Line Tables

These tables give observed air wavelengths for the 2000-20000 Å range for spectra other than Fr I. Outside of the 2000-20000 Å range, the wavelengths are vacuum wavelengths. Lines of Fr I are extrapolated vacuum wavelengths from known energy levels. All observed lines are from NIST ASD. All energy level information is from NIST ASD. Wavelengths from MIT Wavelength Tables have been omitted as this publication appears to still be under copyright. However, in some cases, the exact same wavelength is given by NIST and MIT; in that case, the line is included.

Line intensities have been adjusted in the visible region to match photographed visible spectra. Line intensities of Rn have been adjusted to match the Grotrian diagram of Rn I. Line intensities in the infrared and ultraviolet are less reliable, but every effort was made to estimate them as accurately as possible. The elements He, O, Cl, Ar, Kr, and Xe have had their NIR lines photographed out to roughly 11000 Å. The intensities of the "brightest" several IR lines of each of these elements, in the 7000-10000 Å range, can be trusted. For the range of 3800-8000 Å, estimated visual brightnesses (EVB) are given. A dash in either of the intensity columns means the line intensity would be less than one relative to other lines of the same spectrum.

All Spectra

H   He
Li Be   B C N O F Ne
Na Mg   Al Si P S Cl Ar
K Ca   Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga Ge As Se Br Kr
Rb Sr   Y Zr Nb Mo Tc Ru Rh Pd Ag Cd In Sn Sb Te I Xe
Cs Ba La Ce Pr Nd Pm Sm Eu Gd Tb Dy Ho Er Tm Yb Lu Hf Ta W Re Os Ir Pt Au Hg Tl Pb Bi Po At Rn
Fr Ra Ac Th Pa U Np Pu Am Cm Bk Cf Es Fm Md No Lr Rf Db Sg Bh Hs Mt Ds Rg Cn Nh Fl Mc Lv Ts Og

Entire Range | 2000-10000 Å | Visible Region | Si CCD/CMOS Region | Thermal IR | Vacuum UV
Specific Wavelength (rounded):  Å  nm
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λ, Å E. Sp.# Rel.Int. EVB Lower Config Lower Term+J Lower Level Upper Config Upper Term+J Upper Level
4317.98 Ti III 3 1 3p6.3d.4d 1D2 135405.27 3p6.3d.4f 33 158557.76
4318.44 Ti III 9 4 3p6.3d.4f 34 158865.03 3p6.3d.(2D3/2).5g 2[9/2]4 182014.92
4318.629 Ti I 900 420 3d3.(2H).4s a 3H6 18192.57 3d3.(2H).4p 35 41341.543
4319.561 Ti III 20 8 3p6.3d.4f 34 159022.93 3p6.3d.(2D3/2).5g 2[11/2]5 182166.91
4320.9504 Ti II 360 169 3d3 a 4P3/2 9395.802 3d2.(3F).4p z 41/2 32532.3542
4321.654 Ti I 645 297 3d3.(2H).4s a 3H4 18037.213 3d3.(2H).4p 33 41170.006
4321.77 Ti I 40 20 3d3.(2D2).4s a 3D2 17423.856 3d3.(4P).4p r 31 40556.014
4321.91 Ti III 3 1 3p6.3d.4d 1D2 135405.27 3p6.3d.4f 32 158536.63
4322.114 Ti I 30 14 3d3.(2D2).4s a 3D3 17540.188 3d3.(4P).4p r 32 40670.509
4323.431 Ti I 180 86 3d2.4s2 a 3P2 8602.3441 3d2.(3P).4s.4p.(3P°) y 31 31725.605
4325.126 Ti I 930 433 3d3.(2H).4s a 3H5 18141.265 3d3.(2H).4p 34 41255.481
4325.93 Ti III 6 3 3p6.3d.4f 35 158903.55 3p6.3d.(2D3/2).5g 2[9/2]5 182013.32
4326.235 Ti I 35 16 3d2.(3F).4s.4p.(3P°) z 54 16106.076 3d3.(4F).5s f 5F3 39214.362
4326.351 Ti I 555 261 3d3.(4F).4s a 5F3 6661.006 3d2.(3F).4s.4p.(1P°) w 32 29768.675
4326.824 Ti III 15 8 3p6.3d.4f 33 159481.95 3p6.3d.(2D5/2).5g 2[5/2]3 182587.12
4326.96 Ti I 105 52 3d3.(4F).4s a 5F1 6556.833 3d2.(3F).4s.4p.(1P°) w 31 29661.25
4327.62 Ti III 25 11 3p6.3d.4f 12 159123.78 3p6.3d.(2D3/2).5g 2[5/2]3 182224.72
4328.25 Ti III 7 3 3p6.3d.5p 31 147562.14 3p6.3d.5d 3P1 170659.72
4329.496 Ti III 15 7 3p6.3d.5p 32 147749.89 3p6.3d.5d 1D2 170840.8
4330.2369 Ti II 375 177 3d2.(3P).4s b 2P1/2 16515.9359 3d2.(1D).4p y 23/2 39602.8645
4330.6976 Ti II 285 133 3d3 a 4P5/2 9518.1516 3d2.(3F).4p z 43/2 32602.6265
4333.542 Ti III 30 15 3p6.3d.4f 32 159403.91 3p6.3d.(2D5/2).5g 2[7/2]3 182473.21
4334.828 Ti I 285 135 3d3.(2F).4s 3F4 25037.405 3d2.4s.(4F5/2).4f 2[7/2]°3 48099.8996
4335.81 Ti III 15 6 3p6.3d.5p 12 147212.77 3p6.3d.6s 1D2 170270.02
4337.264 Ti II 20 9 3d2.(3P).4s b 2P3/2 16625.2441 3d2.(1D).4p z 21/2 39674.7616
4337.9143 Ti II 1000 572 3d2.(1D).4s a 2D3/2 8710.5675 3d2.(3F).4p z 23/2 31756.6406
4338.22 Ti III 5 2 3p6.3d.4f 13 159180.24 3p6.3d.(2D3/2).5g 2[5/2]3 182224.72
4338.465 Ti I 120 55 3d3.(2D2).4s a 3D2 17423.856 3d.4s2.4p v 32 40466.987
4338.712 Ti III 15 8 3p6.3d.4f 35 159128.94 3p6.3d.(2D3/2).5g 2[11/2]6 182170.72
4339.996 Ti I 120 55 3d2.(3F).4s.4p.(3P°) z 55 16267.48 3d3.(4F).5s f 5F4 39302.506
4341.356 Ti II 390 186 3d3 a 2G7/2 8997.7874 3d2.(3F).4p z 25/2 32025.5915
4343.246 Ti III 15 7 3p6.3d.5p 31 147562.14 3p6.3d.5d 3P0 170579.96
4343.777 Ti I 100 47 3d3.(2D2).4s a 3D1 17369.529 3d.4s2.4p v 31 40384.497
4344.2807 Ti II 495 235 3d2.(1D).4s a 2D5/2 8744.3406 3d2.(3F).4p z 23/2 31756.6406
4346.103 Ti I 405 190 3d3.(2H).4s a 3H4 18037.213 3d3.(2H).4p y 15 41039.87
4346.605 Ti I 150 71 3d3.(2D2).4s a 3D1 17369.529 3d.4s2.4p v 30 40369.532
4348.04 Ti III 65 32 3p6.3d.4f 33 159481.95 3p6.3d.(2D5/2).5g 2[7/2]4 182474.38
4348.4 Ti III 20 10 3p6.3d.4f 34 159022.93 3p6.3d.(2D3/2).5g 2[9/2]5 182013.32
4350.8376 Ti II 315 149 3d2.(3P).4s b 2P3/2 16625.2441 3d2.(1D).4p y 23/2 39602.8645
4352.282 Ti III 55 26 3p6.3d.5p 11 149403.52 3p6.3d.5d 1S0 172373.52
4354.054 Ti I 270 127 3d3.(2F).4s 3F4 25037.405 3d2.4s.(4F3/2).4f 2[7/2]°3 47997.9976
4355.283 Ti I 105 51 3d2.(3F).4s.4p.(3P°) z 56 16458.671 3d3.(4F).5s f 5F5 39412.846
4357.27 Ti III 10 5 3p6.3d.4f 12 159123.78 3p6.3d.(2D3/2).5g 2[7/2]3 182067.49
4358.89 Ti III 5 3 3p6.3d.4d 3P1 135601.47 3p6.3d.4f 32 158536.63
4359.1769 Ti II 55 25 3d2.(3P).4p y 23/2 45548.9273 3d2.(3F).4d 2D5/2 68482.5767
4360.482 Ti I 690 324 3d3.(2D2).4s a 3D3 17540.188 3d.4s2.4p v 32 40466.987
4361.15 Ti III 120 54 3p6.3d.4f 33 159481.95 3p6.3d.(2D5/2).5g 2[9/2]4 182405.25
4362.34 Ti III 5 2 3p6.3d.5p 32 147749.89 3p6.3d.5d 3P2 170666.94
4363.5417 Ti II 50 24 3d2.(1G).4p z 29/2 45673.7641 3d2.(3F).4d e 2H11/2 68584.4792
4363.74 Ti III 30 14 3p6.3d.5p 32 147931.47 3p6.3d.5d 1D2 170840.8
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