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
7880.434 Ti II 55 - 3d2.(3F).5p 411/2 71946.0817 3d2.(3F).5d 4H11/2 84632.249
7881.83 Ti III 2 - 3p6.3d.5f 32 181908.15 3p6.3d.(2D5/2).6g 2[7/2]3 194592.07
7884.996 Ti I 35 - 3d3.(4F).4s a 5F4 6742.756 3d2.(3F).4s.4p.(3P°) z 33 19421.58
7895.477 Ti I 7 - 3d3.(4F).4s a 5F3 6661.006 3d2.(3F).4s.4p.(3P°) z 32 19322.984
7895.57 Ti III 2 - 3p6.3d.5f 33 181507.92 3p6.3d.(2D3/2).6g 2[9/2]4 194169.81
7899.876 Ti I 15 - 3d3.(4F).4p y 52 26494.33 3d3.(4F).5s f 5F2 39149.28
7899.9 Ti III 15 - 3p6.3d.5s 1D2 134557.84 3p6.3d.5p 12 147212.77
7902.987 Ti I 20 - 3d3.(4F).4p y 53 26564.4 3d3.(4F).5s f 5F3 39214.362
7904.045 Ti I 25 - 3d3.(2D2).4s b 1D2 20209.447 3d2.(1D).4s.4p.(1P°) y 13 32857.723
7906.04 Ti I 25 - 3d3.(4F).4p y 54 26657.416 3d3.(4F).5s f 5F4 39302.506
7909.62 Ti II 20 - 3d.(2D).4s.4p.(1P°) v 25/2 70605.9514 3d2.(3F).6s 2F5/2 83245.315
7916.2 Ti II 3 - 3d2.(3F).4s a 4F3/2 0 3d3 b 2D23/2 12628.8455
7922.022 Ti I 25 - 3d2.(3F).4s.4p.(3P°) z 31 19937.855 3d3.(2D1).4s 3D1 32557.419
7926.316 Ti I 70 - 3d3.(4F).4p y 52 26494.33 3d3.(4F).5s f 5F1 39107.06
7933.039 Ti I 9 - 3d2.(3F).4s.4p.(3P°) z 31 19937.855 3d3.(2D1).4s 3D2 32539.905
7938.521 Ti I 10 - 3d3.(2G).4s a 3G4 15156.802 3d2.(3F).4s.4p.(1P°) y 35 27750.135
7943.865 Ti I 50 - 3d3.(4F).4p y 53 26564.4 3d3.(4F).5s f 5F2 39149.28
7945.68 Ti II 10 - 3d3 d 2D15/2 32332.9031 3d2.(3P).4p x 23/2 44914.8733
7949.151 Ti I 165 - 3d2.4s2 a 1G4 12118.393 3d2.(3F).4s.4p.(3P°) z 14 24694.892
7953.55 Ti II 20 - 3d3 d 2D15/2 32332.9031 3d2.(3P).4p x 25/2 44902.4455
7955.11 Ti III 2 - 3p6.3d.5f 33 182025.86 3p6.3d.(2D5/2).6g 2[7/2]4 194592.98
7961.533 Ti I 135 - 3d3.(4F).4p y 54 26657.416 3d3.(4F).5s f 5F3 39214.362
7965.064 Ti I 9 - 3d2.(3F).4s.4p.(3P°) z 32 20006.039 3d3.(2D1).4s 3D1 32557.419
7975.64 Ti II 3 - 3d2.(3F).4s a 4F5/2 94.1142 3d3 b 2D23/2 12628.8455
7975.776 Ti II 25 - 3d2.(3F).5p 45/2 71825.9911 3d2.(3F).5d 4G7/2 84360.507
7975.94 Ti III 9 - 3p6.3d.4d 1D2 135405.27 3p6.3d.5p 33 147939.47
7976.194 Ti I 35 - 3d2.(3F).4s.4p.(3P°) z 32 20006.039 3d3.(2D1).4s 3D2 32539.905
7977.02 Ti II 3 - 3d2.(3F).4s a 4F7/2 225.7039 3d3 b 2D25/2 12758.2597
7978.305 Ti II 40 - 3d2.(3F).5p 47/2 71960.4326 3d2.(3F).5d 4G9/2 84490.976
7978.815 Ti I 345 - 3d3.(2G).4s a 3G5 15220.393 3d2.(3F).4s.4p.(1P°) y 35 27750.135
7978.954 Ti I 120 - 3d3.(4F).4p y 55 26772.968 3d3.(4F).5s f 5F4 39302.506
7981.09 Ti III 20 - 3p6.3d.4d 1D2 135405.27 3p6.3d.5p 32 147931.47
7981.494 Ti II 30 - 3d2.(3F).5p 49/2 72126.913 3d2.(3F).5d 4D7/2 84652.443
7992.346 Ti I 8 - 3d2.(3F).4s.4p.(3P°) z 32 20006.039 3d3.(2D1).4s 3D3 32514.566
7993.606 Ti I 10 - 3d3.(2G).4s a 3G3 15108.111 3d2.(3F).4s.4p.(1P°) y 34 27614.679
7994.387 Ti II 50 - 3d2.(3F).5p 49/2 72126.913 3d2.(3F).5d 4H11/2 84632.249
7996.434 Ti I 135 - 3d3.(4F).4p y 56 26910.709 3d3.(4F).5s f 5F5 39412.846
8003.481 Ti I 25 - 3d2.(1G).4s.4p.(3P°) x 35 30039.17 3d2.4s.(4F).4d 3H6 42530.2894
8024.84 Ti I 165 - 3d3.(2G).4s a 3G4 15156.802 3d2.(3F).4s.4p.(1P°) y 34 27614.679
8028.256 Ti II 9 - 3d.(2D).4s.4p.(1P°) v 25/2 70605.9514 3d2.(3F).6s 4F7/2 83058.538
8030.7 Ti III 3 - 3p6.3d.5f 32 182207.39 3p6.3d.(2D5/2).6g 2[5/2]3 194656.18
8034.453 Ti II 20 - 3d2.(3F).5p 45/2 71825.9911 3d2.(3F).5d 4G5/2 84268.971
8053.306 Ti I 35 - 3d2.(3F).4s.4p.(3P°) z 33 20126.062 3d3.(2D1).4s 3D2 32539.905
8056.158 Ti II 15 - 3d2.(3F).5p 47/2 71960.4326 3d2.(3F).5d 4H7/2 84369.88
8064.247 Ti I 40 - 3d2.(1G).4s.4p.(3P°) x 34 29971.086 3d2.4s.(4F).4d 3H5 42368.0934
8066.018 Ti I 10 - 3d3.(2G).4s a 3G5 15220.393 3d2.(3F).4s.4p.(1P°) y 34 27614.679
8068.24 Ti I 165 - 3d3.(2G).4s a 3G3 15108.111 3d2.(3F).4s.4p.(1P°) y 33 27498.982
8069.781 Ti I 50 - 3d2.(3F).4s.4p.(3P°) z 33 20126.062 3d3.(2D1).4s 3D3 32514.566
8071.489 Ti II 30 - 3d2.(3F).5p 49/2 72126.913 3d2.(3F).5d 4H9/2 84512.7943
8080.457 Ti I 6 - 3d3.(2D2).4s a 3D3 17540.188 3d2.(3F).4s.4p.(1P°) w 33 29912.286
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