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| = Extract All request = Extract All presents all transitions falling in a specified spectral range. You can select this extraction form from in the VALD3 web interface or using the VALD3 email service (EMS). When using email the body should look like this: {{{ begin request extract all <lambda1>, <lambda2> <options> … end request }}} he allowed options are (one per line): . '''Default configuration''' ''or'' Personal configuration . '''Default Waals''' ''or'' Extended Waals . '''Energy unit 1/cm''' ''or'' Energy unit eV . '''Medium air''' ''or'' Medium vacuum . '''Wave unit Angstrom''' ''or'' Wave unit 1/cm . '''Isotopic scaling''' ''or'' No isotopic scaling The first group of options has two alternatives. The default answer (given in '''bold''') is used when no option is selected. The 2nd group specifies the output via FTP or sets additional constraints on extracted records: . '''via FTP''' . '''Have rad'''iative damping . '''Have Stark''' damping . '''Have Waals''' . '''Have Lande''' . '''Have term''' designation In this group '''bold''' indicates the minimal part of a keyword that needs to be included for VALD to react. All options are case insensitive and white spaces are ignored. |
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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 }}} -~ |
Extract All request
Extract All presents all transitions falling in a specified spectral range. You can select this extraction form from in the VALD3 web interface or using the VALD3 email service (EMS). When using email the body should look like this:
begin request extract all <lambda1>, <lambda2> <options> … end request
he allowed options are (one per line):
Default configuration or Personal configuration
Default Waals or Extended Waals
Energy unit 1/cm or Energy unit eV
Medium air or Medium vacuum
Wave unit Angstrom or Wave unit 1/cm
Isotopic scaling or No isotopic scaling
The first group of options has two alternatives. The default answer (given in bold) is used when no option is selected. The 2nd group specifies the output via FTP or sets additional constraints on extracted records:
via FTP
Have radiative damping
Have Stark damping
Have Waals
Have Lande
Have term designation
In this group bold indicates the minimal part of a keyword that needs to be included for VALD to react. All options are case insensitive and white spaces are ignored.
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