C************************** 786 ******************************************c Ref. "Photoionization cross sections and oscillator strengths for oxygen ions: O I - O VIII", Sultana N. Nahar, Phys. Rev. A 58, 3766 (1998) C************************************************************************c O VII : Calculated lifetimes for LS states File contents ------------- i) Table of target/core states ii) Table of lifetimes of bound (negative energy) states ************************************************************************** i) Table of target/core states -------------------------------- Method: lsx, Radiative decay rates file: o7.f C (core) states and energies (Ry): 1 1s 2S 0.00000E+00 2 2s 2S 4.80000E+01 3 2p 2Po 4.80000E+01 4 3s 2S 5.68889E+01 5 3p 2Po 5.68889E+01 6 3d 2D 5.68889E+01 7 4f 2Fo 6.00000E+01 8 4d 2D 6.00000E+01 9 4p 2Po 6.00000E+01 10 4s 2S 6.00000E+01 ----------------------------------------------------------------- ii) Table of lifetimes of bound (negative energy) states ---------------------------------------------------------- nz = 8 , No. of core electrons= 1 Number of bound states= 105 Notes: 1) Find core state, C i, from Core states table above 2) C 0 or n=0 means an equivalent electron state of the ion 3) Lifetime=Inf for some high levels (e.g.n=11) because of no calculated A-value State Transition A-value Lifetime(sec) [C 1 0s]1Se 1(-5.425E+01 Ry) :state 1Se 1 : A-sum (total trans= 0) & Lifetime= 0.0000E+00 inf [C 1 2s]1Se 2(-1.251E+01 Ry) :state 1Se 2 : A-sum (total trans= 0) & Lifetime= 0.0000E+00 inf [C 1 3s]1Se 3(-5.522E+00 Ry) :state 1Po 1->1Se 3 2.0000E+10 1Se 3 : A-sum (total trans= 1) & lifetime= 2.0000E+10 5.0000E-11 [C 1 4s]1Se 4(-3.096E+00 Ry) :state 1Po 1->1Se 4 8.0860E+09 1Po 2->1Se 4 5.5510E+09 1Se 4 : A-sum (total trans= 2) & lifetime= 1.3637E+10 7.3330E-11 [C 1 5s]1Se 5(-1.977E+00 Ry) :state 1Po 1->1Se 5 4.0350E+09 1Po 2->1Se 5 2.6920E+09 1Po 3->1Se 5 1.9110E+09 1Se 5 : A-sum (total trans= 3) & lifetime= 8.6380E+09 1.1577E-10 [C 1 6s]1Se 6(-1.371E+00 Ry) :state 1Po 1->1Se 6 2.2990E+09 1Po 2->1Se 6 1.5000E+09 1Po 3->1Se 6 1.0580E+09 1Po 4->1Se 6 7.8880E+08 1Se 6 : A-sum (total trans= 4) & lifetime= 5.6458E+09 1.7712E-10 [C 1 7s]1Se 7(-1.006E+00 Ry) :state 1Po 1->1Se 7 1.4320E+09 1Po 2->1Se 7 9.2520E+08 1Po 3->1Se 7 6.2280E+08 1Po 4->1Se 7 4.6450E+08 1Po 5->1Se 7 3.6790E+08 1Se 7 : A-sum (total trans= 5) & lifetime= 3.8124E+09 2.6230E-10 [C 1 8s]1Se 8(-7.698E-01 Ry) :state 1Po 1->1Se 8 9.5330E+08 1Po 2->1Se 8 6.1060E+08 1Po 3->1Se 8 4.0250E+08 1Po 4->1Se 8 2.9620E+08 1Po 5->1Se 8 2.3080E+08 1Po 6->1Se 8 1.9030E+08 1Se 8 : A-sum (total trans= 6) & lifetime= 2.6837E+09 3.7262E-10 [C 1 9s]1Se 9(-6.079E-01 Ry) :state 1Po 1->1Se 9 6.6670E+08 1Po 2->1Se 9 4.2440E+08 1Po 3->1Se 9 2.7740E+08 1Po 4->1Se 9 2.0140E+08 1Po 5->1Se 9 1.5410E+08 1Po 6->1Se 9 1.2510E+08 1Po 7->1Se 9 1.0610E+08 1Se 9 : A-sum (total trans= 7) & lifetime= 1.9552E+09 5.1146E-10 [C 1 10s]1Se 10(-4.922E-01 Ry) :state 1Po 1->1Se 10 4.8460E+08 1Po 2->1Se 10 3.0700E+08 1Po 3->1Se 10 2.0010E+08 1Po 4->1Se 10 1.4360E+08 1Po 5->1Se 10 1.0850E+08 1Po 6->1Se 10 8.6550E+07 1Po 7->1Se 10 7.2310E+07 1Po 8->1Se 10 6.2850E+07 1Se10 : A-sum (total trans= 8) & lifetime= 1.4655E+09 6.8236E-10 [C 1 2s]3Se 1(-1.309E+01 Ry) :state 3Se 1 : A-sum (total trans= 0) & Lifetime= 0.0000E+00 inf [C 1 3s]3Se 2(-5.677E+00 Ry) :state 3Po 1->3Se 2 2.2560E+10 3Se 2 : A-sum (total trans= 1) & lifetime= 2.2560E+10 4.4326E-11 [C 1 4s]3Se 3(-3.158E+00 Ry) :state 3Po 1->3Se 3 8.8920E+09 3Po 2->3Se 3 6.1820E+09 3Se 3 : A-sum (total trans= 2) & lifetime= 1.5074E+10 6.6339E-11 [C 1 5s]3Se 4(-2.008E+00 Ry) :state 3Po 1->3Se 4 4.3640E+09 3Po 2->3Se 4 2.9530E+09 3Po 3->3Se 4 2.1030E+09 3Se 4 : A-sum (total trans= 3) & lifetime= 9.4200E+09 1.0616E-10 [C 1 6s]3Se 5(-1.389E+00 Ry) :state 3Po 1->3Se 5 2.4700E+09 3Po 2->3Se 5 1.6360E+09 3Po 3->3Se 5 1.1510E+09 3Po 4->3Se 5 8.6010E+08 3Se 5 : A-sum (total trans= 4) & lifetime= 6.1171E+09 1.6348E-10 [C 1 7s]3Se 6(-1.017E+00 Ry) :state 3Po 1->3Se 6 1.5320E+09 3Po 2->3Se 6 1.0030E+09 3Po 3->3Se 6 6.7340E+08 3Po 4->3Se 6 5.0170E+08 3Po 5->3Se 6 3.9880E+08 3Se 6 : A-sum (total trans= 5) & lifetime= 4.1089E+09 2.4337E-10 [C 1 8s]3Se 7(-7.773E-01 Ry) :state 3Po 1->3Se 7 1.0160E+09 3Po 2->3Se 7 6.5990E+08 3Po 3->3Se 7 4.3430E+08 3Po 4->3Se 7 3.1880E+08 3Po 5->3Se 7 2.4820E+08 3Po 6->3Se 7 2.0540E+08 3Se 7 : A-sum (total trans= 6) & lifetime= 2.8826E+09 3.4691E-10 [C 1 9s]3Se 8(-6.131E-01 Ry) :state 3Po 1->3Se 8 7.0820E+08 3Po 2->3Se 8 4.5750E+08 3Po 3->3Se 8 2.9890E+08 3Po 4->3Se 8 2.1620E+08 3Po 5->3Se 8 1.6510E+08 3Po 6->3Se 8 1.3390E+08 3Po 7->3Se 8 1.1410E+08 3Se 8 : A-sum (total trans= 7) & lifetime= 2.0939E+09 4.7758E-10 [C 1 10s]3Se 9(-4.960E-01 Ry) :state 3Po 1->3Se 9 5.1340E+08 3Po 2->3Se 9 3.3040E+08 3Po 3->3Se 9 2.1530E+08 3Po 4->3Se 9 1.5390E+08 3Po 5->3Se 9 1.1600E+08 3Po 6->3Se 9 9.2330E+07 3Po 7->3Se 9 7.7170E+07 3Po 8->3Se 9 6.7410E+07 3Se 9 : A-sum (total trans= 8) & lifetime= 1.5659E+09 6.3861E-10 [C 1 2p]1Po 1(-1.214E+01 Ry) :state 1Se 1->1Po 1 3.2950E+12 1Se 2->1Po 1 2.3920E+07 1Po 1 : A-sum (total trans= 2) & lifetime= 3.2950E+12 3.0349E-13 [C 1 3p]1Po 2(-5.417E+00 Ry) :state 1Se 1->1Po 2 9.3230E+11 1Se 2->1Po 2 5.0340E+10 1Se 3->1Po 2 3.5140E+06 1De 1->1Po 2 7.7770E+04 1Po 2 : A-sum (total trans= 4) & lifetime= 9.8264E+11 1.0177E-12 [C 1 4p]1Po 3(-3.051E+00 Ry) :state 1Se 1->1Po 3 3.8610E+11 1Se 2->1Po 3 2.2420E+10 1Se 3->1Po 3 6.6560E+09 1Se 4->1Po 3 8.5790E+05 1De 1->1Po 3 7.6590E+08 1De 2->1Po 3 2.0700E+04 1Po 3 : A-sum (total trans= 6) & lifetime= 4.1594E+11 2.4042E-12 [C 1 5p]1Po 4(-1.954E+00 Ry) :state 1Se 1->1Po 4 1.9710E+11 1Se 2->1Po 4 1.1620E+10 1Se 3->1Po 4 3.6810E+09 1Se 4->1Po 4 1.5700E+09 1Se 5->1Po 4 2.8430E+05 1De 1->1Po 4 3.3100E+08 1De 2->1Po 4 4.2030E+08 1De 3->1Po 4 6.8730E+03 1Po 4 : A-sum (total trans= 8) & lifetime= 2.1472E+11 4.6572E-12 [C 1 6p]1Po 5(-1.358E+00 Ry) :state 1Se 1->1Po 5 1.1390E+11 1Se 2->1Po 5 6.7590E+09 1Se 3->1Po 5 2.1750E+09 1Se 4->1Po 5 9.9540E+08 1Se 5->1Po 5 5.1360E+08 1Se 6->1Po 5 1.1440E+05 1De 1->1Po 5 1.7290E+08 1De 2->1Po 5 2.1410E+08 1De 3->1Po 5 2.1630E+08 1De 4->1Po 5 2.9700E+03 1Po 5 : A-sum (total trans= 10) & lifetime= 1.2495E+11 8.0034E-12 [C 1 7p]1Po 6(-9.981E-01 Ry) :state 1Se 1->1Po 6 7.1360E+10 1Se 2->1Po 6 4.2550E+09 1Se 3->1Po 6 1.3820E+09 1Se 4->1Po 6 6.2560E+08 1Se 5->1Po 6 3.4590E+08 1Se 6->1Po 6 2.0460E+08 1Se 7->1Po 6 5.3090E+04 1De 1->1Po 6 1.0290E+08 1De 2->1Po 6 1.1940E+08 1De 3->1Po 6 1.1960E+08 1De 4->1Po 6 1.1530E+08 1De 5->1Po 6 1.2420E+03 1Po 6 : A-sum (total trans= 12) & lifetime= 7.8630E+10 1.2718E-11 [C 1 8p]1Po 7(-7.644E-01 Ry) :state 1Se 1->1Po 7 4.7720E+10 1Se 2->1Po 7 2.8530E+09 1Se 3->1Po 7 9.2920E+08 1Se 4->1Po 7 4.2010E+08 1Se 5->1Po 7 2.3560E+08 1Se 6->1Po 7 1.4620E+08 1Se 7->1Po 7 9.4360E+07 1Se 8->1Po 7 2.7380E+04 1De 1->1Po 7 6.6320E+07 1De 2->1Po 7 7.4620E+07 1De 3->1Po 7 7.2940E+07 1De 4->1Po 7 6.8810E+07 1De 5->1Po 7 6.5240E+07 1De 6->1Po 7 6.3010E+02 1Po 7 : A-sum (total trans= 14) & lifetime= 5.2746E+10 1.8959E-11 [C 1 9p]1Po 8(-6.040E-01 Ry) :state 1Se 1->1Po 8 3.3490E+10 1Se 2->1Po 8 2.0050E+09 1Se 3->1Po 8 6.5480E+08 1Se 4->1Po 8 2.9670E+08 1Se 5->1Po 8 1.6670E+08 1Se 6->1Po 8 1.0420E+08 1Se 7->1Po 8 7.0300E+07 1Se 8->1Po 8 4.8200E+07 1Se 9->1Po 8 1.5230E+04 1De 1->1Po 8 4.5340E+07 1De 2->1Po 8 5.0320E+07 1De 3->1Po 8 4.8180E+07 1De 4->1Po 8 4.4250E+07 1De 5->1Po 8 4.1240E+07 1De 6->1Po 8 3.8770E+07 1De 7->1Po 8 3.5270E+02 1Po 8 : A-sum (total trans= 16) & lifetime= 3.7104E+10 2.6951E-11 [C 1 2p]3Po 1(-1.254E+01 Ry) :state 3Se 1->3Po 1 7.8220E+07 3Po 1 : A-sum (total trans= 1) & lifetime= 7.8220E+07 1.2784E-08 [C 1 3p]3Po 2(-5.526E+00 Ry) :state 3Se 1->3Po 2 5.3140E+10 3Se 2->3Po 2 9.6930E+06 3Po 2 : A-sum (total trans= 2) & lifetime= 5.3150E+10 1.8815E-11 [C 1 4p]3Po 3(-3.096E+00 Ry) :state 3Se 1->3Po 3 2.3800E+10 3Se 2->3Po 3 6.7310E+09 3Se 3->3Po 3 2.2370E+06 3De 1->3Po 3 1.0480E+09 3Po 3 : A-sum (total trans= 4) & lifetime= 3.1581E+10 3.1664E-11 [C 1 5p]3Po 4(-1.977E+00 Ry) :state 3Se 1->3Po 4 1.2330E+10 3Se 2->3Po 4 3.7470E+09 3Se 3->3Po 4 1.5580E+09 3Se 4->3Po 4 7.2180E+05 3De 1->3Po 4 4.4770E+08 3De 2->3Po 4 5.5150E+08 3Po 4 : A-sum (total trans= 6) & lifetime= 1.8635E+10 5.3663E-11 [C 1 6p]3Po 5(-1.371E+00 Ry) :state 3Se 1->3Po 5 7.1680E+09 3Se 2->3Po 5 2.2200E+09 3Se 3->3Po 5 9.9620E+08 3Se 4->3Po 5 5.0330E+08 3Se 5->3Po 5 2.8680E+05 3De 1->3Po 5 2.3380E+08 3De 2->3Po 5 2.7690E+08 3De 3->3Po 5 2.7680E+08 3Po 5 : A-sum (total trans= 8) & lifetime= 1.1675E+10 8.5651E-11 [C 1 7p]3Po 6(-1.006E+00 Ry) :state 3Se 1->3Po 6 4.5130E+09 3Se 2->3Po 6 1.4090E+09 3Se 3->3Po 6 6.2690E+08 3Se 4->3Po 6 3.4260E+08 3Se 5->3Po 6 1.9920E+08 3Se 6->3Po 6 1.3150E+05 3De 1->3Po 6 1.3890E+08 3De 2->3Po 6 1.5450E+08 3De 3->3Po 6 1.5100E+08 3De 4->3Po 6 1.4510E+08 3Po 6 : A-sum (total trans= 10) & lifetime= 7.6803E+09 1.3020E-10 [C 1 8p]3Po 7(-7.699E-01 Ry) :state 3Se 1->3Po 7 3.0230E+09 3Se 2->3Po 7 9.4780E+08 3Se 3->3Po 7 4.2160E+08 3Se 4->3Po 7 2.3410E+08 3Se 5->3Po 7 1.4380E+08 3Se 6->3Po 7 9.1330E+07 3Se 7->3Po 7 6.7280E+04 3De 1->3Po 7 8.9470E+07 3De 2->3Po 7 9.6640E+07 3De 3->3Po 7 9.1960E+07 3De 4->3Po 7 8.5480E+07 3De 5->3Po 7 8.1170E+07 3Po 7 : A-sum (total trans= 12) & lifetime= 5.3064E+09 1.8845E-10 [C 1 9p]3Po 8(-6.079E-01 Ry) :state 3Se 1->3Po 8 2.1230E+09 3Se 2->3Po 8 6.6700E+08 3Se 3->3Po 8 2.9800E+08 3Se 4->3Po 8 1.6580E+08 3Se 5->3Po 8 1.0280E+08 3Se 6->3Po 8 6.8760E+07 3Se 7->3Po 8 4.6460E+07 3Se 8->3Po 8 3.7220E+04 3De 1->3Po 8 6.1150E+07 3De 2->3Po 8 6.5210E+07 3De 3->3Po 8 6.0700E+07 3De 4->3Po 8 5.4810E+07 3De 5->3Po 8 5.0570E+07 3De 6->3Po 8 4.7840E+07 3Po 8 : A-sum (total trans= 14) & lifetime= 3.8121E+09 2.6232E-10 [C 1 10p]3Po 9(-4.922E-01 Ry) :state 3Se 1->3Po 9 1.5480E+09 3Se 2->3Po 9 4.8700E+08 3Se 3->3Po 9 2.1860E+08 3Se 4->3Po 9 1.2140E+08 3Se 5->3Po 9 7.5410E+07 3Se 6->3Po 9 5.0860E+07 3Se 7->3Po 9 3.6100E+07 3Se 8->3Po 9 2.5610E+07 3Se 9->3Po 9 2.1910E+04 3De 1->3Po 9 4.3700E+07 3De 2->3Po 9 4.6310E+07 3De 3->3Po 9 4.2420E+07 3De 4->3Po 9 3.7560E+07 3De 5->3Po 9 3.3750E+07 3De 6->3Po 9 3.1140E+07 3De 7->3Po 9 2.9550E+07 3Po 9 : A-sum (total trans= 16) & lifetime= 2.8274E+09 3.5368E-10 [C 1 3d]1De 1(-5.444E+00 Ry) :state 1Po 1->1De 1 1.5190E+11 1De 1 : A-sum (total trans= 1) & lifetime= 1.5190E+11 6.5833E-12 [C 1 4d]1De 2(-3.062E+00 Ry) :state 1Po 1->1De 2 4.7590E+10 1Po 2->1De 2 1.6950E+10 1Fo 1->1De 2 1.4560E-01 1De 2 : A-sum (total trans= 3) & lifetime= 6.4540E+10 1.5494E-11 [C 1 5d]1De 3(-1.960E+00 Ry) :state 1Po 1->1De 3 2.1590E+10 1Po 2->1De 3 8.0770E+09 1Po 3->1De 3 3.6090E+09 1Fo 1->1De 3 1.2090E+08 1Fo 2->1De 3 8.2470E-02 1De 3 : A-sum (total trans= 5) & lifetime= 3.3397E+10 2.9943E-11 [C 1 6d]1De 4(-1.361E+00 Ry) :state 1Po 1->1De 4 1.1750E+10 1Po 2->1De 4 4.4520E+09 1Po 3->1De 4 2.0910E+09 1Po 4->1De 4 1.1000E+09 1Fo 1->1De 4 5.1910E+07 1Fo 2->1De 4 9.3800E+07 1Fo 3->1De 4 2.0100E-01 1De 4 : A-sum (total trans= 7) & lifetime= 1.9539E+10 5.1180E-11 [C 1 7d]1De 5(-1.000E+00 Ry) :state 1Po 1->1De 5 7.1240E+09 1Po 2->1De 5 2.7180E+09 1Po 3->1De 5 1.2670E+09 1Po 4->1De 5 7.0120E+08 1Po 5->1De 5 4.1730E+08 1Fo 1->1De 5 2.6550E+07 1Fo 2->1De 5 4.5690E+07 1Fo 3->1De 5 6.0440E+07 1Fo 4->1De 5 1.4050E-02 1De 5 : A-sum (total trans= 9) & lifetime= 1.2360E+10 8.0905E-11 [C 1 8d]1De 6(-7.656E-01 Ry) :state 1Po 1->1De 6 4.6620E+09 1Po 2->1De 6 1.7840E+09 1Po 3->1De 6 8.3280E+08 1Po 4->1De 6 4.6480E+08 1Po 5->1De 6 2.8620E+08 1Po 6->1De 6 1.8520E+08 1Fo 1->1De 6 1.5770E+07 1Fo 2->1De 6 2.5970E+07 1Fo 3->1De 6 3.2580E+07 1Fo 4->1De 6 3.8220E+07 1Fo 5->1De 6 4.4250E-03 1De 6 : A-sum (total trans= 11) & lifetime= 8.3275E+09 1.2008E-10 [C 1 9d]1De 7(-6.049E-01 Ry) :state 1Po 1->1De 7 3.2230E+09 1Po 2->1De 7 1.2360E+09 1Po 3->1De 7 5.7910E+08 1Po 4->1De 7 3.2330E+08 1Po 5->1De 7 2.0000E+08 1Po 6->1De 7 1.3350E+08 1Po 7->1De 7 9.1870E+07 1Fo 1->1De 7 1.0280E+07 1Fo 2->1De 7 1.6370E+07 1Fo 3->1De 7 1.9720E+07 1Fo 4->1De 7 2.2170E+07 1Fo 5->1De 7 2.4470E+07 1Fo 6->1De 7 2.9820E-03 1De 7 : A-sum (total trans= 13) & lifetime= 5.8798E+09 1.7007E-10 [C 1 3d]3De 1(-5.448E+00 Ry) :state 3Po 1->3De 1 1.6120E+11 3Po 2->3De 1 1.0630E+06 3De 1 : A-sum (total trans= 2) & lifetime= 1.6120E+11 6.2034E-12 [C 1 4d]3De 2(-3.064E+00 Ry) :state 3Po 1->3De 2 5.3120E+10 3Po 2->3De 2 1.6680E+10 3Po 3->3De 2 3.1570E+05 3De 2 : A-sum (total trans= 3) & lifetime= 6.9800E+10 1.4327E-11 [C 1 5d]3De 3(-1.961E+00 Ry) :state 3Po 1->3De 3 2.4570E+10 3Po 2->3De 3 8.2750E+09 3Po 3->3De 3 3.4290E+09 3Po 4->3De 3 1.1200E+05 3Fo 1->3De 3 1.2300E+08 3De 3 : A-sum (total trans= 5) & lifetime= 3.6397E+10 2.7475E-11 [C 1 6d]3De 4(-1.362E+00 Ry) :state 3Po 1->3De 4 1.3500E+10 3Po 2->3De 4 4.6390E+09 3Po 3->3De 4 2.0640E+09 3Po 4->3De 4 1.0230E+09 3Po 5->3De 4 4.6040E+04 3Fo 1->3De 4 5.2860E+07 3Fo 2->3De 4 9.5340E+07 3De 4 : A-sum (total trans= 7) & lifetime= 2.1374E+10 4.6785E-11 [C 1 7d]3De 5(-1.000E+00 Ry) :state 3Po 1->3De 5 8.2360E+09 3Po 2->3De 5 2.8570E+09 3Po 3->3De 5 1.2710E+09 3Po 4->3De 5 6.7710E+08 3Po 5->3De 5 3.8300E+08 3Po 6->3De 5 2.2270E+04 3Fo 1->3De 5 2.7070E+07 3Fo 2->3De 5 4.6460E+07 3Fo 3->3De 5 6.1380E+07 3De 5 : A-sum (total trans= 9) & lifetime= 1.3559E+10 7.3752E-11 [C 1 8d]3De 6(-7.659E-01 Ry) :state 3Po 1->3De 6 5.4100E+09 3Po 2->3De 6 1.8850E+09 3Po 3->3De 6 8.4230E+08 3Po 4->3De 6 4.5570E+08 3Po 5->3De 6 2.7210E+08 3Po 6->3De 6 1.6820E+08 3Po 7->3De 6 1.1570E+04 3Fo 1->3De 6 1.6090E+07 3Fo 2->3De 6 2.6400E+07 3Fo 3->3De 6 3.3080E+07 3Fo 4->3De 6 3.8770E+07 3De 6 : A-sum (total trans= 11) & lifetime= 9.1477E+09 1.0932E-10 [C 1 9d]3De 7(-6.051E-01 Ry) :state 3Po 1->3De 7 3.7490E+09 3Po 2->3De 7 1.3100E+09 3Po 3->3De 7 5.8890E+08 3Po 4->3De 7 3.1950E+08 3Po 5->3De 7 1.9300E+08 3Po 6->3De 7 1.2550E+08 3Po 7->3De 7 8.2810E+07 3Po 8->3De 7 6.4570E+03 3Fo 1->3De 7 1.0500E+07 3Fo 2->3De 7 1.6660E+07 3Fo 3->3De 7 2.0030E+07 3Fo 4->3De 7 2.2500E+07 3Fo 5->3De 7 2.4820E+07 3De 7 : A-sum (total trans= 13) & lifetime= 6.4632E+09 1.5472E-10 [C 1 10d]3De 8(-4.901E-01 Ry) :state 3Po 1->3De 8 2.7070E+09 3Po 2->3De 8 9.4770E+08 3Po 3->3De 8 4.2810E+08 3Po 4->3De 8 2.3240E+08 3Po 5->3De 8 1.4080E+08 3Po 6->3De 8 9.2480E+07 3Po 7->3De 8 6.3970E+07 3Po 8->3De 8 4.4450E+07 3Po 9->3De 8 3.8280E+03 3Fo 1->3De 8 7.2820E+06 3Fo 2->3De 8 1.1280E+07 3Fo 3->3De 8 1.3190E+07 3Fo 4->3De 8 1.4300E+07 3Fo 5->3De 8 1.5220E+07 3Fo 6->3De 8 1.6270E+07 3De 8 : A-sum (total trans= 15) & lifetime= 4.7344E+09 2.1122E-10 [C 1 4f]1Fo 1(-3.063E+00 Ry) :state 1De 1->1Fo 1 3.3100E+10 1Fo 1 : A-sum (total trans= 1) & lifetime= 3.3100E+10 3.0211E-11 [C 1 5f]1Fo 2(-1.960E+00 Ry) :state 1De 1->1Fo 2 1.0900E+10 1De 2->1Fo 2 6.2070E+09 1Fo 2 : A-sum (total trans= 2) & lifetime= 1.7107E+10 5.8456E-11 [C 1 6f]1Fo 3(-1.361E+00 Ry) :state 1De 1->1Fo 3 5.1480E+09 1De 2->1Fo 3 3.1030E+09 1De 3->1Fo 3 1.7390E+09 1Ge 1->1Fo 3 2.7350E+07 1Ge 2->1Fo 3 1.4700E-05 1Fo 3 : A-sum (total trans= 5) & lifetime= 1.0017E+10 9.9827E-11 [C 1 7f]1Fo 4(-1.000E+00 Ry) :state 1De 1->1Fo 4 2.8940E+09 1De 2->1Fo 4 1.7490E+09 1De 3->1Fo 4 1.0390E+09 1De 4->1Fo 4 6.2310E+08 1Ge 1->1Fo 4 1.1150E+07 1Ge 2->1Fo 4 2.6680E+07 1Fo 4 : A-sum (total trans= 6) & lifetime= 6.3429E+09 1.5766E-10 [C 1 8f]1Fo 5(-7.656E-01 Ry) :state 1De 1->1Fo 5 1.8070E+09 1De 2->1Fo 5 1.0990E+09 1De 3->1Fo 5 6.6030E+08 1De 4->1Fo 5 4.1440E+08 1De 5->1Fo 5 2.6460E+08 1Ge 1->1Fo 5 5.7190E+06 1Ge 2->1Fo 5 1.2580E+07 1Ge 3->1Fo 5 2.0360E+07 1Fo 5 : A-sum (total trans= 8) & lifetime= 4.2840E+09 2.3343E-10 [C 1 9f]1Fo 6(-6.049E-01 Ry) :state 1De 1->1Fo 6 1.2110E+09 1De 2->1Fo 6 7.4070E+08 1De 3->1Fo 6 4.4620E+08 1De 4->1Fo 6 2.8270E+08 1De 5->1Fo 6 1.8840E+08 1De 6->1Fo 6 1.2680E+08 1Ge 1->1Fo 6 3.3790E+06 1Ge 2->1Fo 6 7.0140E+06 1Ge 3->1Fo 6 1.0610E+07 1Ge 4->1Fo 6 1.4570E+07 1Fo 6 : A-sum (total trans= 10) & lifetime= 3.0314E+09 3.2988E-10 [C 1 10f]1Fo 7(-4.900E-01 Ry) :state 1De 1->1Fo 7 8.5420E+08 1De 2->1Fo 7 5.2510E+08 1De 3->1Fo 7 3.1610E+08 1De 4->1Fo 7 2.0100E+08 1De 5->1Fo 7 1.3510E+08 1De 6->1Fo 7 9.4660E+07 1De 7->1Fo 7 6.6650E+07 1Ge 1->1Fo 7 2.1900E+06 1Ge 2->1Fo 7 4.3750E+06 1Ge 3->1Fo 7 6.3030E+06 1Ge 4->1Fo 7 8.1770E+06 1Ge 5->1Fo 7 1.0290E+07 1Fo 7 : A-sum (total trans= 12) & lifetime= 2.2241E+09 4.4961E-10 [C 1 4f]3Fo 1(-3.063E+00 Ry) :state 3De 1->3Fo 1 3.3140E+10 3De 2->3Fo 1 3.0140E+01 3Fo 1 : A-sum (total trans= 2) & lifetime= 3.3140E+10 3.0175E-11 [C 1 5f]3Fo 2(-1.960E+00 Ry) :state 3De 1->3Fo 2 1.0940E+10 3De 2->3Fo 2 6.2030E+09 3De 3->3Fo 2 1.9210E+01 3Fo 2 : A-sum (total trans= 3) & lifetime= 1.7143E+10 5.8333E-11 [C 1 6f]3Fo 3(-1.361E+00 Ry) :state 3De 1->3Fo 3 5.1720E+09 3De 2->3Fo 3 3.1090E+09 3De 3->3Fo 3 1.7360E+09 3De 4->3Fo 3 7.3130E+00 3Ge 1->3Fo 3 2.7370E+07 3Fo 3 : A-sum (total trans= 5) & lifetime= 1.0044E+10 9.9558E-11 [C 1 7f]3Fo 4(-1.000E+00 Ry) :state 3De 1->3Fo 4 2.9090E+09 3De 2->3Fo 4 1.7540E+09 3De 3->3Fo 4 1.0390E+09 3De 4->3Fo 4 6.2120E+08 3De 5->3Fo 4 5.7860E+00 3Ge 1->3Fo 4 1.1150E+07 3Ge 2->3Fo 4 2.6680E+07 3Fo 4 : A-sum (total trans= 7) & lifetime= 6.3610E+09 1.5721E-10 [C 1 8f]3Fo 5(-7.656E-01 Ry) :state 3De 1->3Fo 5 1.8170E+09 3De 2->3Fo 5 1.1030E+09 3De 3->3Fo 5 6.6130E+08 3De 4->3Fo 5 4.1410E+08 3De 5->3Fo 5 2.6350E+08 3De 6->3Fo 5 3.6360E+00 3Ge 1->3Fo 5 5.7230E+06 3Ge 2->3Fo 5 1.2580E+07 3Ge 3->3Fo 5 2.0370E+07 3Fo 5 : A-sum (total trans= 9) & lifetime= 4.2976E+09 2.3269E-10 [C 1 9f]3Fo 6(-6.050E-01 Ry) :state 3De 1->3Fo 6 1.2180E+09 3De 2->3Fo 6 7.4380E+08 3De 3->3Fo 6 4.4710E+08 3De 4->3Fo 6 2.8270E+08 3De 5->3Fo 6 1.8810E+08 3De 6->3Fo 6 1.2630E+08 3De 7->3Fo 6 2.0840E+00 3Ge 1->3Fo 6 3.3820E+06 3Ge 2->3Fo 6 7.0180E+06 3Ge 3->3Fo 6 1.0610E+07 3Ge 4->3Fo 6 1.4570E+07 3Fo 6 : A-sum (total trans= 11) & lifetime= 3.0416E+09 3.2878E-10 [C 1 10f]3Fo 7(-4.900E-01 Ry) :state 3De 1->3Fo 7 8.5950E+08 3De 2->3Fo 7 5.2750E+08 3De 3->3Fo 7 3.1700E+08 3De 4->3Fo 7 2.0120E+08 3De 5->3Fo 7 1.3500E+08 3De 6->3Fo 7 9.4430E+07 3De 7->3Fo 7 6.6320E+07 3De 8->3Fo 7 1.2570E+00 3Ge 1->3Fo 7 2.1920E+06 3Ge 2->3Fo 7 4.3770E+06 3Ge 3->3Fo 7 6.3050E+06 3Ge 4->3Fo 7 8.1790E+06 3Ge 5->3Fo 7 1.0300E+07 3Fo 7 : A-sum (total trans= 13) & lifetime= 2.2323E+09 4.4797E-10 [C 1 5g]1Ge 1(-1.960E+00 Ry) :state 1Fo 1->1Ge 1 1.0220E+10 1Fo 2->1Ge 1 3.6900E-04 1Ge 1 : A-sum (total trans= 2) & lifetime= 1.0220E+10 9.7847E-11 [C 1 6g]1Ge 2(-1.361E+00 Ry) :state 1Fo 1->1Ge 2 3.3020E+09 1Fo 2->1Ge 2 2.6560E+09 1Ge 2 : A-sum (total trans= 2) & lifetime= 5.9580E+09 1.6784E-10 [C 1 7g]1Ge 3(-1.000E+00 Ry) :state 1Fo 1->1Ge 3 1.5440E+09 1Fo 2->1Ge 3 1.3160E+09 1Fo 3->1Ge 3 9.0390E+08 1Fo 4->1Ge 3 1.7480E-03 1Ho 1->1Ge 3 8.0580E+06 1Ge 3 : A-sum (total trans= 5) & lifetime= 3.7720E+09 2.6511E-10 [C 1 8g]1Ge 4(-7.656E-01 Ry) :state 1Fo 1->1Ge 4 8.7250E+08 1Fo 2->1Ge 4 7.5270E+08 1Fo 3->1Ge 4 5.4340E+08 1Fo 4->1Ge 4 3.6890E+08 1Fo 5->1Ge 4 6.8510E-04 1Ho 1->1Ge 4 3.1370E+06 1Ho 2->1Ge 4 9.2650E+06 1Ge 4 : A-sum (total trans= 7) & lifetime= 2.5499E+09 3.9217E-10 [C 1 9g]1Ge 5(-6.049E-01 Ry) :state 1Fo 1->1Ge 5 5.4980E+08 1Fo 2->1Ge 5 4.7570E+08 1Fo 3->1Ge 5 3.4770E+08 1Fo 4->1Ge 5 2.4760E+08 1Fo 5->1Ge 5 1.7150E+08 1Fo 6->1Ge 5 2.7250E-04 1Ho 1->1Ge 5 1.5620E+06 1Ho 2->1Ge 5 4.1830E+06 1Ho 3->1Ge 5 7.9920E+06 1Ho 4->1Ge 5 2.3580E-06 1Ge 5 : A-sum (total trans= 10) & lifetime= 1.8060E+09 5.5370E-10 [C 1 5g]3Ge 1(-1.960E+00 Ry) :state 3Fo 1->3Ge 1 1.0220E+10 3Fo 2->3Ge 1 1.5690E-03 3Ge 1 : A-sum (total trans= 2) & lifetime= 1.0220E+10 9.7847E-11 [C 1 6g]3Ge 2(-1.361E+00 Ry) :state 3Fo 1->3Ge 2 3.3030E+09 3Fo 2->3Ge 2 2.6560E+09 3Fo 3->3Ge 2 3.7260E-05 3Ge 2 : A-sum (total trans= 3) & lifetime= 5.9590E+09 1.6781E-10 [C 1 7g]3Ge 3(-1.000E+00 Ry) :state 3Fo 1->3Ge 3 1.5440E+09 3Fo 2->3Ge 3 1.3160E+09 3Fo 3->3Ge 3 9.0400E+08 3Fo 4->3Ge 3 7.0840E-03 3Ho 1->3Ge 3 8.0570E+06 3Ho 2->3Ge 3 7.4070E-05 3Ge 3 : A-sum (total trans= 6) & lifetime= 3.7721E+09 2.6511E-10 [C 1 8g]3Ge 4(-7.656E-01 Ry) :state 3Fo 1->3Ge 4 8.7270E+08 3Fo 2->3Ge 4 7.5290E+08 3Fo 3->3Ge 4 5.4340E+08 3Fo 4->3Ge 4 3.6890E+08 3Fo 5->3Ge 4 2.1370E-03 3Ho 1->3Ge 4 3.1370E+06 3Ho 2->3Ge 4 9.2650E+06 3Ho 3->3Ge 4 2.2650E-07 3Ge 4 : A-sum (total trans= 8) & lifetime= 2.5503E+09 3.9211E-10 [C 1 9g]3Ge 5(-6.049E-01 Ry) :state 3Fo 1->3Ge 5 5.4980E+08 3Fo 2->3Ge 5 4.7590E+08 3Fo 3->3Ge 5 3.4770E+08 3Fo 4->3Ge 5 2.4750E+08 3Fo 5->3Ge 5 1.7150E+08 3Fo 6->3Ge 5 9.0870E-04 3Ho 1->3Ge 5 1.5620E+06 3Ho 2->3Ge 5 4.1830E+06 3Ho 3->3Ge 5 7.9890E+06 3Ho 4->3Ge 5 2.2940E-06 3Ge 5 : A-sum (total trans= 10) & lifetime= 1.8061E+09 5.5367E-10 [C 1 6h]1Ho 1(-1.361E+00 Ry) :state 1Ge 1->1Ho 1 3.9520E+09 1Ge 2->1Ho 1 8.3910E-06 1Ho 1 : A-sum (total trans= 2) & lifetime= 3.9520E+09 2.5304E-10 [C 1 7h]1Ho 2(-1.000E+00 Ry) :state 1Ge 1->1Ho 2 1.2220E+09 1Ge 2->1Ho 2 1.2790E+09 1Ge 3->1Ho 2 1.3290E-07 1Ie 1->1Ho 2 6.1380E-06 1Ho 2 : A-sum (total trans= 4) & lifetime= 2.5010E+09 3.9984E-10 [C 1 8h]1Ho 3(-7.656E-01 Ry) :state 1Ge 1->1Ho 3 5.6170E+08 1Ge 2->1Ho 3 6.1910E+08 1Ge 3->1Ho 3 5.0260E+08 1Ge 4->1Ho 3 3.3020E-08 1Ie 1->1Ho 3 2.8600E+06 1Ho 3 : A-sum (total trans= 5) & lifetime= 1.6863E+09 5.9303E-10 [C 1 9h]1Ho 4(-6.049E-01 Ry) :state 1Ge 1->1Ho 4 3.1280E+08 1Ge 2->1Ho 4 3.4960E+08 1Ge 3->1Ho 4 2.9840E+08 1Ge 4->1Ho 4 2.2680E+08 1Ie 1->1Ho 4 1.0550E+06 1Ie 2->1Ho 4 3.7120E+06 1Ho 4 : A-sum (total trans= 6) & lifetime= 1.1924E+09 8.3867E-10 [C 1 10h]1Ho 5(-4.900E-01 Ry) :state 1Ge 1->1Ho 5 1.9520E+08 1Ge 2->1Ho 5 2.1940E+08 1Ge 3->1Ho 5 1.8970E+08 1Ge 4->1Ho 5 1.5130E+08 1Ge 5->1Ho 5 1.1350E+08 1Ie 1->1Ho 5 5.0600E+05 1Ie 2->1Ho 5 1.5990E+06 1Ie 3->1Ho 5 3.5220E+06 1Ho 5 : A-sum (total trans= 8) & lifetime= 8.7473E+08 1.1432E-09 [C 1 6h]3Ho 1(-1.361E+00 Ry) :state 3Ge 1->3Ho 1 3.9510E+09 3Ge 2->3Ho 1 8.5960E-06 3Ho 1 : A-sum (total trans= 2) & lifetime= 3.9510E+09 2.5310E-10 [C 1 7h]3Ho 2(-1.000E+00 Ry) :state 3Ge 1->3Ho 2 1.2220E+09 3Ge 2->3Ho 2 1.2780E+09 3Ho 2 : A-sum (total trans= 2) & lifetime= 2.5000E+09 4.0000E-10 [C 1 8h]3Ho 3(-7.656E-01 Ry) :state 3Ge 1->3Ho 3 5.6180E+08 3Ge 2->3Ho 3 6.1920E+08 3Ge 3->3Ho 3 5.0240E+08 3Ie 1->3Ho 3 2.8600E+06 3Ho 3 : A-sum (total trans= 4) & lifetime= 1.6863E+09 5.9303E-10 [C 1 9h]3Ho 4(-6.049E-01 Ry) :state 3Ge 1->3Ho 4 3.1280E+08 3Ge 2->3Ho 4 3.4960E+08 3Ge 3->3Ho 4 2.9830E+08 3Ge 4->3Ho 4 2.2680E+08 3Ie 1->3Ho 4 1.0550E+06 3Ie 2->3Ho 4 3.7130E+06 3Ho 4 : A-sum (total trans= 6) & lifetime= 1.1923E+09 8.3874E-10 [C 1 10h]3Ho 5(-4.900E-01 Ry) :state 3Ge 1->3Ho 5 1.9520E+08 3Ge 2->3Ho 5 2.1940E+08 3Ge 3->3Ho 5 1.8970E+08 3Ge 4->3Ho 5 1.5130E+08 3Ge 5->3Ho 5 1.1350E+08 3Ie 1->3Ho 5 5.0590E+05 3Ie 2->3Ho 5 1.5990E+06 3Ie 3->3Ho 5 3.5210E+06 3Ie 4->3Ho 5 4.2860E-07 3Ho 5 : A-sum (total trans= 9) & lifetime= 8.7473E+08 1.1432E-09 [C 1 7i]1Ie 1(-1.000E+00 Ry) :state 1Ho 1->1Ie 1 1.7800E+09 1Ie 1 : A-sum (total trans= 1) & lifetime= 1.7800E+09 5.6180E-10 [C 1 8i]1Ie 2(-7.656E-01 Ry) :state 1Ho 1->1Ie 2 5.2250E+08 1Ho 2->1Ie 2 6.7400E+08 1Ho 3->1Ie 2 7.1920E-06 1Ko 1->1Ie 2 5.6200E-07 1Ie 2 : A-sum (total trans= 4) & lifetime= 1.1965E+09 8.3577E-10 [C 1 9i]1Ie 3(-6.049E-01 Ry) :state 1Ho 1->1Ie 3 2.3240E+08 1Ho 2->1Ie 3 3.1580E+08 1Ho 3->1Ie 3 2.9560E+08 1Ho 4->1Ie 3 1.6840E-06 1Ko 1->1Ie 3 1.1610E+06 1Ko 2->1Ie 3 1.0570E-07 1Ie 3 : A-sum (total trans= 6) & lifetime= 8.4496E+08 1.1835E-09 [C 1 10i]1Ie 4(-4.900E-01 Ry) :state 1Ho 1->1Ie 4 1.2660E+08 1Ho 2->1Ie 4 1.7440E+08 1Ho 3->1Ie 4 1.7180E+08 1Ho 4->1Ie 4 1.4460E+08 1Ho 5->1Ie 4 1.4080E-06 1Ko 1->1Ie 4 4.0550E+05 1Ko 2->1Ie 4 1.6560E+06 1Ko 3->1Ie 4 7.3630E-07 1Ie 4 : A-sum (total trans= 8) & lifetime= 6.1946E+08 1.6143E-09 [C 1 7i]3Ie 1(-1.000E+00 Ry) :state 3Ho 1->3Ie 1 1.7790E+09 3Ho 2->3Ie 1 5.1940E-06 3Ie 1 : A-sum (total trans= 2) & lifetime= 1.7790E+09 5.6211E-10 [C 1 8i]3Ie 2(-7.656E-01 Ry) :state 3Ho 1->3Ie 2 5.2260E+08 3Ho 2->3Ie 2 6.7410E+08 3Ho 3->3Ie 2 7.1930E-06 3Ko 1->3Ie 2 5.6180E-07 3Ie 2 : A-sum (total trans= 4) & lifetime= 1.1967E+09 8.3563E-10 [C 1 9i]3Ie 3(-6.049E-01 Ry) :state 3Ho 1->3Ie 3 2.3230E+08 3Ho 2->3Ie 3 3.1580E+08 3Ho 3->3Ie 3 2.9570E+08 3Ho 4->3Ie 3 1.6840E-06 3Ko 1->3Ie 3 1.1610E+06 3Ko 2->3Ie 3 1.0570E-07 3Ie 3 : A-sum (total trans= 6) & lifetime= 8.4496E+08 1.1835E-09 [C 1 10i]3Ie 4(-4.900E-01 Ry) :state 3Ho 1->3Ie 4 1.2660E+08 3Ho 2->3Ie 4 1.7440E+08 3Ho 3->3Ie 4 1.7180E+08 3Ho 4->3Ie 4 1.4470E+08 3Ko 1->3Ie 4 4.0550E+05 3Ko 2->3Ie 4 1.6560E+06 3Ie 4 : A-sum (total trans= 6) & lifetime= 6.1956E+08 1.6140E-09 [C 1 8k]1Ko 1(-7.656E-01 Ry) :state 1Ie 1->1Ko 1 8.9490E+08 1Ko 1 : A-sum (total trans= 1) & lifetime= 8.9490E+08 1.1174E-09 [C 1 9k]1Ko 2(-6.049E-01 Ry) :state 1Ie 1->1Ko 2 2.4860E+08 1Ie 2->1Ko 2 3.8170E+08 1Ko 2 : A-sum (total trans= 2) & lifetime= 6.3030E+08 1.5865E-09 [C 1 10k]1Ko 3(-4.900E-01 Ry) :state 1Ie 1->1Ko 3 1.0640E+08 1Ie 2->1Ko 3 1.7200E+08 1Ie 3->1Ko 3 1.8260E+08 1Ko 3 : A-sum (total trans= 3) & lifetime= 4.6100E+08 2.1692E-09 [C 1 8k]3Ko 1(-7.656E-01 Ry) :state 3Ie 1->3Ko 1 8.9480E+08 3Ko 1 : A-sum (total trans= 1) & lifetime= 8.9480E+08 1.1176E-09 [C 1 9k]3Ko 2(-6.049E-01 Ry) :state 3Ie 1->3Ko 2 2.4870E+08 3Ie 2->3Ko 2 3.8170E+08 3Ko 2 : A-sum (total trans= 2) & lifetime= 6.3040E+08 1.5863E-09 [C 1 10k]3Ko 3(-4.900E-01 Ry) :state 3Ie 1->3Ko 3 1.0640E+08 3Ie 2->3Ko 3 1.7210E+08 3Ie 3->3Ko 3 1.8260E+08 3Ie 4->3Ko 3 1.6430E-07 3Le 1->3Ko 3 5.2350E+05 3Ko 3 : A-sum (total trans= 5) & lifetime= 4.6162E+08 2.1663E-09 [C 1 9l]1Le 1(-6.049E-01 Ry) :state 1Le 1 : A-sum (total trans= 0) & Lifetime= 0.0000E+00 inf [C 1 10l]1Le 2(-4.900E-01 Ry) :state 1Le 2 : A-sum (total trans= 0) & Lifetime= 0.0000E+00 inf [C 1 9l]3Le 1(-6.049E-01 Ry) :state 3Ko 1->3Le 1 4.8920E+08 3Ko 2->3Le 1 7.3120E-08 3Le 1 : A-sum (total trans= 2) & lifetime= 4.8920E+08 2.0442E-09 [C 1 10l]3Le 2(-4.900E-01 Ry) :state 3Ko 1->3Le 2 1.2850E+08 3Ko 2->3Le 2 2.2890E+08 3Ko 3->3Le 2 5.9330E-07 3Mo 1->3Le 2 1.5220E-08 3Le 2 : A-sum (total trans= 4) & lifetime= 3.5740E+08 2.7980E-09 [C 1 10m]1Mo 1(-4.900E-01 Ry) :state 1Mo 1 : A-sum (total trans= 0) & Lifetime= 0.0000E+00 inf [C 1 10m]3Mo 1(-4.900E-01 Ry) :state 3Le 1->3Mo 1 2.8540E+08 3Mo 1 : A-sum (total trans= 1) & lifetime= 2.8540E+08 3.5039E-09 *************************************************************************