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
2981.31	Ti	II	10	-	3d3	b 4F9/2	1215.8329	3d2.(3F).4p	z 2G°9/2	34748.5062
2981.346	Ti	I	1	-	3d3.(4F).4s	b 3F2	11531.761	3d3.(4F).5p	n 3D°2	45063.941
2981.473	Ti	I	15	-	3d2.4s2	a 3F3	170.1328	3d3.(4F).4p	w 3F°4	33700.884
2982.287	Ti	I	10	-	3d3.(2G).4s	a 3G3	15108.111	3d2.4s.(2F).5p	3F°3	48629.67
2982.5853	Ti	II	6	-	3d2.(3F).4p	z 2D°3/2	31756.6406	3d2.(3F).4d	4D3/2	65274.8247
2983.305	Ti	I	15	-	3d2.4s2	a 3F3	170.1328	3d3.(4F).4p	w 3F°3	33680.248
2983.567	Ti	I	6	-	3d2.4s2	a 3P0	8436.618	3d3.(2P).4p	u 3P°1	41943.884
2984.747	Ti	III	25	-	3p6.3d.4s	1D2	41704.27	3p6.3d.4p	1D°2	75198.21
2985.481	Ti	I	10	-	3d2.4s2	a 3F3	170.1328	3d3.(4F).4p	w 3F°2	33655.869
2986.631	Ti	I	10	-	3d3.(2G).4s	a 3G4	15156.802	3d2.4s.(2F).5p	3F°3	48629.67
2986.89	Ti	I	3	-	3d3.(4F).4s	b 3F2	11531.761	3d3.(4F).5p	3G°3	45001.681
2987.38	Ti	II	3	-	3d2.(1D).4s	a 2D5/2	8744.3406	3d2.(3P).4p	z 4P°5/2	42208.8232
2987.42	Ti	I	1	-	3d3.(2G).4s	a 3G5	15220.393	3d2.4s.(2F).5p	3G°4	48684.34
2987.965	Ti	I	4	-	3d3.(4F).4s	b 3F3	11639.8109	3d3.(4F).5p	3G°4	45097.711
2989.914	Ti	I	2	-	3d2.4s2	a 3P1	8492.422	3d3.(2P).4p	u 3P°2	41928.526
2990.04315	Ti	II	75	-	3d2.(3F).4p	z 2D°5/2	32025.5915	3d2.(3F).4d	4D7/2	65460.1706
2990.485	Ti	I	10	-	3d3.(4F).4s	b 3F4	11776.812	3d3.(4F).5p	n 3D°3	45206.499
2990.983	Ti	I	8	-	3d3.(4F).4s	b 3F3	11639.8109	3d3.(4F).5p	n 3D°2	45063.941
2991.787	Ti	I	3	-	3d2.4s2	a 1D2	7255.355	3d3.(4P).4p	r 3D°2	40670.509
2993.041	Ti	I	3	-	3d3.(4F).4s	b 3F3	11639.8109	3d3.(4F).5p	3F°4	45040.955
2993.931	Ti	I	2	-	3d3.(4F).4s	b 3F2	11531.761	3d3.(4F).5p	3F°3	44922.979
2994.436	Ti	I	3	-	3d3.(2G).4s	a 3G4	15156.802	3d2.4s.(2F).5p	3G°3	48542.31
2995.637	Ti	II	40	-	3d2.(3F).4p	z 2D°5/2	32025.5915	3d2.(3F).4d	4D5/2	65397.7388
2996.565	Ti	I	2	-	3d3.(4F).4s	b 3F3	11639.8109	3d3.(4F).5p	3G°3	45001.681
2997.409	Ti	I	1	-	3d3.(2G).4s	a 3G3	15108.111	3d2.4s.(2F).5p	3F°2	48460.59
2997.777	Ti	II	3	-	3d2.(3P).4p	z 4S°3/2	40027.2001	3d2.(1D).4d	2S1/2	73375.538
2998.388	Ti	I	2	-	3d2.4s2	a 3P2	8602.3441	3d3.(2P).4p	u 3P°1	41943.884
2999.773	Ti	I	2	-	3d2.4s2	a 3P2	8602.3441	3d3.(2P).4p	u 3P°2	41928.526
3000.249	Ti	I	3	-	3d3.(4F).4s	b 3F4	11776.812	3d3.(4F).5p	3G°4	45097.711
3000.865	Ti	I	15	-	3d2.4s2	a 3F4	386.874	3d3.(4F).4p	w 3F°4	33700.884
3001.871	Ti	I	6	-	3d3.(4F).4s	b 3F2	11531.761	3d3.(4F).5p	3F°2	44834.642
3002.077	Ti	I	4	-	3d2.4s2	a 1D2	7255.355	3d3.(4P).4p	r 3D°1	40556.014
3002.7262	Ti	I	15	-	3d2.4s2	a 3F4	386.874	3d3.(4F).4p	w 3F°3	33680.248
3003.65	Ti	I	6	-	3d3.(4F).4s	b 3F3	11639.8109	3d3.(4F).5p	3F°3	44922.979
3004.0039	Ti	II	6	-	3d2.(3F).4p	z 2G°7/2	34543.3799	3d2.(3F).4d	e 2G9/2	67822.5867
3005.367	Ti	I	6	-	3d3.(4F).4s	b 3F4	11776.812	3d3.(4F).5p	3F°4	45040.955
3006.06	Ti	VIII	10	-	3s2.3p3	4S°3/2	0	3s2.3p3	2D°5/2	33256.4
3008.31	Ti	II	4	-	3d3	a 2H9/2	12677.105	3d2.(1G).4p	z 2H°11/2	45908.6592
3008.38	Ti	III	10	-	3p6.3d2	1D2	8473.5	3p6.3d.4s	1D2	41704.27
3010.118	Ti	I	2	-	3d2.4s2	a 1D2	7255.355	3d.4s2.4p	v 3P°2	40466.987
3017.18349	Ti	II	135	-	3d3	a 2H11/2	12774.8168	3d2.(1G).4p	z 2H°11/2	45908.6592
3018.13596	Ti	II	50	-	3d2.(3P).4p	y 2P°1/2	45472.4518	3d2.(3P).4d	2D3/2	78595.8371
3021.353	Ti	I	10	-	3d2.4s2	a 1G4	12118.393	3d3.(4F).5p	n 3D°3	45206.499
3022.63588	Ti	II	180	-	3d2.(3F).4p	z 2G°9/2	34748.5062	3d2.(3F).4d	e 2G9/2	67822.5867
3023.66852	Ti	II	120	-	3d2.(3F).4p	z 2G°7/2	34543.3799	3d2.(3F).4d	e 2G7/2	67606.1621
3025.059	Ti	I	3	-	3d2.4s2	a 1D2	7255.355	3d3.(2D2).4p	w 1F°3	40302.957
3025.1204	Ti	II	25	-	3d2.(3P).4p	y 2P°3/2	45548.9273	3d2.(3P).4d	2D3/2	78595.8371
3029.72799	Ti	II	120	-	3d3	a 2H9/2	12677.105	3d2.(1G).4p	z 2H°9/2	45673.7641
3029.88373	Ti	II	120	-	3d2.(3P).4p	y 2P°3/2	45548.9273	3d2.(3P).4d	2D5/2	78543.8893
3031.026	Ti	I	6	-	3d2.4s2	a 3P2	8602.3441	3d3.(2G).4p	v 1F°3	41584.908

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