*************************** 786 ******************************************* Ref. "Relativistic fine structure oscillator strengths for Li-like ions: C IV - Si XII, S XIV, Ar XVI, Ca XVIII, Ti XX, Cr XXII, and Ni XXVI" Sultana N. Nahar, Astron. & Astrophys. 389, 716 (2002) ************************************************************************** Ti XX : Lifetimes of fine structure levels The contents of the file: -------------------------- Lifetimes calculated from the fine structure E1 transitions of the above paper Note: Thise lifetimes do not include forbidden transitions ------------------------------------------------------------------------------ Level J Ij E(Ry) Lifetime(s) #transitions ------------------------------------------------------------------------------ 1 1s2 2s 2Se 0.5 1 -1.0476E+02 Infinity 0 2 1s2 3s 2Se 0.5 2 -4.5837E+01 7.094E-13 2 3 1s2 1Se 4s 2 S e 0.5 3 -2.5951E+01 1.018E-12 4 4 1s2 1Se 5s 2 S e 0.5 4 -1.6458E+01 1.637E-12 6 5 1s2 1Se 6s 2 S e 0.5 5 -1.1367E+01 2.522E-12 8 6 1s2 1Se 7s 2 S e 0.5 6 -8.3209E+00 3.738E-12 10 7 1s2 1Se 8s 2 S e 0.5 7 -6.3546E+00 5.330E-12 12 8 1s2 1Se 9s 2 S e 0.5 8 -5.0110E+00 7.377E-12 14 9 1s2 1Se10s 2 S e 0.5 9 -4.0528E+00 9.848E-12 16 10 1s2 2p 2Po 0.5 1 -1.0181E+02 6.835E-10 1 11 1s2 3p 2Po 0.5 2 -4.5017E+01 2.719E-13 2 12 1s2 4p 2Po 0.5 3 -2.5188E+01 5.238E-13 4 13 1s2 5p 2Po 0.5 4 -1.6094E+01 8.621E-13 6 14 1s2 6p 2Po 0.5 5 -1.1136E+01 1.355E-12 8 15 1s2 7p 2Po 0.5 6 -8.1657E+00 2.035E-12 10 16 1s2 8p 2Po 0.5 7 -6.2065E+00 2.909E-12 13 17 1s2 9p 2Po 0.5 8 -4.9307E+00 4.064E-12 15 18 1s2 1Se10p 2 P o 0.5 9 -4.0188E+00 5.500E-12 16 19 1s2 3d 2De 1.5 1 -4.4525E+01 9.421E-14 4 20 1s2 4d 2De 1.5 2 -2.5051E+01 2.220E-13 6 21 1s2 5d 2De 1.5 3 -1.6003E+01 4.230E-13 10 22 1s2 6d 2De 1.5 4 -1.1100E+01 7.189E-13 13 23 1s2 7d 2De 1.5 5 -8.1566E+00 1.131E-12 16 24 1s2 8d 2De 1.5 6 -6.2338E+00 1.674E-12 17 25 1s2 1Se 9d 2 D e 1.5 7 -4.9438E+00 2.380E-12 19 26 1s2 1Se10d 2 D e 1.5 8 -4.0042E+00 3.248E-12 24 27 1s2 2p 2Po 1.5 1 -1.0125E+02 4.010E-10 1 28 1s2 3p 2Po 1.5 2 -4.4853E+01 2.795E-13 2 29 1s2 4p 2Po 1.5 3 -2.5188E+01 5.390E-13 5 30 1s2 5p 2Po 1.5 4 -1.6094E+01 8.836E-13 8 31 1s2 6p 2Po 1.5 5 -1.1136E+01 1.385E-12 11 32 1s2 7p 2Po 1.5 6 -8.1657E+00 2.077E-12 14 33 1s2 8p 2Po 1.5 7 -6.2065E+00 2.967E-12 19 34 1s2 9p 2Po 1.5 8 -4.9307E+00 4.141E-12 22 35 1s2 1Se10p 2 P o 1.5 9 -4.0138E+00 5.596E-12 23 36 1s2 3d 2De 2.5 1 -4.4471E+01 9.470E-14 2 37 1s2 4d 2De 2.5 2 -2.5042E+01 2.237E-13 3 38 1s2 5d 2De 2.5 3 -1.6003E+01 4.258E-13 7 39 1s2 6d 2De 2.5 4 -1.1100E+01 7.240E-13 11 40 1s2 7d 2De 2.5 5 -8.1566E+00 1.139E-12 14 41 1s2 8d 2De 2.5 6 -6.2338E+00 1.686E-12 16 42 1s2 1Se 9d 2 D e 2.5 7 -4.9416E+00 2.395E-12 17 43 1s2 1Se10d 2 D e 2.5 8 -4.0026E+00 3.270E-12 21 44 1s2 4f 2Fo 2.5 1 -2.4997E+01 4.510E-13 4 45 1s2 1Se 5f 2 F o 2.5 2 -1.6009E+01 8.729E-13 4 46 1s2 1Se 6f 2 F o 2.5 3 -1.1118E+01 1.496E-12 7 47 1s2 1Se 7f 2 F o 2.5 4 -8.1680E+00 2.358E-12 10 48 1s2 1Se 8f 2 F o 2.5 5 -6.2538E+00 3.489E-12 13 49 1s2 1Se 9f 2 F o 2.5 6 -4.9411E+00 4.942E-12 18 50 1s2 1Se10f 2 F o 2.5 7 -4.0022E+00 6.733E-12 21 51 1s2 1Se 5g 2 G e 3.5 1 -1.6003E+01 1.475E-12 3 52 1s2 1Se 6g 2 G e 3.5 2 -1.1114E+01 2.524E-12 5 53 1s2 1Se 7g 2 G e 3.5 3 -8.1658E+00 3.971E-12 8 54 1s2 1Se 8g 2 G e 3.5 4 -6.2522E+00 5.877E-12 12 55 1s2 1Se 9g 2 G e 3.5 5 -4.9401E+00 8.309E-12 14 56 1s2 1Se10g 2 G e 3.5 6 -4.0014E+00 1.132E-11 17 57 1s2 4f 2Fo 3.5 1 -2.4997E+01 4.529E-13 2 58 1s2 1Se 5f 2 F o 3.5 2 -1.6003E+01 8.737E-13 4 59 1s2 1Se 6f 2 F o 3.5 3 -1.1114E+01 1.497E-12 6 60 1s2 1Se 7f 2 F o 3.5 4 -8.1657E+00 2.361E-12 9 61 1s2 1Se 8f 2 F o 3.5 5 -6.2522E+00 3.494E-12 11 62 1s2 1Se 9f 2 F o 3.5 6 -4.9400E+00 4.949E-12 16 63 1s2 1Se10f 2 F o 3.5 7 -4.0014E+00 6.744E-12 19 64 1s2 1Se 5g 2 G e 4.5 1 -1.5999E+01 1.471E-12 2 65 1s2 1Se 6g 2 G e 4.5 2 -1.1112E+01 2.524E-12 4 66 1s2 1Se 7g 2 G e 4.5 3 -8.1644E+00 3.972E-12 7 67 1s2 1Se 8g 2 G e 4.5 4 -6.2513E+00 5.881E-12 9 68 1s2 1Se 9g 2 G e 4.5 5 -4.9395E+00 8.317E-12 13 69 1s2 1Se10g 2 G e 4.5 6 -4.0010E+00 1.133E-11 16 70 1s2 1Se 6h 2 H o 4.5 1 -1.1112E+01 3.799E-12 3 71 1s2 1Se 7h 2 H o 4.5 2 -8.1645E+00 6.002E-12 5 72 1s2 1Se 8h 2 H o 4.5 3 -6.2512E+00 8.895E-12 9 73 1s2 1Se 9h 2 H o 4.5 4 -4.9395E+00 1.258E-11 11 74 1s2 1Se10h 2 H o 4.5 5 -4.0010E+00 1.714E-11 14 75 1s2 1Se 7i 2 I e 5.5 1 -8.1637E+00 8.432E-12 3 76 1s2 1Se 8i 2 I e 5.5 2 -6.2506E+00 1.254E-11 6 77 1s2 1Se 9i 2 I e 5.5 3 -4.9391E+00 1.776E-11 9 78 1s2 1Se10i 2 I e 5.5 4 -4.0006E+00 2.421E-11 12 79 1s2 1Se 6h 2 H o 5.5 1 -1.1111E+01 3.802E-12 2 80 1s2 1Se 7h 2 H o 5.5 2 -8.1636E+00 6.006E-12 4 81 1s2 1Se 8h 2 H o 5.5 3 -6.2506E+00 8.903E-12 6 82 1s2 1Se 9h 2 H o 5.5 4 -4.9391E+00 1.259E-11 9 83 1s2 1Se10h 2 H o 5.5 5 -4.0007E+00 1.716E-11 12 84 1s2 1Se 7i 2 I e 6.5 1 -8.1630E+00 8.439E-12 2 85 1s2 1Se 8i 2 I e 6.5 2 -6.2502E+00 1.255E-11 3 86 1s2 1Se 9i 2 I e 6.5 3 -4.9388E+00 1.777E-11 6 87 1s2 1Se10i 2 I e 6.5 4 -4.0004E+00 2.422E-11 9 88 1s2 1Se 8k 2 K o 6.5 1 -6.2502E+00 1.677E-11 4 89 1s2 1Se 9k 2 K o 6.5 2 -4.9387E+00 2.381E-11 6 90 1s2 1Se10k 2 K o 6.5 3 -4.0004E+00 3.251E-11 9 91 1s2 1Se 9l 2 L e 7.5 1 -4.9384E+00 3.069E-11 4 92 1s2 1Se10l 2 L e 7.5 2 -4.0003E+00 4.201E-11 5 93 1s2 1Se 8k 2 K o 7.5 1 -6.2498E+00 1.678E-11 2 94 1s2 1Se 9k 2 K o 7.5 2 -4.9385E+00 2.382E-11 3 95 1s2 1Se10k 2 K o 7.5 3 -4.0003E+00 3.252E-11 7 96 1s2 1Se 9l 2 L e 8.5 1 -4.9382E+00 3.070E-11 2 97 1s2 1Se10l 2 L e 8.5 2 -4.0002E+00 4.202E-11 3 98 1s2 1Se10m 2 M o 8.5 1 -4.0001E+00 5.259E-11 4 --------------------------------------------------------------------------