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
2069.8398	Ti	I	1	-	3d2.4s2	a 3F4	386.874	3d2.4s.(2F).5p	3G°4	48684.34
2072.1857	Ti	I	2	-	3d2.4s2	a 3F2	0	3d2.4s.(4F7/2).4f	2[3/2]°2	48242.7911
2082.57	Ti	II	10	-	3d2.(3F).4s	a 2F5/2	4628.6571	3d.(2D).4s.4p.(3P°)	4D°5/2	52630.881
2089.48	Ti	II	10	-	3d2.(3F).4s	a 2F5/2	4628.6571	3d.(2D).4s.4p.(3P°)	4F°5/2	52471.895
2090.04	Ti	II	10	-	3d2.(3F).4s	a 2F5/2	4628.6571	3d.(2D).4s.4p.(3P°)	4D°3/2	52459.395
2091.06	Ti	II	10	-	3d2.(3F).4s	a 2F7/2	4897.7179	3d.(2D).4s.4p.(3P°)	4F°7/2	52705.2416
2091.104	Ti	V	6	-	3s2.3p5.4s	1P°1	443752.7	3s.3p6.3d	3D2	491558.7
2094.3	Ti	II	10	-	3d2.(3F).4s	a 2F7/2	4897.7179	3d.(2D).4s.4p.(3P°)	4D°5/2	52630.881
2095.69	Ti	II	1	-	3d2.(3F).4s	a 2F5/2	4628.6571	3d.(2D).4s.4p.(3P°)	4F°3/2	52329.889
2095.845	Ti	II	9	-	3d2.(3F).4p	z 2G°7/2	34543.3799	3d2.(1G).4d	2F5/2	82241.662
2096.1411	Ti	II	15	-	3d.4s2	c 2D5/2	25192.965	3d2.(3F).5p	2G°7/2	72884.5221
2097.299	Ti	III	10	-	3p6.3d.4p	3P°2	81024.47	3p6.3d.4d	3D3	128689.67
2098.042	Ti	V	4	-	3s2.3p5.4s	3P°2	434339.4	3s2.3p5.4p	3S1	481987.7
2099.08	Ti	II	10	-	3d2.(3F).4s	a 4F3/2	0	3d2.(1G).4p	x 2F°5/2	47625.0485
2099.5	Ti	II	10	-	3d2.(1D).4s	a 2D3/2	8710.5675	3d.(2D).4s.4p.(3P°)	y 4P°5/2	56326.1371
2099.862	Ti	III	8	-	3p6.3d.4p	3P°1	80939.19	3p6.3d.4d	3D2	128546.38
2100.99	Ti	II	1	-	3d2.(1D).4s	a 2D5/2	8744.3406	3d.(2D).4s.4p.(3P°)	y 4P°5/2	56326.1371
2101.3	Ti	II	1	-	3d2.(3F).4s	a 2F7/2	4897.7179	3d.(2D).4s.4p.(3P°)	4F°5/2	52471.895
2102.88	Ti	II	10	-	3d2.(1D).4s	a 2D3/2	8710.5675	3d.(2D).4s.4p.(3P°)	y 4P°3/2	56249.2448
2103.106	Ti	IV	20	-	3p6.4s	2S1/2	80388.92	3p6.4p	2P°1/2	127921.36
2103.23	Ti	II	1	-	3d2.(3F).4s	a 4F5/2	94.1142	3d2.(1G).4p	x 2F°5/2	47625.0485
2103.6	Ti	III	6	-	3p6.3d.4p	3P°2	81024.47	3p6.3d.4d	3D2	128546.38
2104.05	Ti	II	10	-	3d2.(1D).4s	a 2D3/2	8710.5675	3d.(2D).4s.4p.(3P°)	y 4P°1/2	56223.205
2104.3784	Ti	II	3	-	3d2.(1D).4s	a 2D5/2	8744.3406	3d.(2D).4s.4p.(3P°)	y 4P°3/2	56249.2448
2104.8373	Ti	II	9	-	3d2.(3F).4p	z 2G°9/2	34748.5062	3d2.(1G).4d	2F7/2	82243.0637
2104.857	Ti	III	4	-	3p6.3d.4p	3P°1	80939.19	3p6.3d.4d	3D1	128433.4
2105.092	Ti	III	6	-	3p6.3d.4p	3P°0	80944.87	3p6.3d.4d	3D1	128433.4
2108.3241	Ti	II	25	-	3d.4s2	c 2D5/2	25192.965	3d2.(3F).5p	4D°7/2	72608.9742
2109.07	Ti	II	10	-	3d2.(3F).4s	a 4F7/2	225.7039	3d2.(1G).4p	x 2F°5/2	47625.0485
2110.0597	Ti	II	9	-	3d.4s2	c 2D3/2	24961.191	3d2.(3F).5p	4D°3/2	72338.206
2113.8076	Ti	I	10	-	3d2.4s2	a 3F3	170.1328	3d3.(2F).4p	p 3F°4	47463.135
2115.34147	Ti	II	30	-	3d.4s2	c 2D5/2	25192.965	3d2.(3F).5p	4D°5/2	72451.6968
2116.14	Ti	II	10	-	3d2.(3F).4s	a 4F7/2	225.7039	3d2.(1G).4p	x 2F°7/2	47466.7479
2117.12	Ti	XIV	10	-	2s2.2p5	2P°3/2	0	2s2.2p5	2P°1/2	47219
2117.15	Ti	XIV	10	-	2s2.2p5	2P°3/2	0	2s2.2p5	2P°1/2	47219
2118.5342	Ti	I	6	-	3d2.4s2	a 3F2	0	3d3.(2F).4p	p 3F°2	47187.507
2120.434	Ti	II	4	-	3d.4s2	c 2D5/2	25192.965	3d2.(3F).5p	4D°3/2	72338.206
2121.9432	Ti	I	7	-	3d2.4s2	a 3F3	170.1328	3d3.(2F).4p	p 3F°3	47281.887
2123.5489	Ti	I	10	-	3d2.4s2	a 3F4	386.874	3d3.(2F).4p	p 3F°4	47463.135
2123.68	Ti	II	10	-	3d2.(3F).4s	a 4F9/2	393.4459	3d2.(1G).4p	x 2F°7/2	47466.7479
2129.58	Ti	III	1	-	3p6.3d.4p	1P°1	83796.86	3p6.3d.4d	3S1	130739.82
2130.1451	Ti	II	6	-	3d3	a 4P3/2	9395.802	3d.(2D).4s.4p.(3P°)	y 4P°5/2	56326.1371
2132.1821	Ti	II	8	-	3d3	a 4P1/2	9363.7425	3d.(2D).4s.4p.(3P°)	y 4P°3/2	56249.2448
2133.12451	Ti	II	40	-	3d.4s2	c 2D3/2	24961.191	3d2.(3F).5p	4F°5/2	71825.9911
2133.3703	Ti	II	15	-	3d2.(3P).4s	b 2P1/2	16515.9359	3d2.(1S).4p	2P°3/2	63375.321
2133.64	Ti	II	2	-	3d3	a 4P3/2	9395.802	3d.(2D).4s.4p.(3P°)	y 4P°3/2	56249.2448
2134.8283	Ti	II	8	-	3d3	a 4P3/2	9395.802	3d.(2D).4s.4p.(3P°)	y 4P°1/2	56223.205
2135.57	Ti	II	2	-	3d3	b 2D23/2	12628.8455	3d.(2D).4s.4p.(3P°)	2P°1/2	59440.19
2135.7141	Ti	II	15	-	3d3	a 4P5/2	9518.1516	3d.(2D).4s.4p.(3P°)	y 4P°5/2	56326.1371
2137.56482	Ti	II	65	-	3d.4s2	c 2D5/2	25192.965	3d2.(3F).5p	4F°7/2	71960.4326

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