c ******************* 786 **************************** c Ref: "Photoionization of Ar~XVI and Ar~XVII", Sultana N. Nahar, JQSRT 117, 15-20 (2013) c **************************************************** c Ar XVIII : Energies, Oscillator strengths and decay rates for allowed (E1) and forbidden (E2,E3,M1,m2) transitions (1s to 4f) Process: Ar XVIII + h\nu <-> Ar XVIII* Contents of the file (contains both LS and fine structure transitions): --------------------- i) Table 1 - Ion Information and Configuration Set: ii) LS Term Energies (Relative to the ground) iii) Transitions in pure LS coupling - Oscillator Strengths: iv) Fine Structure energies: relativistic(BP): v-a) Same Spin-Multiplicity Dipole allowed E1 (E1d) fine structure transitions v-b) Fine structure intercombination (E1i) transitions vi) Forbidden Electric Octupole E3 & Magnetic Quadrupole M2 transitions: vii) Forbidden Electric Quadrupole E2 & Magnetic Dipole M1 transitions: --------------------------------------------------------------------------- i) Table 1 - Ion Information and Configuration Set: --------------------------------------------------- Ion: nz = 18, nelc = 1 Total Number of LS terms= 10 Configuration set: 10 configurations: first 10 spectroscopic, rest 0 correlation 1 1s 2 2s 3 2p 4 3s 5 3p 6 3d 7 4s 8 4p 9 4d 10 4f Number of orbitals = 10 Scaling parameters of the orbitals: 1.00000(1s) 1.00000(2s) 1.00000(2p) 1.00000(3s) 0.00000(3p) 1.00000(3d) 1.00000(4s) 1.00000(4p) 1.00000(4d) 1.00000(4f) -------------------------------------------------------------------------- ii) LS Term Energies (Relative to the ground) ---------------------------------------------- Note: Configuration numbers are as in Table 1. LS energies: i SLP E(Rel,Ry) cfg# 1 2Se 0.000000 1 2 2Po 243.000233 3 3 2Se 243.000326 2 4 2De 288.000221 6 5 2Po 288.000229 5 6 2Se 288.000234 4 7 2Fo 303.750220 10 8 2Po 303.750229 8 9 2Se 303.750230 7 10 2De 303.750437 9 Number of first LS terms optimized = 10 -------------------------------------------------------------------------- iii) Transitions in pure LS coupling - Oscillator Strengths: ------------------------------------------------------------ Table Explanation: ------------------ LSi:CFi -> Initial LS term & configuration number as in Table 1 LSf:CFf -> Final LS term & configuration number as in Table 1 fL, fV -> oscillator strengths in length and velocity forms -------------------- Ni LSi:CFi Nf LSf:CFf Ei Ef aji(s-1) fL fV %diff 1 2Se: 1 2 2Po: 3 0.0000 243.0002 6.580E+13 4.16E-01 4.16E-01 0.0E+00 1 2Se: 1 5 2Po: 5 0.0000 288.0002 1.757E+13 7.91E-02 7.91E-02 0.0E+00 1 2Se: 1 8 2Po: 8 0.0000 303.7502 7.162E+12 2.90E-02 2.90E-02 1.7E-02 2 2Po: 3 4 2De: 6 243.0002 288.0002 6.790E+12 6.96E-01 6.96E-01 4.8E-04 2 2Po: 3 6 2Se: 4 243.0002 288.0002 6.631E+11 1.36E-02 1.36E-02 2.5E-02 2 2Po: 3 9 2Se: 7 243.0002 303.7502 2.708E+11 3.04E-03 3.05E-03 1.6E-01 2 2Po: 3 10 2De: 9 243.0002 303.7504 2.166E+12 1.22E-01 1.22E-01 0.0E+00 3 2Se: 2 5 2Po: 5 243.0003 288.0002 2.358E+12 4.35E-01 4.35E-01 1.1E-03 3 2Se: 2 8 2Po: 8 243.0003 303.7502 1.015E+12 1.03E-01 1.03E-01 4.9E-03 4 2De: 6 7 2Fo:10 288.0002 303.7502 1.448E+12 1.02E+00 1.02E+00 0.0E+00 4 2De: 6 8 2Po: 8 288.0002 303.7502 3.650E+10 1.10E-02 1.10E-02 0.0E+00 5 2Po: 5 9 2Se: 7 288.0002 303.7502 1.928E+11 3.23E-02 3.23E-02 0.0E+00 5 2Po: 5 10 2De: 9 288.0002 303.7504 7.392E+11 6.18E-01 6.18E-01 2.7E-04 6 2Se: 4 8 2Po: 8 288.0002 303.7502 3.219E+11 4.85E-01 4.85E-01 1.0E-03 7 2Fo:10 10 2De: 9 303.7502 303.7504 1.267E-02 2.00E-05 0.00E+00 1.0E+02 8 2Po: 8 10 2De: 9 303.7502 303.7504 1.287E-02 6.00E-05 6.67E-05 5.3E+00 LS transitions: Number of oscillator strengths = 16 ----------------------------------------------------------------------------- iv) Fine Structure energies: relativistic(BP): ----------------------------------------------- Theory Expt(+Theo with 0% diff) ie SLp(cf#) 2J k*cm E(Ry) cfg SLP E(Ry) %df 1 2Se( 1) 2 0.0 0.00000E+00 2 2Po( 3) 2 26771839.0 2.43963E+02 3 2Se( 2) 2 26772126.0 2.43966E+02 4 2Po( 3) 4 26810359.0 2.44314E+02 5 2Po( 5) 2 31741175.0 2.89247E+02 6 2Se( 4) 2 31741269.0 2.89248E+02 7 2De( 6) 4 31752449.0 2.89350E+02 8 2Po( 5) 4 31752460.0 2.89350E+02 9 2De( 6) 6 31756242.0 2.89384E+02 10 2Po( 8) 2 33478833.0 3.05082E+02 11 2Se( 7) 2 33478874.0 3.05082E+02 12 2Po( 8) 4 33483519.0 3.05124E+02 13 2De( 9) 4 33483536.0 3.05124E+02 14 2Fo(10) 6 33485102.0 3.05139E+02 15 2De( 9) 6 33485127.0 3.05139E+02 16 2Fo(10) 8 33485901.0 3.05146E+02 ------------------------------------------------------------------------ v-a) Same Spin-Multiplicity Dipole allowed E1 (E1d) fine structure transitions -------------------------------------------------------- Table Explanation: ----------------- SLpCi -> initial symmetry (2S+1)Lpi(parity) & configuration number as in Table 1 SLpCi -> final symmetry (2S+1)Lpi(parity) & configuration number as in Table 1 fij, S, aji -> Oscillator strength fij, line strengh S & transition probability aji for electic dipole E1 same-spin transition ------------------------ Dipole allowed E1d fine structure transitions in Breit-Pauli approx: Ni Nj SLpCi SLpCj gi gj wl(A) Ei(Ry) Ej(Ry) fij S aji(s-1) 1 2 2Se 1 2Po 3 2 2 3.73 0.00 243.96 1.37E-01 3.364E-03 6.54E+13 2 3 2Po 3 2Se 2 2 2 348263 243.96 243.97 2.40E-05 5.506E-02 1.32E+00 1 4 2Se 1 2Po 3 2 4 3.73 0.00 244.31 2.73E-01 6.701E-03 6.54E+13 3 4 2Se 2 2Po 3 2 4 2615 243.97 244.31 6.43E-03 1.108E-01 3.14E+06 1 5 2Se 1 2Po 5 2 2 3.15 0.00 289.25 2.51E-02 5.214E-04 1.69E+13 3 5 2Se 2 2Po 5 2 2 20.12 243.97 289.25 1.43E-01 1.895E-02 2.36E+12 2 6 2Po 3 2Se 4 2 2 20.12 243.96 289.25 1.29E-02 1.714E-03 2.13E+11 4 6 2Po 3 2Se 4 4 2 20.28 244.31 289.25 1.40E-02 3.737E-03 4.54E+11 2 7 2Po 3 2De 6 2 4 20.08 243.96 289.35 6.88E-01 9.091E-02 5.69E+12 4 7 2Po 3 2De 6 4 4 20.23 244.31 289.35 6.93E-02 1.847E-02 1.13E+12 5 7 2Po 5 2De 6 2 4 8869 289.25 289.35 7.14E-03 4.168E-01 3.02E+05 1 8 2Se 1 2Po 5 2 4 3.15 0.00 289.35 5.11E-02 1.059E-03 1.72E+13 3 8 2Se 2 2Po 5 2 4 20.08 243.97 289.35 2.82E-01 3.726E-02 2.33E+12 6 8 2Se 4 2Po 5 2 4 8935 289.25 289.35 1.13E-02 6.657E-01 4.73E+05 4 9 2Po 3 2De 6 4 6 20.22 244.31 289.38 6.24E-01 1.661E-01 6.78E+12 8 9 2Po 5 2De 6 4 6 26440 289.35 289.38 2.15E-03 7.494E-01 1.37E+04 1 10 2Se 1 2Po 8 2 2 2.99 0.00 305.08 8.63E-03 1.698E-04 6.45E+12 3 10 2Se 2 2Po 8 2 2 14.91 243.97 305.08 3.23E-02 3.172E-03 9.69E+11 6 10 2Se 4 2Po 8 2 2 57.55 289.25 305.08 1.58E-01 5.978E-02 3.18E+11 7 10 2De 6 2Po 8 4 2 57.92 289.35 305.08 9.26E-03 7.060E-03 3.68E+10 2 11 2Po 3 2Se 7 2 2 14.91 243.96 305.08 2.44E-03 2.392E-04 7.31E+10 4 11 2Po 3 2Se 7 4 2 15.00 244.31 305.08 2.93E-03 5.779E-04 1.74E+11 5 11 2Po 5 2Se 7 2 2 57.55 289.25 305.08 3.04E-02 1.151E-02 6.12E+10 8 11 2Po 5 2Se 7 4 2 57.92 289.35 305.08 3.27E-02 2.494E-02 1.30E+11 1 12 2Se 1 2Po 8 2 4 2.99 0.00 305.12 1.78E-02 3.502E-04 6.66E+12 3 12 2Se 2 2Po 8 2 4 14.90 243.97 305.12 6.49E-02 6.372E-03 9.76E+11 6 12 2Se 4 2Po 8 2 4 57.40 289.25 305.12 3.10E-01 1.173E-01 3.14E+11 7 12 2De 6 2Po 8 4 4 57.77 289.35 305.12 1.76E-03 1.342E-03 3.53E+09 9 12 2De 6 2Po 8 6 4 57.89 289.38 305.12 1.10E-02 1.257E-02 3.28E+10 11 12 2Se 7 2Po 8 2 4 21527 305.08 305.12 1.57E-02 2.232E+00 1.13E+05 2 13 2Po 3 2De 9 2 4 14.90 243.96 305.12 1.19E-01 1.170E-02 1.79E+12 4 13 2Po 3 2De 9 4 4 14.99 244.31 305.12 1.20E-02 2.364E-03 3.56E+11 5 13 2Po 5 2De 9 2 4 57.39 289.25 305.12 6.03E-01 2.280E-01 6.11E+11 8 13 2Po 5 2De 9 4 4 57.77 289.35 305.12 6.14E-02 4.674E-02 1.23E+11 10 13 2Po 8 2De 9 2 4 21263 305.08 305.12 1.28E-02 1.787E+00 9.42E+04 7 14 2De 6 2Fo10 4 6 57.71 289.35 305.14 1.01E+00 7.703E-01 1.35E+12 9 14 2De 6 2Fo10 6 6 57.84 289.38 305.14 4.83E-02 5.522E-02 9.64E+10 13 14 2De 9 2Fo10 4 6 63865 305.12 305.14 2.23E-03 1.871E+00 2.43E+03 4 15 2Po 3 2De 9 4 6 14.98 244.31 305.14 1.09E-01 2.142E-02 2.15E+12 8 15 2Po 5 2De 9 4 6 57.71 289.35 305.14 5.52E-01 4.193E-01 7.36E+11 12 15 2Po 8 2De 9 4 6 62190 305.12 305.14 3.91E-03 3.206E+00 4.50E+03 9 16 2De 6 2Fo10 6 8 57.81 289.38 305.15 9.67E-01 1.104E+00 1.45E+12 15 16 2De 9 2Fo10 6 8 129265 305.14 305.15 1.05E-03 2.670E+00 3.13E+02 Number of non-zero E1 transitions = 43 Number of dipole transitions, E1d = 43 Number of lines in the table = 66 v-b) Fine structure intercombination (E1i) transitions ------------------------------------------------------ Fine structure E1i intercombination transitions in Breit-Pauli approx: Ni Nj SLpCi SLpCj gi gj wl(A) Ei(Ry) Ej(Ry) fij S aji(s-1) Number of non-zero E1 transitions = 43 Number of intercombination transitions, E1i = 0 Number of lines in the table = 66 ------------------------------------------------------------------------------ vi) Forbidden Electric Octupole E3 & Magnetic Quadrupole M2 transitions: ------------------------------------------------------ Table Explanation: ----------------- SLpCi -> initial symmetry (2S+1)Lpi(parity) & configuration number as in Table 1 SLpCi -> final symmetry (2S+1)Lpi(parity) & configuration number as in Table 1 SE3, AE3 -> line strengh S & transition probability A for electic octupole E3 transition SM2, AM2 -> line strengh S & transition probability A for magnetic quadrupole M2 transition ------------------------ Forbidden octu E3 and quadrupole M2 transitions in Breit-Pauli approximation: Ni Nj SLpCi SLpCj gi gj wl(A) Ei(Ry) Ej(Ry) SE3 AE3(s-1) SM2 AM2(s-1) 2 9 2Po 3 2De 6 2 6 20.06 2.440E+02 2.894E+02 2.77E-03 2.22E+05 2.32E+00 1.78E+06 5 9 2Po 5 2De 6 2 6 6636 2.892E+02 2.894E+02 8.65E-02 1.60E-11 1.07E+01 2.06E-06 9 10 2De 6 2Po 8 6 2 58.05 2.894E+02 3.051E+02 5.55E-02 7.86E+03 1.88E-01 2.12E+03 1 14 2Se 1 2Fo10 2 6 2.99 0.000E+00 3.051E+02 4.36E-08 2.16E+06 0.00E+00 0.00E+00 3 14 2Se 2 2Fo10 2 6 14.90 2.440E+02 3.051E+02 2.22E-03 1.43E+06 0.00E+00 0.00E+00 6 14 2Se 4 2Fo10 2 6 57.34 2.892E+02 3.051E+02 2.48E-01 1.28E+04 0.00E+00 0.00E+00 11 14 2Se 7 2Fo10 2 6 16056 3.051E+02 3.051E+02 1.25E+00 4.77E-13 0.00E+00 0.00E+00 2 15 2Po 3 2De 9 2 6 14.90 2.440E+02 3.051E+02 7.57E-06 4.87E+03 3.01E-01 1.02E+06 5 15 2Po 5 2De 9 2 6 57.34 2.892E+02 3.051E+02 2.35E-01 1.21E+04 5.82E+00 2.33E+04 10 15 2Po 8 2De 9 2 6 15888 3.051E+02 3.051E+02 4.16E+00 1.71E-12 4.58E+01 1.12E-07 1 16 2Se 1 2Fo10 2 8 2.99 0.000E+00 3.051E+02 5.81E-08 2.16E+06 0.00E+00 0.00E+00 3 16 2Se 2 2Fo10 2 8 14.89 2.440E+02 3.051E+02 2.97E-03 1.43E+06 0.00E+00 0.00E+00 6 16 2Se 4 2Fo10 2 8 57.32 2.892E+02 3.051E+02 3.31E-01 1.28E+04 0.00E+00 0.00E+00 7 16 2De 6 2Fo10 4 8 57.69 2.893E+02 3.051E+02 9.09E-02 3.36E+03 1.88E+01 5.48E+04 11 16 2Se 7 2Fo10 2 8 14231 3.051E+02 3.051E+02 1.67E+00 1.11E-12 0.00E+00 0.00E+00 13 16 2De 9 2Fo10 4 8 42291 3.051E+02 3.051E+02 1.14E+00 3.72E-16 4.56E+01 6.29E-10 Number of transitions: E3 = 16, M2 = 8, Total E3+M2 = 24 Total number of lines of M2/E3 transitions = 16 ---------------------------------------------------------------------------- vii) Forbidden Electric Quadrupole E2 & Magnetic Dipole M1 transitions: ----------------------------------------------------- Table Explanation: ----------------- SLpCi -> initial symmetry (2S+1)Lpi(parity) & configuration number as in Table 1 SLpCi -> final symmetry (2S+1)Lpi(parity) & configuration number as in Table 1 SE2, AE2 -> line strengh S & transition probability A for electric quadrupole E2 transition SM1, AM1 -> line strengh S & transition probability A for magnetic dipole M1 transition ------------------------ Ni Nj SLpCi SLpCj gi gj wl(A) Ei(Ry) Ej(Ry) SE2 AE2(s-1) SM1 AM1(s-1) 1 3 2Se 1 2Se 2 2 2 3.73 0.000E+00 2.440E+02 0.00E+00 0.00E+00 3.54E-05 9.16E+06 2 4 2Po 3 2Po 3 2 4 2596 2.440E+02 2.443E+02 4.51E-03 1.61E-02 1.33E+00 5.12E+02 2 5 2Po 3 2Po 5 2 2 20.12 2.440E+02 2.892E+02 0.00E+00 0.00E+00 1.06E-06 1.76E+03 4 5 2Po 3 2Po 5 4 2 20.28 2.443E+02 2.892E+02 3.31E-03 8.09E+08 3.09E-05 5.00E+04 1 6 2Se 1 2Se 4 2 2 3.15 0.000E+00 2.892E+02 0.00E+00 0.00E+00 1.00E-05 4.33E+06 3 6 2Se 2 2Se 4 2 2 20.12 2.440E+02 2.892E+02 0.00E+00 0.00E+00 4.05E-06 6.70E+03 1 7 2Se 1 2De 6 2 4 3.15 0.000E+00 2.893E+02 1.55E-05 2.10E+10 3.07E-07 6.62E+04 3 7 2Se 2 2De 6 2 4 20.08 2.440E+02 2.893E+02 1.37E-02 1.77E+09 8.93E-07 7.44E+02 6 7 2Se 4 2De 6 2 4 8944 2.892E+02 2.893E+02 1.02E-01 7.50E-04 3.23E-08 3.05E-07 2 8 2Po 3 2Po 5 2 4 20.08 2.440E+02 2.893E+02 3.14E-03 4.04E+08 1.27E-05 1.06E+04 4 8 2Po 3 2Po 5 4 4 20.23 2.443E+02 2.893E+02 3.27E-03 4.04E+08 1.56E-05 1.27E+04 5 8 2Po 5 2Po 5 2 4 8861 2.892E+02 2.893E+02 1.63E-01 1.25E-03 1.33E+00 1.29E+01 1 9 2Se 1 2De 6 2 6 3.15 0.000E+00 2.894E+02 2.32E-05 2.10E+10 0.00E+00 0.00E+00 3 9 2Se 2 2De 6 2 6 20.06 2.440E+02 2.894E+02 2.06E-02 1.77E+09 0.00E+00 0.00E+00 6 9 2Se 4 2De 6 2 6 6678 2.892E+02 2.894E+02 1.54E-01 3.24E-03 0.00E+00 0.00E+00 7 9 2De 6 2De 6 4 6 26363 2.893E+02 2.894E+02 3.44E-02 7.56E-07 2.40E+00 5.88E-01 2 10 2Po 3 2Po 8 2 2 14.91 2.440E+02 3.051E+02 0.00E+00 0.00E+00 3.19E-07 1.30E+03 4 10 2Po 3 2Po 8 4 2 15.00 2.443E+02 3.051E+02 2.87E-04 3.18E+08 7.36E-06 2.94E+04 5 10 2Po 5 2Po 8 2 2 57.55 2.892E+02 3.051E+02 0.00E+00 0.00E+00 3.16E-07 2.24E+01 8 10 2Po 5 2Po 8 4 2 57.92 2.893E+02 3.051E+02 6.66E-02 8.58E+07 2.77E-05 1.92E+03 1 11 2Se 1 2Se 7 2 2 2.99 0.000E+00 3.051E+02 0.00E+00 0.00E+00 6.62E-06 3.35E+06 3 11 2Se 2 2Se 7 2 2 14.91 2.440E+02 3.051E+02 0.00E+00 0.00E+00 1.52E-06 6.18E+03 6 11 2Se 4 2Se 7 2 2 57.55 2.892E+02 3.051E+02 0.00E+00 0.00E+00 9.98E-07 7.06E+01 7 11 2De 6 2Se 7 4 2 57.92 2.893E+02 3.051E+02 1.06E-02 1.37E+07 1.46E-10 1.01E-02 9 11 2De 6 2Se 7 6 2 58.05 2.894E+02 3.051E+02 1.64E-02 2.09E+07 0.00E+00 0.00E+00 2 12 2Po 3 2Po 8 2 4 14.90 2.440E+02 3.051E+02 2.41E-04 1.38E+08 2.43E-06 4.95E+03 4 12 2Po 3 2Po 8 4 4 14.99 2.443E+02 3.051E+02 2.91E-04 1.62E+08 5.05E-06 1.01E+04 5 12 2Po 5 2Po 8 2 4 57.39 2.892E+02 3.051E+02 6.29E-02 4.24E+07 1.80E-05 6.43E+02 8 12 2Po 5 2Po 8 4 4 57.77 2.893E+02 3.051E+02 6.58E-02 4.29E+07 4.70E-06 1.64E+02 10 12 2Po 8 2Po 8 2 4 21341 3.051E+02 3.051E+02 1.84E+00 1.74E-04 1.33E+00 9.24E-01 1 13 2Se 1 2De 9 2 4 2.99 0.000E+00 3.051E+02 8.92E-06 1.58E+10 1.03E-07 2.62E+04 3 13 2Se 2 2De 9 2 4 14.90 2.440E+02 3.051E+02 2.79E-04 1.59E+08 2.43E-07 4.96E+02 6 13 2Se 4 2De 9 2 4 57.40 2.892E+02 3.051E+02 1.91E-01 1.29E+08 8.66E-08 3.09E+00 7 13 2De 6 2De 9 4 4 57.77 2.893E+02 3.051E+02 4.30E-02 2.81E+07 1.86E-06 6.51E+01 9 13 2De 6 2De 9 6 4 57.89 2.894E+02 3.051E+02 1.87E-02 1.21E+07 6.07E-06 2.11E+02 11 13 2Se 7 2De 9 2 4 21449 3.051E+02 3.051E+02 1.47E+00 1.36E-04 2.06E-08 1.41E-08 2 14 2Po 3 2Fo10 2 6 14.90 2.440E+02 3.051E+02 4.36E-03 1.66E+09 0.00E+00 0.00E+00 4 14 2Po 3 2Fo10 4 6 14.98 2.443E+02 3.051E+02 1.26E-03 4.68E+08 2.44E-07 3.26E+02 5 14 2Po 5 2Fo10 2 6 57.34 2.892E+02 3.051E+02 3.47E-01 1.57E+08 0.00E+00 0.00E+00 8 14 2Po 5 2Fo10 4 6 57.72 2.893E+02 3.051E+02 1.01E-01 4.39E+07 3.70E-07 8.66E+00 10 14 2Po 8 2Fo10 2 6 15952 3.051E+02 3.051E+02 1.03E+00 2.80E-04 0.00E+00 0.00E+00 12 14 2Po 8 2Fo10 4 6 63177 3.051E+02 3.051E+02 2.93E-01 8.16E-08 8.56E-09 1.53E-10 1 15 2Se 1 2De 9 2 6 2.99 0.000E+00 3.051E+02 1.34E-05 1.58E+10 0.00E+00 0.00E+00 3 15 2Se 2 2De 9 2 6 14.90 2.440E+02 3.051E+02 4.25E-04 1.62E+08 0.00E+00 0.00E+00 6 15 2Se 4 2De 9 2 6 57.34 2.892E+02 3.051E+02 2.86E-01 1.29E+08 0.00E+00 0.00E+00 7 15 2De 6 2De 9 4 6 57.71 2.893E+02 3.051E+02 1.84E-02 8.03E+06 1.88E-06 4.39E+01 9 15 2De 6 2De 9 6 6 57.84 2.894E+02 3.051E+02 7.44E-02 3.22E+07 9.33E-06 2.17E+02 11 15 2Se 7 2De 9 2 6 15992 3.051E+02 3.051E+02 2.21E+00 5.90E-04 0.00E+00 0.00E+00 13 15 2De 9 2De 9 4 6 62856 3.051E+02 3.051E+02 5.54E-01 1.58E-07 2.40E+00 4.34E-02 4 16 2Po 3 2Fo10 4 8 14.98 2.443E+02 3.051E+02 7.58E-03 2.11E+09 0.00E+00 0.00E+00 8 16 2Po 5 2Fo10 4 8 57.69 2.893E+02 3.051E+02 6.03E-01 1.98E+08 0.00E+00 0.00E+00 12 16 2Po 8 2Fo10 4 8 41989 3.051E+02 3.051E+02 1.76E+00 2.83E-06 0.00E+00 0.00E+00 14 16 2Fo10 2Fo10 6 8 125199 3.051E+02 3.051E+02 1.88E-01 1.28E-09 3.43E+00 5.89E-03 Number of transitions: E2 = 44, M1 = 39, Total E2+M1 = 83 Total number of transitions lines (including non-spectroscopic) = 53 NT= total number of forbidden (E2,M1,E3,M2) transitions = 83 + 24 = 107 Net allowed (E1) and forbidden (E2,M1,E3,M2) transitions = = 43 + 107 = 150