140LA 140BA B- DECAY (12.753 D) 201412
140LA H TYP=UPD$AUT=V.P.Chechev and N.K.Kuzmenko$CUT=25-JUN-2014$
140LA H TYP=Update$AUT=M.M.Bé$CUT=19-JUN-2008$
140LA H TYP=FUL$AUT=R.G.Helmer$CUT=23-NOV-2003$
140LA C History: Type=UPD;Author=V.P.Chechev, N.K.Kuzmenko;Cut=25-JUN-2014
140LA2C Type=Update;Author=M.M.Bé;Cutoff date=19-JUN-2008
140LA3C Type=FUL;Author=R.G.Helmer;Cutoff date=23-NOV-2003
140LA C References: 1965Si17, 1966Mo16, 1970Ke09, 1969Ka33, 1971Ba28, 1973Ra10,
140LA2C 1975Ha50, 1976Li06, 1977Ge12, 1977De34, 1982Ad02, 1982HoZJ, 1983Wa26,
140LA3C 1990Me03, 1991Ch05, 1992Un01, 1998Si17, 2002Un02, 2002Ba85, 2004BeZR,
140LA4C 2007Ni07, 2008Ki07, 2014Wa38, 2012Fi12, 2014Un01
140LA T Auger electrons and ^X ray energies and emission intensities:
140LA T {U Energy (keV)} {U Intensity } {U Line }
140LA T
140LA T 33.0344 0.552 12 XKA2
140LA T 33.4421 1.014 21 XKA1
140LA T
140LA T 37.7206 |] XKB3
140LA T 37.8015 |] 0.302 7 XKB1
140LA T 38.075 |] XKB5II
140LA T 39.095 |] XKB5I
140LA T
140LA T 38.7303 |] XKB2
140LA T 38.828 |] 0.0764 24 XKB4
140LA T 39.91 |] XKO23
140LA T
140LA T 4.1174-6.0724 13.7 4 XL (total)
140LA T 4.1174 0.148 7 XLL
140LA T 4.6338-4.6504 3.81 15 XLA
140LA T 4.5248 0.0763 30 XLC
140LA T 5.0412-5.3814 7.87 19 XLB
140LA T 5.6198-6.0724 1.77 4 XLG
140LA T
140LA T 26.24-27.795 |] KLL AUGER
140LA T 31.231-33.428 |] 0.204 10 ^KLX AUGER
140LA T 36.2-38.9 |] KXY AUGER
140LA T 2.7-6.2 99.6 19 L AUGER
140LA N 1.0 1.0 1 1.0
140BA P 0.0 0+ 12.753 D 5 1048 8
140LA L 0 3- 1.67858 D 21
140LA L 29.9641 6 2- 0.25 NS 4
140LA B 1018 8 26 4 8.8 1U
140LAS B EAV=362 3
140LA G 29.9641 6 14.5 4 M1(+E2) 5.36 8
140LA2 G KC= $LC=4.25 6$MC=0.884 13
140LA L 43.844 181- 0.52 NS 14
140LA B 1004 8 36 3 8 1
140LAS B EAV=345 3
140LA G 13.880 181.16 4 M1+E2 0.0100 55 53.8 19
140LA2 G KC= $LC=42.6 15$MC=8.9 4
140LA L 63.1790 7 4-
140LA G 63.1790 7 30000E-915M1 4.05 6
140LA2 G KC=3.45 5$LC=0.472 7$MC=0.0983 14
140LA L 162.6591 192- 0.01 NS
140LA B 885 8 3.9 2 9.3 1U
140LAS B EAV=311 3
140LA G 99.4801 2020000E-912[E2] 2.00 3
140LA2 G KC=1.208 17$LC=0.620 9$MC=0.137 2
140LA G 118.815 180.0611 21M1 0.661 10
140LA2 G KC=0.564 8$LC=0.0765 11$MC=0.01591 23
140LA G 132.695 2 0.202 6 M1 0.484 7
140LA2 G KC=0.414 6$LC=0.0559 8$MC=0.01163 17
140LA G 162.6591 196.32 14M1(+E2) 0.275 4
140LA2 G KC=0.235 4$LC=0.0317 5$MC=0.00659 11
140LA L 467.63 3 1- 7.7 NS
140LA B 580 8 9.73 11 7.8 1
140LAS B EAV=181 3
140LA G 304.971 304.34 9 M1(+E2) 0.0506 7
140LA2 G KC=0.0434 6$LC=0.00573 8$MC=1.189E-3 17
140LA G 423.786 353.14 6 M1 0.0217 3
140LA2 G KC=0.0186 3$LC=0.00243 4$MC=5.03E-4 7
140LA G 437.666 301.95 4 M1 0.0200 3
140LA2 G KC=0.01716 24$LC=0.00224 4$MC=4.64E-4 7
140LA L 581.106 180-
140LA B 467 8 25.0 5 7.07
140LAS B EAV=141 3
140LA G 113.476 350.0172 13M1 0.753 11
140LA2 G KC=0.643 9$LC=0.0872 13$MC=0.0181 3
140LA G 537.261 2524.6 5 M1 0.0119717
140LA2 G KC=0.01029 15$LC=1.332E-3 19$MC=2.76E-4 4
140LA G 551.141 180.0049 20[E2] 0.0079211
140LA2 G KC=0.00666 10$LC=9.97E-4 14$MC=2.09E-4 3