4$MC=0.0020 9
210ATS G NC=0.00052 22$OC=0.00011 5$PC=1.5E-5 8
210AT cG M from |a(K)exp|?0.03.
210AT L 1292.23 6 (2)+
210AT G 239.510 10AP
210AT G 255.5 1 58 3M1 0.856
210ATS G KC=0.695 10$LC=0.1232 18$MC=0.0292 4
210ATS G NC=0.00755 11$OC=0.001617 23$PC=0.000223 4
210AT cG M from |a(K)exp=0.71 {I8}, ce(K)/ce(L) exp |?4.
210AT G 307.3 1 47 3M1 0.515
210ATS G KC=0.418 6$LC=0.0739 11$MC=0.01748 25
210ATS G NC=0.00453 7$OC=0.000970 14$PC=0.0001339 19
210AT cG M from |a(K)exp=0.49 {I9}, ce(K)/ce(L) exp=5.6 {I20}.
210AT G 570.95 7 49413M1 0.0974
210ATS G KC=0.0793 12$LC=0.01380 20$MC=0.00326 5
210ATS G NC=0.000843 12$OC=0.000181 3$PC=2.50E-5 4
210AT cG M assumed M1 for normalizing K-conversion electron and photon
210AT2cG intensities.
210AT G 761.4 1 31710M1 0.0457
210ATS G KC=0.0373 6$LC=0.00643 9$MC=0.001517 22
210ATS G NC=0.000393 6$OC=8.41E-5 12$PC=1.164E-5 17
210AT cG M from |a(K)exp=0.032 {I3}, ce(K)/ce(L) exp=5.8 {I11}.
210AT G 796 8AP
210AT L 1488.59 7 (1)+
210AT E 40 3 7.2 1 40 3
210ATS E CK= 0.77 3$CL= 0.169 6$CM+= 0.0575 20
210AT G 196.3 1 19610M1 1.78
210ATS G KC=1.446 21$LC=0.258 4$MC=0.0610 9
210ATS G NC=0.01580 23$OC=0.00338 5$PC=0.000467 7
210AT cG M from |a(K)exp=1.6 {I2}, ce(K)/ce(L) exp=4.7 {I10}.
210AT G 767.30 7 195 6E2 0.01309
210ATS G KC=0.00992 14$LC=0.00239 4$MC=0.000587 9
210ATS G NC=0.0001517 22$OC=3.16E-5 5$PC=4.02E-6 6
210AT cG M from |a(K)exp=0.010 {I1}, ce(K)/ce(L) exp=5.3 {I14}.
210AT G 957.75 7 166 7E2 0.00841
210ATS G KC=0.00657 10$LC=0.001391 20$MC=0.000336 5
210ATS G NC=8.70E-5 13$OC=1.83E-5 3$PC=2.38E-6 4
210AT cG M from |a(K)exp=0.0075 {I12}.
210AT L 1525.52 7 (1)+
210AT E 48 3 7.1 1 48 3
210ATS E CK= 0.77 3$CL= 0.170 6$CM+= 0.0580 21
210AT G 233.3 1 308 9M1 1.102
210ATS G KC=0.893 13$LC=0.1588 23$MC=0.0376 6
210ATS G NC=0.00973 14$OC=0.00208 3$PC=0.000288 4
210AT cG M from |a(K)exp=0.85 {I8}, ce(K)/ce(L) exp=4.0 {I9}.
210AT G 396.55 7 27.514M1 0.258
210ATS G KC=0.209 3$LC=0.0368 6$MC=0.00870 13
210ATS G NC=0.00225 4$OC=0.000482 7$PC=6.66E-5 10
210AT cG M from |a(K)exp=0.25 {I3}.
210AT G 472.80 7 75 3M1 0.1608
210ATS G KC=0.1308 19$LC=0.0229 4$MC=0.00540 8
210ATS G NC=0.001399 20$OC=0.000300 5$PC=4.14E-5 6
210AT cG M from |a(K)exp=0.13 {I2}, ce(K)/ce(L) exp=4.5 {I9}.
210AT G 756.6 1 98 4M1 0.0465
210ATS G KC=0.0379 6$LC=0.00654 10$MC=0.001542 22
210ATS G NC=0.000399 6$OC=8.55E-5 12$PC=1.184E-5 17
210AT cG M from |a(K)exp=0.037 {I4}, ce(K)/ce(L) exp |?5.6.
210AT G 804.2 1 82 4E2 0.01190
210ATS G KC=0.00909 13$LC=0.00212 3$MC=0.000519 8
210ATS G NC=0.0001342 19$OC=2.80E-5 4$PC=3.59E-6 5
210AT cG M from |a(K)exp=0.010 {I2}.
210AT G 994.60 7 173 7E2 0.00782
210ATS G KC=0.00614 9$LC=0.001275 18$MC=0.000308 5
210ATS G NC=7.95E-5 12$OC=1.672E-5 24$PC=2.19E-6 3
210AT cG M from |a(K)exp=0.0060 {I1}.
210AT L 1967.0 1 (1,2)-
210AT G 837 9AP
210AT G 914.15 7 174 6(E1) 0.00332
210ATS G KC=0.00276 4$LC=0.000435 6$MC=0.0001013 15
210ATS G NC=2.61E-5 4$OC=5.56E-6 8$PC=7.57E-7 11
210AT cG M from |a(K)exp=0.0044 {I14}.
210AT G 1198.05 7 138 6E1 0.00207
210ATS G KC=0.001711 24$LC=0.000265 4$MC=6.17E-5 9
210ATS G NC=1.591E-5 23$OC=3.39E-6 5$PC=4.65E-7 7$IPC=1.368E-5 20
210AT cG M from |a(K)exp=0.0022 {I6}.
210AT L 2281.0 1 (0,1)-
210AT E 12 3 4.9 3 12 3
210ATS E CL= 0.7 3$CM+= 0.32 11
210AT G 314.0 1 22615M1 0.486
210ATS G KC=0.394 6$LC=0.0697 10$MC=0.01647 24
210ATS G NC=0.00427 6$OC=0.000914 13$PC=0.0001262 18
210AT cG M from |a(K)exp=0.40 {I5}, ce(K)/ce(L) exp=5.2 {I8}.