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* Short output format with wavelength in Å and energy in eV ~- {{{ Damping parameters Lande Elm Ion WL_air(A) Excit(eV) log(gf) Rad. Stark Waals factor References 'Cu 2', 4403.7511, 14.1980, -2.009, 9.300,-5.840, -7.750, 1.460,' 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 Cu+ ' 'Cr 1', 4403.7742, 1.0300, -9.583, 0.930,-6.150, -7.790, 1.770,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr ' 'Cr 1', 4403.7742, 1.0300,-11.444, 0.930,-6.150, -7.790, 1.770,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr ' 'Fe 2', 4403.7802, 10.5230, -4.939, 8.860,-5.230, -7.440, 1.370,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ ' 'Cr 2', 4403.7854, 11.6270, -1.305, 8.010,-4.980, -7.320, 1.570,' 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 Cr+ ' 'Ir 1', 4403.7890, 1.5150, -1.950, 0.000, 0.000, 0.000, 1.240,' 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor Ir ' ... 'Cu 2', 4405.5887, 15.9670, -5.761, 8.120,-3.810, -7.250, 0.320,' 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 Cu+ ' 'Fe 2', 4405.6116, 13.5710, 0.371, 9.160,-5.270, -7.570, 1.890,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ ' 'Sm 2', 4405.6400, 0.4340, -1.850, 0.000, 0.000, 0.000, 1.500,' 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS Sm+ ' 'Cr 2', 4405.6660, 8.0910, -6.189, 8.910,-5.820, -7.720, 2.450,' 4 K10 4 K10 7 RU 4 K10 4 K10 4 K10 4 K10 Cr+ ' 'Ti 1', 4405.6819, 1.0530, -1.874, 7.360,-6.010, -7.740, 1.010,' 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 Ti ' 'Mn 1', 4405.6957, 3.7710, -3.725, 7.430,-6.270, -7.820, 1.610,' 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 Mn ' 'Fe 2', 4405.7002, 11.2080, -8.648, 8.200,-4.340, -7.420, 1.460,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ ' References: 1. Kurucz obs. energy level: Cu 2 2. Kurucz obs. energy level: Cr 1 3. Kurucz obs. energy level: Fe 2 4. Kurucz obs. energy level: Cr 2 5. Hf 1 - U 2 Bell 6. Kurucz obs. energy level: Co 1 7. Cr 2: Raassen & Uylings 8. Li 1 - K 5 Bell 9. Kurucz obs. energy level: Co 2 10. Kurucz obs. energy level: Fe 1 11. Kurucz obs. energy level: Cr 3 12. Kurucz obs. energy level: V 1 13. Ce 2: DREAM data 14. Kurucz obs. energy level: Ni 1 15. Kurucz obs. energy level: Ni 2 16. Kurucz obs. energy level: Ca 1 17. Kurucz obs. energy level: Fe 3 18. Fe 2: Raassen & Uylings 19. Cu 1 - Ba 2 Bell 20. Kurucz obs. energy level: Mn 2 21. Van der Waals data 22. Kurucz obs. energy level: Y 1 23. Yb 2: DREAM data 24. Kurucz obs. energy level: Sc 1 25. Kurucz obs. energy level: Y 2 26. Kurucz obs. energy level: Ti 2 27. Kurucz obs. energy level: Ti 1 28. Kurucz obs. energy level: Ca 2 29. Kurucz obs. energy level: Ni 6 30. ISAN data 31. Kurucz obs. energy level: S 1 32. Kurucz obs. energy level: V 2 33. V : NBS data 34. Lund: exp. data 35. Fe 1: exp. data 36. Tm 2: DREAM data 37. Hg 2 theor. data 38. Kurucz obs. energy level: Cu 1 39. La 1 - Lu 2 Bell 40. Wisconsin exp. data with IS 41. C 1-6, N 1-7, O 1-8, Na 1, Mg 1: 42. Kurucz obs. energy level: Mn 1 43. Kurucz obs. energy level: Si 1 }}} -~ * Short output format with wavelength in nm and energy in 1/cm ~- {{{ Damping parameters Lande Elm Ion WL_air(nm) E_low(cm^-1) log(gf) Rad. Stark Waals factor References 'Cu 2', 440.37511, 114511.228, -2.009, 9.300,-5.840, -7.750, 1.460,' 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 Cu+ ' 'Cr 1', 440.37742, 8307.577, -9.583, 0.930,-6.150, -7.790, 1.770,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr ' 'Cr 1', 440.37742, 8307.577,-11.444, 0.930,-6.150, -7.790, 1.770,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr ' 'Fe 2', 440.37802, 84870.863, -4.939, 8.860,-5.230, -7.440, 1.370,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ ' 'Cr 2', 440.37854, 93776.150, -1.305, 8.010,-4.980, -7.320, 1.570,' 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 Cr+ ' 'Ir 1', 440.37890, 12218.500, -1.950, 0.000, 0.000, 0.000, 1.240,' 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor Ir ' 'Co 1', 440.38128, 29563.111, -2.227, 8.040,-4.820, -7.500, 0.830,' 6 K08 6 K08 6 K08 6 K08 6 K08 6 K08 6 K08 Co ' 'Cr 1', 440.38141, 35501.201, -1.672, 8.180,-4.490, -7.590, 1.340,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr ' 'Cr 2', 440.38184, 66354.830, -4.159, 8.960,-5.730, -7.700,-0.250,' 4 K10 4 K10 7 RU 4 K10 4 K10 4 K10 4 K10 Cr+ ' 'Si 3', 440.38300, 227665.090, -0.370, 0.000, 0.000, 0.000,99.000,' 8 KP 8 KP 8 KP 8 KP 8 KP 8 KP 8 KP Si+2 ' ... 'Fe 2', 440.56116, 109455.250, 0.371, 9.160,-5.270, -7.570, 1.890,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ ' 'Sm 2', 440.56400, 3499.120, -1.850, 0.000, 0.000, 0.000, 1.500,' 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS Sm+ ' 'Cr 2', 440.56660, 65256.880, -6.189, 8.910,-5.820, -7.720, 2.450,' 4 K10 4 K10 7 RU 4 K10 4 K10 4 K10 4 K10 Cr+ ' 'Ti 1', 440.56819, 8492.421, -1.874, 7.360,-6.010, -7.740, 1.010,' 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 Ti ' 'Mn 1', 440.56957, 30411.675, -3.725, 7.430,-6.270, -7.820, 1.610,' 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 Mn ' 'Fe 2', 440.57002, 90397.868, -8.648, 8.200,-4.340, -7.420, 1.460,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ ' References: 1. Kurucz obs. energy level: Cu 2 2. Kurucz obs. energy level: Cr 1 3. Kurucz obs. energy level: Fe 2 4. Kurucz obs. energy level: Cr 2 5. Hf 1 - U 2 Bell 6. Kurucz obs. energy level: Co 1 7. Cr 2: Raassen & Uylings 8. Li 1 - K 5 Bell 9. Kurucz obs. energy level: Co 2 10. Kurucz obs. energy level: Fe 1 11. Kurucz obs. energy level: Cr 3 12. Kurucz obs. energy level: V 1 13. Ce 2: DREAM data 14. Kurucz obs. energy level: Ni 1 15. Kurucz obs. energy level: Ni 2 16. Kurucz obs. energy level: Ca 1 17. Kurucz obs. energy level: Fe 3 18. Fe 2: Raassen & Uylings 19. Cu 1 - Ba 2 Bell 20. Kurucz obs. energy level: Mn 2 21. Van der Waals data 22. Kurucz obs. energy level: Y 1 23. Yb 2: DREAM data 24. Kurucz obs. energy level: Sc 1 25. Kurucz obs. energy level: Y 2 26. Kurucz obs. energy level: Ti 2 27. Kurucz obs. energy level: Ti 1 28. Kurucz obs. energy level: Ca 2 29. Kurucz obs. energy level: Ni 6 30. ISAN data 31. Kurucz obs. energy level: S 1 32. Kurucz obs. energy level: V 2 33. V : NBS data 34. Lund: exp. data 35. Fe 1: exp. data 36. Tm 2: DREAM data 37. Hg 2 theor. data 38. Kurucz obs. energy level: Cu 1 39. La 1 - Lu 2 Bell 40. Wisconsin exp. data with IS 41. C 1-6, N 1-7, O 1-8, Na 1, Mg 1: 42. Kurucz obs. energy level: Mn 1 43. Kurucz obs. energy level: Si 1 }}} -~ * Long output format with wavelength in Å and energy in eV ~- {{{ Lande factors Damping parameters Elm Ion WL_air(A) log(gf) E_low(eV) J lo E_up(eV) J up lower upper mean Rad. Stark Waals 'Cu 2', 4403.7511, -2.009, 14.1980, 1.0, 17.0120, 1.0, 1.890, 1.040, 1.460, 9.300,-5.840, -7.750 ' LS 3d9.(2D).4d 3S' ' LS 3d8.(3P).4s.4p.(3P*) 1P*' 'K11 Kurucz CuII 2011 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 Cu+ ' 'Cr 1', 4403.7742, -9.583, 1.0300, 4.0, 3.8450, 3.0, 1.500, 1.330, 1.770, 0.930,-6.150, -7.790 ' LS 3d4.4s2 a5D' ' LS 3d5.(2D3).4s b3D*' 'K10 C Kurucz CrI 2010 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr ' 'Cr 1', 4403.7742, -11.444, 1.0300, 4.0, 3.8450, 3.0, 1.500, 1.330, 1.770, 0.930,-6.150, -7.790 ' LS 3d4.4s2 a5D' ' LS 3d5.(2D3).4s b3D*' 'K10 B Kurucz CrI 2010 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr ' 'Fe 2', 4403.7802, -4.939, 10.5230, 2.5, 13.3370, 2.5, 1.380, 1.370, 1.370, 8.860,-5.230, -7.440 ' LS 3d6.(5D).4d f4D' ' LS 3d6.(5D).6p 6F*' 'K10 Kurucz FeII 2010 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ ' 'Cr 2', 4403.7854, -1.305, 11.6270, 2.5, 14.4420, 2.5, 1.650, 1.480, 1.570, 8.010,-4.980, -7.320 ' LS (5D)5p 6D*' ' LS (5D)6d 6F' 'K10 Kurucz CrII 2010 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 Cr+ ' ... 'Sm 2', 4405.6400, -1.850, 0.4340, 3.5, 3.2470, 2.5, 1.400, 1.320, 1.500, 0.000, 0.000, 0.000 ' LS 4f6.(7F).6s 6F' ' *' 'LD-HS E 0.03 Wisconsin REE ex 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS Sm+ ' 'Cr 2', 4405.6660, -6.189, 8.0910, 3.5, 10.9040, 4.5, 0.920, 1.480, 2.450, 8.910,-5.820, -7.720 ' LS a3F)4p z4G*' ' LS (5D)4d e6F' 'K10 Kurucz CrII 2010 4 K10 7 RU 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 Cr+ ' 'Ti 1', 4405.6819, -1.874, 1.0530, 1.0, 3.8660, 1.0, 1.500, 0.510, 1.010, 7.360,-6.010, -7.740 ' LS d2s2 a3P' ' LS 3Psp3P v3D*' 'K10 Kurucz TiI 2010 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 Ti ' 'Mn 1', 4405.6957, -3.725, 3.7710, 0.5, 6.5840, 1.5, 0.110, 1.310, 1.610, 7.430,-6.270, -7.820 ' LS 3d5.4s2 b4D' ' LS 3d5.(4P).4s.4p.(3P*) y4D*' 'K07 Kurucz MnI 2007 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 Mn ' 'Fe 2', 4405.7002, -8.648, 11.2080, 3.5, 14.0210, 2.5, 1.410, 1.370, 1.460, 8.200,-4.340, -7.420 ' LS 3d6.(5D).5p 4D*' ' JK 3d6.(5D<4>).5g 2[2]' 'K10 Kurucz FeII 2010 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ ' References: 1. Kurucz obs. energy level: Cu 2 2. Kurucz obs. energy level: Cr 1 3. Kurucz obs. energy level: Fe 2 4. Kurucz obs. energy level: Cr 2 5. Hf 1 - U 2 Bell 6. Kurucz obs. energy level: Co 1 7. Cr 2: Raassen & Uylings 8. Li 1 - K 5 Bell 9. Kurucz obs. energy level: Co 2 10. Kurucz obs. energy level: Fe 1 11. Kurucz obs. energy level: Cr 3 12. Kurucz obs. energy level: V 1 13. Ce 2: DREAM data 14. Kurucz obs. energy level: Ni 1 15. Kurucz obs. energy level: Ni 2 16. Kurucz obs. energy level: Ca 1 17. Kurucz obs. energy level: Fe 3 18. Fe 2: Raassen & Uylings 19. Cu 1 - Ba 2 Bell 20. Kurucz obs. energy level: Mn 2 21. Van der Waals data 22. Kurucz obs. energy level: Y 1 23. Yb 2: DREAM data 24. Kurucz obs. energy level: Sc 1 25. Kurucz obs. energy level: Y 2 26. Kurucz obs. energy level: Ti 2 27. Kurucz obs. energy level: Ti 1 28. Kurucz obs. energy level: Ca 2 29. Kurucz obs. energy level: Ni 6 30. ISAN data 31. Kurucz obs. energy level: S 1 32. Kurucz obs. energy level: V 2 33. V : NBS data 34. Lund: exp. data 35. Fe 1: exp. data 36. Tm 2: DREAM data 37. Hg 2 theor. data 38. Kurucz obs. energy level: Cu 1 39. La 1 - Lu 2 Bell 40. Wisconsin exp. data with IS 41. C 1-6, N 1-7, O 1-8, Na 1, Mg 1: 42. Kurucz obs. energy level: Mn 1 43. Kurucz obs. energy level: Si 1 }}} -~ |
Output formats for Extract All and Extract Element
Short output format with wavelength in Å and energy in eV
Damping parameters Lande
Elm Ion WL_air(A) Excit(eV) log(gf) Rad. Stark Waals factor References
'Cu 2', 4403.7511, 14.1980, -2.009, 9.300,-5.840, -7.750, 1.460,' 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 Cu+ '
'Cr 1', 4403.7742, 1.0300, -9.583, 0.930,-6.150, -7.790, 1.770,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr '
'Cr 1', 4403.7742, 1.0300,-11.444, 0.930,-6.150, -7.790, 1.770,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr '
'Fe 2', 4403.7802, 10.5230, -4.939, 8.860,-5.230, -7.440, 1.370,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ '
'Cr 2', 4403.7854, 11.6270, -1.305, 8.010,-4.980, -7.320, 1.570,' 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 Cr+ '
'Ir 1', 4403.7890, 1.5150, -1.950, 0.000, 0.000, 0.000, 1.240,' 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor Ir '
...
'Cu 2', 4405.5887, 15.9670, -5.761, 8.120,-3.810, -7.250, 0.320,' 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 Cu+ '
'Fe 2', 4405.6116, 13.5710, 0.371, 9.160,-5.270, -7.570, 1.890,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ '
'Sm 2', 4405.6400, 0.4340, -1.850, 0.000, 0.000, 0.000, 1.500,' 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS Sm+ '
'Cr 2', 4405.6660, 8.0910, -6.189, 8.910,-5.820, -7.720, 2.450,' 4 K10 4 K10 7 RU 4 K10 4 K10 4 K10 4 K10 Cr+ '
'Ti 1', 4405.6819, 1.0530, -1.874, 7.360,-6.010, -7.740, 1.010,' 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 Ti '
'Mn 1', 4405.6957, 3.7710, -3.725, 7.430,-6.270, -7.820, 1.610,' 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 Mn '
'Fe 2', 4405.7002, 11.2080, -8.648, 8.200,-4.340, -7.420, 1.460,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ '
References:
1. Kurucz obs. energy level: Cu 2
2. Kurucz obs. energy level: Cr 1
3. Kurucz obs. energy level: Fe 2
4. Kurucz obs. energy level: Cr 2
5. Hf 1 - U 2 Bell
6. Kurucz obs. energy level: Co 1
7. Cr 2: Raassen & Uylings
8. Li 1 - K 5 Bell
9. Kurucz obs. energy level: Co 2
10. Kurucz obs. energy level: Fe 1
11. Kurucz obs. energy level: Cr 3
12. Kurucz obs. energy level: V 1
13. Ce 2: DREAM data
14. Kurucz obs. energy level: Ni 1
15. Kurucz obs. energy level: Ni 2
16. Kurucz obs. energy level: Ca 1
17. Kurucz obs. energy level: Fe 3
18. Fe 2: Raassen & Uylings
19. Cu 1 - Ba 2 Bell
20. Kurucz obs. energy level: Mn 2
21. Van der Waals data
22. Kurucz obs. energy level: Y 1
23. Yb 2: DREAM data
24. Kurucz obs. energy level: Sc 1
25. Kurucz obs. energy level: Y 2
26. Kurucz obs. energy level: Ti 2
27. Kurucz obs. energy level: Ti 1
28. Kurucz obs. energy level: Ca 2
29. Kurucz obs. energy level: Ni 6
30. ISAN data
31. Kurucz obs. energy level: S 1
32. Kurucz obs. energy level: V 2
33. V : NBS data
34. Lund: exp. data
35. Fe 1: exp. data
36. Tm 2: DREAM data
37. Hg 2 theor. data
38. Kurucz obs. energy level: Cu 1
39. La 1 - Lu 2 Bell
40. Wisconsin exp. data with IS
41. C 1-6, N 1-7, O 1-8, Na 1, Mg 1:
42. Kurucz obs. energy level: Mn 1
43. Kurucz obs. energy level: Si 1
- Short output format with wavelength in nm and energy in 1/cm
Damping parameters Lande
Elm Ion WL_air(nm) E_low(cm^-1) log(gf) Rad. Stark Waals factor References
'Cu 2', 440.37511, 114511.228, -2.009, 9.300,-5.840, -7.750, 1.460,' 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 Cu+ '
'Cr 1', 440.37742, 8307.577, -9.583, 0.930,-6.150, -7.790, 1.770,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr '
'Cr 1', 440.37742, 8307.577,-11.444, 0.930,-6.150, -7.790, 1.770,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr '
'Fe 2', 440.37802, 84870.863, -4.939, 8.860,-5.230, -7.440, 1.370,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ '
'Cr 2', 440.37854, 93776.150, -1.305, 8.010,-4.980, -7.320, 1.570,' 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 Cr+ '
'Ir 1', 440.37890, 12218.500, -1.950, 0.000, 0.000, 0.000, 1.240,' 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor 5 GHcor Ir '
'Co 1', 440.38128, 29563.111, -2.227, 8.040,-4.820, -7.500, 0.830,' 6 K08 6 K08 6 K08 6 K08 6 K08 6 K08 6 K08 Co '
'Cr 1', 440.38141, 35501.201, -1.672, 8.180,-4.490, -7.590, 1.340,' 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr '
'Cr 2', 440.38184, 66354.830, -4.159, 8.960,-5.730, -7.700,-0.250,' 4 K10 4 K10 7 RU 4 K10 4 K10 4 K10 4 K10 Cr+ '
'Si 3', 440.38300, 227665.090, -0.370, 0.000, 0.000, 0.000,99.000,' 8 KP 8 KP 8 KP 8 KP 8 KP 8 KP 8 KP Si+2 '
...
'Fe 2', 440.56116, 109455.250, 0.371, 9.160,-5.270, -7.570, 1.890,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ '
'Sm 2', 440.56400, 3499.120, -1.850, 0.000, 0.000, 0.000, 1.500,' 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS Sm+ '
'Cr 2', 440.56660, 65256.880, -6.189, 8.910,-5.820, -7.720, 2.450,' 4 K10 4 K10 7 RU 4 K10 4 K10 4 K10 4 K10 Cr+ '
'Ti 1', 440.56819, 8492.421, -1.874, 7.360,-6.010, -7.740, 1.010,' 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 Ti '
'Mn 1', 440.56957, 30411.675, -3.725, 7.430,-6.270, -7.820, 1.610,' 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 Mn '
'Fe 2', 440.57002, 90397.868, -8.648, 8.200,-4.340, -7.420, 1.460,' 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ '
References:
1. Kurucz obs. energy level: Cu 2
2. Kurucz obs. energy level: Cr 1
3. Kurucz obs. energy level: Fe 2
4. Kurucz obs. energy level: Cr 2
5. Hf 1 - U 2 Bell
6. Kurucz obs. energy level: Co 1
7. Cr 2: Raassen & Uylings
8. Li 1 - K 5 Bell
9. Kurucz obs. energy level: Co 2
10. Kurucz obs. energy level: Fe 1
11. Kurucz obs. energy level: Cr 3
12. Kurucz obs. energy level: V 1
13. Ce 2: DREAM data
14. Kurucz obs. energy level: Ni 1
15. Kurucz obs. energy level: Ni 2
16. Kurucz obs. energy level: Ca 1
17. Kurucz obs. energy level: Fe 3
18. Fe 2: Raassen & Uylings
19. Cu 1 - Ba 2 Bell
20. Kurucz obs. energy level: Mn 2
21. Van der Waals data
22. Kurucz obs. energy level: Y 1
23. Yb 2: DREAM data
24. Kurucz obs. energy level: Sc 1
25. Kurucz obs. energy level: Y 2
26. Kurucz obs. energy level: Ti 2
27. Kurucz obs. energy level: Ti 1
28. Kurucz obs. energy level: Ca 2
29. Kurucz obs. energy level: Ni 6
30. ISAN data
31. Kurucz obs. energy level: S 1
32. Kurucz obs. energy level: V 2
33. V : NBS data
34. Lund: exp. data
35. Fe 1: exp. data
36. Tm 2: DREAM data
37. Hg 2 theor. data
38. Kurucz obs. energy level: Cu 1
39. La 1 - Lu 2 Bell
40. Wisconsin exp. data with IS
41. C 1-6, N 1-7, O 1-8, Na 1, Mg 1:
42. Kurucz obs. energy level: Mn 1
43. Kurucz obs. energy level: Si 1
Long output format with wavelength in Å and energy in eV
Lande factors Damping parameters
Elm Ion WL_air(A) log(gf) E_low(eV) J lo E_up(eV) J up lower upper mean Rad. Stark Waals
'Cu 2', 4403.7511, -2.009, 14.1980, 1.0, 17.0120, 1.0, 1.890, 1.040, 1.460, 9.300,-5.840, -7.750
' LS 3d9.(2D).4d 3S'
' LS 3d8.(3P).4s.4p.(3P*) 1P*'
'K11 Kurucz CuII 2011 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 1 K11 Cu+ '
'Cr 1', 4403.7742, -9.583, 1.0300, 4.0, 3.8450, 3.0, 1.500, 1.330, 1.770, 0.930,-6.150, -7.790
' LS 3d4.4s2 a5D'
' LS 3d5.(2D3).4s b3D*'
'K10 C Kurucz CrI 2010 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr '
'Cr 1', 4403.7742, -11.444, 1.0300, 4.0, 3.8450, 3.0, 1.500, 1.330, 1.770, 0.930,-6.150, -7.790
' LS 3d4.4s2 a5D'
' LS 3d5.(2D3).4s b3D*'
'K10 B Kurucz CrI 2010 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 2 K10 Cr '
'Fe 2', 4403.7802, -4.939, 10.5230, 2.5, 13.3370, 2.5, 1.380, 1.370, 1.370, 8.860,-5.230, -7.440
' LS 3d6.(5D).4d f4D'
' LS 3d6.(5D).6p 6F*'
'K10 Kurucz FeII 2010 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ '
'Cr 2', 4403.7854, -1.305, 11.6270, 2.5, 14.4420, 2.5, 1.650, 1.480, 1.570, 8.010,-4.980, -7.320
' LS (5D)5p 6D*'
' LS (5D)6d 6F'
'K10 Kurucz CrII 2010 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 Cr+ '
...
'Sm 2', 4405.6400, -1.850, 0.4340, 3.5, 3.2470, 2.5, 1.400, 1.320, 1.500, 0.000, 0.000, 0.000
' LS 4f6.(7F).6s 6F'
' *'
'LD-HS E 0.03 Wisconsin REE ex 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS 40 LD-HS Sm+ '
'Cr 2', 4405.6660, -6.189, 8.0910, 3.5, 10.9040, 4.5, 0.920, 1.480, 2.450, 8.910,-5.820, -7.720
' LS a3F)4p z4G*'
' LS (5D)4d e6F'
'K10 Kurucz CrII 2010 4 K10 7 RU 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 4 K10 Cr+ '
'Ti 1', 4405.6819, -1.874, 1.0530, 1.0, 3.8660, 1.0, 1.500, 0.510, 1.010, 7.360,-6.010, -7.740
' LS d2s2 a3P'
' LS 3Psp3P v3D*'
'K10 Kurucz TiI 2010 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 27 K10 Ti '
'Mn 1', 4405.6957, -3.725, 3.7710, 0.5, 6.5840, 1.5, 0.110, 1.310, 1.610, 7.430,-6.270, -7.820
' LS 3d5.4s2 b4D'
' LS 3d5.(4P).4s.4p.(3P*) y4D*'
'K07 Kurucz MnI 2007 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 42 K07 Mn '
'Fe 2', 4405.7002, -8.648, 11.2080, 3.5, 14.0210, 2.5, 1.410, 1.370, 1.460, 8.200,-4.340, -7.420
' LS 3d6.(5D).5p 4D*'
' JK 3d6.(5D<4>).5g 2[2]'
'K10 Kurucz FeII 2010 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 3 K10 Fe+ '
References:
1. Kurucz obs. energy level: Cu 2
2. Kurucz obs. energy level: Cr 1
3. Kurucz obs. energy level: Fe 2
4. Kurucz obs. energy level: Cr 2
5. Hf 1 - U 2 Bell
6. Kurucz obs. energy level: Co 1
7. Cr 2: Raassen & Uylings
8. Li 1 - K 5 Bell
9. Kurucz obs. energy level: Co 2
10. Kurucz obs. energy level: Fe 1
11. Kurucz obs. energy level: Cr 3
12. Kurucz obs. energy level: V 1
13. Ce 2: DREAM data
14. Kurucz obs. energy level: Ni 1
15. Kurucz obs. energy level: Ni 2
16. Kurucz obs. energy level: Ca 1
17. Kurucz obs. energy level: Fe 3
18. Fe 2: Raassen & Uylings
19. Cu 1 - Ba 2 Bell
20. Kurucz obs. energy level: Mn 2
21. Van der Waals data
22. Kurucz obs. energy level: Y 1
23. Yb 2: DREAM data
24. Kurucz obs. energy level: Sc 1
25. Kurucz obs. energy level: Y 2
26. Kurucz obs. energy level: Ti 2
27. Kurucz obs. energy level: Ti 1
28. Kurucz obs. energy level: Ca 2
29. Kurucz obs. energy level: Ni 6
30. ISAN data
31. Kurucz obs. energy level: S 1
32. Kurucz obs. energy level: V 2
33. V : NBS data
34. Lund: exp. data
35. Fe 1: exp. data
36. Tm 2: DREAM data
37. Hg 2 theor. data
38. Kurucz obs. energy level: Cu 1
39. La 1 - Lu 2 Bell
40. Wisconsin exp. data with IS
41. C 1-6, N 1-7, O 1-8, Na 1, Mg 1:
42. Kurucz obs. energy level: Mn 1
43. Kurucz obs. energy level: Si 1