140CE 140PR EC DECAY (3.39 M) 201701
140CE H TYP=UPD$AUT=V.P. Chechev, N.K.Kuzmenko$CUT=10-JAN-2017$
140CE H TYP=FUL$AUT=N. NICA$CIT=NDS 108,1287 (2007)$CUT=1-Feb-2006$
140CE C References: 1965Eb01, 1968Ab17, 1968Bo25,1969Hi03, 1970Ja10, 1970Ka18,
140CE2C 1977Ca12, 1982Ad02, 1984Ju01, 2007NI07, 2008Ki07,2012Wa38
140CE T Auger electrons and ^X ray energies and emission intensities:
140CE T {U Energy (keV)} {U Intensity } {U Line }
140CE T
140CE T 34.2793 10.77 24 XKA2
140CE T 34.72 19.7 5 XKA1
140CE T
140CE T 39.1705 |] XKB3
140CE T 39.2578 |] 5.94 14 XKB1
140CE T 39.549 |] XKB5II
140CE T
140CE T 40.233 |] XKB2
140CE T 40.337 |] 1.51 5 XKB4
140CE T 40.423 |] XKO23
140CE T
140CE T 4.2868-6.3412 5.36 12 XL (total)
140CE T 4.2868 0.104 4 XLL
140CE T 4.822-4.8411 2.64 8 XLA
140CE T 4.7274 0.0383 12 XLC
140CE T 5.2625-5.6103 2.22 5 XLB
140CE T 5.8755-6.3412 0.356 8 XLG
140CE T
140CE T 27.19-28.828 |] KLL AUGER
140CE T 32.392-34.7 |] 3.75 19 ^KLX AUGER
140CE T 37.57-40.4 |] KXY AUGER
140CE T 2.8542-6.5092 36.95 28 L AUGER
140CE N 1.0 1.0 1 1.0
140PR P 0.0 1+ 3.39 M 1 3388 6
140CE L 0 0+ STABLE
140CE E 50.99 3048.4 3 4.4
140CE2 E EAV=1067 3$CK=0.8498 14$CL=0.1179 10$CM=0.0260 5$CN= $CO=
140CE L 1596.237 252+ 0.0916 PS 19
140CE E 0.0067 7 0.261 226.1
140CE2 E EAV=353 3$CK=0.8473 14$CL=0.1197 10$CM=0.0265 5$CN= $CO=
140CE G 1596.227 250.483 14E2 8.98E-413
140CE2 G KC=6.76E-4 10$LC=8.63E-5 12$MC=1.79E-5 3
140CE L 1903.32 6 0+ 0.40 NS 3
140CE E 0.00093 160.252 256
140CE2 E EAV=218 3$CK=0.8463 14$CL=0.1206 10$CM=0.0267 5$CN= $CO=
140CE G 307.08 6 0.145 15E2 0.0453 7
140CE2 G KC=0.0364 6$LC=0.00696 10$MC=1495E-6 21
140CE G 1903.31 6 E0
140CE L 2347.884 252+
140CE E 0.0374 276.5
140CE2 E EAV= $CK=0.8435 14$CL=0.1226 10$CM=0.0272 5$CN= $CO=
140CE G 751.645 350.0299 26M1+E2 0.38 4 0.005489
140CE2 G KC=0.00471 8$LC=6.13E-4 10$MC=1277E-7 20
140CE G 2347.863 250.0073 7 E2 8.45E-412
140CE2 G KC=3.33E-4 5$LC=4.15E-5 6$MC=8.60E-6 12
140CE L 2521.431 252+
140CE E 0.038 3 6.3
140CE2 E EAV= $CK=0.8416 15$CL=0.124 1$CM=0.0276 5$CN= $CO=
140CE G 925.191 350.0251 24E2+M1 0.22 4 0.003446
140CE2 G KC=0.00296 5$LC=3.81E-4 6$MC=7.92E-5 12
140CE G 2521.407 250.0128 10E2 8.81E-413
140CE2 G KC=2.93E-4 5$LC=3.65E-5 6$MC=7.55E-6 11
140CE L 2547.23 4 1+
140CE E 0.0021 7 8.7
140CE2 E EAV= $CK=0.8413 15$CL=0.1243 11$CM=0.0277 5$CN= $CO=
140CE G 950.99 5 0.0019 7 M1(+E2) 0.01 7 0.003275
140CE2 G KC=0.00282 4$LC=3.61E-4 5$MC=7.52E-5 11
140CE G 2547.21 4 22700E-816M1 9.62E-414
140CE2 G KC=3.18E-4 5$LC=3.97E-5 6$MC=8.24E-6 12
140CE L 2899.66 152+
140CE E 0.00033 117.9
140CE2 E EAV= $CK=0.8324 16$CL=0.1310 11$CM=0.0294 6$CN= $CO=
140CE G 1303.42 150.00012 6
140CE G 2899.63 150.00021 9 E2 9.79E-414
140CE2 G KC=2.30E-4 4$LC=2.84E-5 4$MC=5.88E-6 9
140CE L 3016.9 5 0+
140CE E 0.0063 9 6.3
140CE2 E EAV= $CK=0.8252 17$CL=0.1364 12$CM=0.0309 6$CN= $CO=
140CE G 1420.7 5 0.0063 9 E2 1035E-615
140CE2 G KC=8.46E-4 12$LC=1089E-7 16$MC=2.27E-5 4
140CE G 3016.9 5 E0
140CE L 3118.55 162+
140CE E 0.0008 1 6.9
140CE2 E EAV= $CK=0.8129 20$CL=0.1457 14$CM=0.0333 7$CN= $CO=
140CE G 3118.51 160.00082 10(E2) 1043E-615
140CE2 G KC=2.03E-4 3$LC=2.50E-5 4$MC=5.18E-6 8
140CE L 3320.4 6 2+
140CE E 0.00007 4 6.4
140CE2 E EAV= $CK=0.524 62$CL=0.360 46$CM=0.093 12$CN= $CO=
140CE G 3320.4 6 0.00007 4 (E2) 1102E-616
140CE2 G KC=1.82E-4 3$LC=2.24E-5 4$MC=4.64E-6 7