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
3130.383 Ti I 7 - 3d3.(4F).4s b 3F2 11531.761 3d2.4s.(4F).5p r 32 43467.537
3130.79847 Ti II 435 - 3d2.(3F).4s a 4F5/2 94.1142 3d2.(3F).4p z 25/2 32025.5915
3132.709 Ti I 8 - 3d2.(3F).4s.4p.(3P°) z 54 16106.076 3d2.4s.(4F).5d h 5G4 48018.093
3133.122 Ti I 3 - 3d2.(3F).4s.4p.(3P°) z 51 16817.16 3d2.4p2 e 3D1 48724.955
3133.187 Ti I 10 - 3d2.(3F).4s.4p.(3P°) z 51 16817.16 3d2.4p2 e 3D2 48724.302
3134.397 Ti I 10 - 3d2.(3F).4s.4p.(3P°) z 53 15975.631 3d2.4s.(4F).5d h 5G2 47870.47
3134.668 Ti I 3 - 3d2.4s2 a 3P1 8492.422 3d.4s2.4p v 31 40384.497
3135.052 Ti I 15 - 3d2.(3F).4s.4p.(3P°) z 54 16106.076 3d2.4s.(4F).5d g 5H5 47994.377
3136.025 Ti I 6 - 3d2.(3F).4s.4p.(3P°) z 53 16961.442 3d2.4p2 e 3D3 48839.708
3136.14 Ti I 10 - 3d2.4s2 a 3P1 8492.422 3d.4s2.4p v 30 40369.532
3137.367 Ti I 10 - 3d2.4s2 a 3P2 8602.3441 3d.4s2.4p v 32 40466.987
3138.627 Ti I 8 - 3d2.(3F).4s.4p.(3P°) z 55 16267.48 3d2.4s.(4F).5d h 5G5 48119.335
3138.826 Ti I 4 - 3d2.(3F).4s.4p.(3P°) z 52 16875.124 3d2.4p2 e 3D1 48724.955
3138.89 Ti I 3 - 3d2.(3F).4s.4p.(3P°) z 52 16875.124 3d2.4p2 e 3D2 48724.302
3139.8753 Ti I 10 - 3d2.(3F).4s.4p.(3P°) z 55 16267.48 3d2.4s.(4F).5d g 5H6 48106.659
3141.004 Ti I 3 - 3d3.(4F).4s b 3F3 11639.8109 3d2.4s.(4F).5p r 32 43467.537
3141.5312 Ti I 15 - 3d2.4s2 a 1D2 7255.355 3d3.(2D2).4p x 11 39077.753
3141.6687 Ti I 10 - 3d2.(3F).4s.4p.(3P°) z 55 17215.39 3d2.4p2 h 5D4 49036.389
3143.098 Ti I 1 - 3d3.(4F).4s b 3F4 11776.812 3d2.4s.(4F).5p r 33 43583.355
3143.3448 Ti I 10 - 3d2.(3F).4s.4p.(3P°) z 56 16458.671 3d2.4s.(4F).5d g 5H7 48262.705
3143.551 Ti I 2 - 3d3.(2G).4s a 3G5 15220.393 3d3.(2F).4p 35 47022.337
3143.68 Ti II 3 - 3d3 a 2G7/2 8997.7874 3d2.(3P).4p y 47/2 40798.4333
3143.75461 Ti II 330 - 3d2.(3F).4s a 4F7/2 225.7039 3d2.(3F).4p z 25/2 32025.5915
3144.7185 Ti II 20 - 3d3 b 4F3/2 907.9672 3d2.(3F).4p z 45/2 32698.1022
3145.093 Ti II 3 - 3d2.(3P).4p y 23/2 45548.9273 3d2.(3P).4d 2F5/2 77335.2729
3145.3966 Ti II 9 - 3d3 b 4F5/2 983.9157 3d2.(3F).4p z 47/2 32767.1961
3145.508 Ti I 7 - 3d2.4s2 a 3P2 8602.3441 3d.4s2.4p v 31 40384.497
3146.246 Ti I 8 - 3d2.(3F).4s.4p.(3P°) z 56 16458.671 3d2.4s.(4F).5d h 5G6 48233.38
3147.262 Ti I 9 - 3d2.(3F).4s.4p.(3P°) z 54 17075.258 3d2.4p2 e 3D3 48839.708
3147.419 Ti I 7 - 3d2.(3F).4s.4p.(3P°) z 53 16961.442 3d2.4p2 e 3D2 48724.302
3148.03612 Ti II 450 - 3d2.(3F).4s a 4F3/2 0 3d2.(3F).4p z 23/2 31756.6406
3148.628 Ti I 10 - 3d2.(3F).4s.4p.(3P°) z 55 16267.48 3d2.4s.(4F).5d h 5G4 48018.093
3150.317 Ti III 2 - 3p6.3d.4d 3D1 128433.4 3p6.3d.4f 30 160167.06
3151.114 Ti I 2 - 3d2.4s2 a 3F2 0 3d2.(3P).4s.4p.(3P°) y 31 31725.605
3152.25017 Ti II 330 - 3d3 b 4F5/2 983.9157 3d2.(3F).4p z 45/2 32698.1022
3152.552 Ti I 10 - 3d2.(3F).4s.4p.(3P°) z 53 16961.442 3d2.4s.(4F).5d 5F4 48672.566
3153.5999 Ti I 10 - 3d2.4s2 a 3P2 8602.3441 3d3.(2D2).4p w 13 40302.957
3154.19244 Ti II 270 - 3d3 b 4F3/2 907.9672 3d2.(3F).4p z 43/2 32602.6265
3154.378 Ti I 2 - 3d2.(3F).4s.4p.(3P°) z 51 16817.16 3d2.4s.(4F).5d 5F2 48509.938
3154.518 Ti III 3 - 3p6.3d.4d 1F3 127790.57 3p6.3d.4f 33 159481.95
3155.533 Ti I 2 - 3d3.(2G).4s a 3G4 15156.802 3d3.(2F).4p 34 46837.984
3155.63756 Ti II 50 - 3d3 a 2G9/2 9118.2849 3d2.(3P).4p y 47/2 40798.4333
3155.66794 Ti II 255 - 3d3 b 4F7/2 1087.3561 3d2.(3F).4p z 47/2 32767.1961
3155.8333 Ti II 10 - 3d2.(3F).4p z 27/2 31490.9177 3d2.(3F).5s e 2F5/2 63169.091
3156.718 Ti IV 1 - 3p6.6p 21/2 274726.29 3p6.7d 2D3/2 306395.69
3157. Ti XII 10 - 2p6.7s 2S1/2 1989000 2p6.7d 2D3/2 2020670
3157.39342 Ti II 50 - 3d2.(3F).4s a 4F5/2 94.1142 3d2.(3F).4p z 23/2 31756.6406
3157.586 Ti I 10 - 3d2.(3F).4s.4p.(3P°) z 56 16458.671 3d2.4s.(4F).5d h 5G5 48119.335
3157.6628 Ti I 10 - 3d2.4s2 a 3F3 170.1328 3d2.(1G).4s.4p.(3P°) z 34 31829.969
3159.559 Ti I 3 - 3d2.(3F).4s.4p.(3P°) z 51 16817.16 3d2.4s.(4F).5d 5F1 48458.006
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