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
2681.63	Ti	I	10	-	3d3.(4F).4s	a 5F3	6661.006	3d3.(4F).5p	5G°4	43940.689
2681.96176	Ti	II	60	-	3d2.(3F).4p	z 2F°5/2	31207.5111	3d2.(3F).4d	2D5/2	68482.5767
2682.36	Ti	I	10	-	3d3.(4F).4s	a 5F2	6598.765	3d3.(4F).5p	5G°3	43868.255
2683.234	Ti	I	10	-	3d3.(4F).4s	a 5F1	6556.833	3d3.(4F).5p	5G°2	43814.152
2684.8	Ti	I	8	-	3d2.4s2	a 3F4	386.874	3d.4s2.4p	x 1F°3	37622.575
2685.137	Ti	I	7	-	3d2.4s2	a 3F4	386.874	3d3.(2G).4p	v 3G°4	37617.894
2688.16	Ti	I	1	-	3d2.4s2	a 3F3	170.1328	3d3.(4P).4p	y 5S°2	37359.203
2688.32	Ti	IV	10	-	3p6.5f	2F°5/2	275847.01	3p6.7g	2G7/2	313033.9
2689.328	Ti	I	2	-	3d2.4s2	a 3F2	0	3d3.(2D2).4p	w 3P°1	37172.989
2689.39	Ti	IV	1	-	3p6.5f	2F°7/2	275861.94	3p6.7g	2G9/2	313034.1
2689.676	Ti	I	4	-	3d2.4s2	a 3F4	386.874	3d3.(2G).4p	v 3G°3	37555.058
2690.2994	Ti	II	10	-	3d2.(3P).4p	y 4D°5/2	40581.6301	3d2.(3P).4d	4P3/2	77741.1809
2690.48154	Ti	II	70	-	3d2.(3F).4p	z 2F°5/2	31207.5111	3d2.(3F).4d	2D3/2	68364.5454
2690.609	Ti	I	3	-	3d2.4s2	a 3F3	170.1328	3d3.(2D2).4p	w 3P°2	37325.41
2692.158	Ti	III	10	-	3p6.3d.4s	3D1	38064.35	3p6.3d.4p	1D°2	75198.21
2693.37	Ti	I	10	-	3d2.4s2	a 1G4	12118.393	3d3.(4F7/2).4f	2[7/2]°4	49235.4807
2694.763	Ti	I	10	-	3d3.(4F).4s	b 3F4	11776.812	3d2.4s.(2F).5p	3G°5	48874.86
2695.341	Ti	II	30	-	3d2.(3F).4p	z 2D°3/2	31756.6406	3d2.(3F).4d	f 4F5/2	68846.699
2695.9754	Ti	II	4	-	3d2.(3P).4s	b 2P1/2	16515.9359	3d.(2D).4s.4p.(3P°)	w 2D°3/2	53597.2664
2698.10719	Ti	II	95	-	3d3	d 2D13/2	32275.4863	3d.(2D).4s.4p.(1P°)	v 2D°3/2	69327.5102
2698.34833	Ti	II	285	-	3d2.(1G).4p	y 2G°9/2	43780.9533	3d2.(1G).4d	2H11/2	80829.6682
2698.44543	Ti	II	240	-	3d2.(1G).4p	y 2G°7/2	43740.7678	3d2.(1G).4d	2H9/2	80788.15
2700.9737	Ti	II	15	-	3d2.(3F).4p	z 2D°3/2	31756.6406	3d2.(3F).4d	f 4F3/2	68769.3365
2701.2181	Ti	II	30	-	3d2.(3P).4p	y 4D°7/2	40798.4333	3d2.(3P).4d	4P5/2	77807.7864
2701.3756	Ti	II	6	-	3d2.(1G).4p	y 2G°9/2	43780.9533	3d2.(1G).4d	2H9/2	80788.15
2701.46898	Ti	II	60	-	3d2.(3P).4p	z 2S°1/2	37430.6814	3d2.(1D).4d	2P1/2	74436.599
2701.956	Ti	III	15	-	3p6.3d.4s	3D2	38198.95	3p6.3d.4p	1D°2	75198.21
2702.077	Ti	I	2	-	3d3.(4F).4s	b 3F4	11776.812	3d2.4s.(2F).5p	3F°4	48774.39
2702.295	Ti	II	10	-	3d3	d 2D15/2	32332.9031	3d.(2D).4s.4p.(1P°)	v 2D°3/2	69327.5102
2702.51036	Ti	II	210	-	3d2.(3F).4p	z 2F°7/2	31490.9177	3d2.(3F).4d	2D5/2	68482.5767
2702.64	Ti	I	1	-	3d3.(4F).4s	b 3F3	11639.8109	3d2.4s.(2F).5p	3F°3	48629.67
2703.49	Ti	I	10	-	3d2.4s2	a 1D2	7255.355	3d2.4s.(4F).5p	o 3D°3	44233.62
2703.96	Ti	II	9	-	3d2.(3P).4s	b 2P3/2	16625.2441	3d.(2D).4s.4p.(3P°)	w 2D°3/2	53597.2664
2706.9612	Ti	II	7	-	3d2.(1D).4p	y 2D°5/2	39476.9244	3d2.(3P).4d	4D5/2	76407.7595
2707.0409	Ti	II	9	-	3d2.(3P).4s	b 2P3/2	16625.2441	3d.(2D).4s.4p.(3P°)	w 2D°5/2	53554.9903
2707.11	Ti	I	10	-	3d3.(4F).4s	b 3F2	11531.761	3d2.4s.(2F).5p	3F°2	48460.59
2707.27635	Ti	II	50	-	3d2.(3F).4p	z 2D°5/2	32025.5915	3d2.(3F).4d	f 4F7/2	68952.1302
2708.671	Ti	I	10	-	3d3.(4F).4s	b 3F4	11776.812	3d2.4s.(2F).5p	3G°4	48684.34
2709.045	Ti	I	2	-	3d3.(4F).4s	b 3F3	11639.8109	3d2.4s.(2F).5p	3G°3	48542.31
2713.758	Ti	II	8	-	3d2.(1D).4s	a 2D3/2	8710.5675	3d2.(3P).4p	y 2P°3/2	45548.9273
2714.0565	Ti	II	9	-	3d2.(1D).4p	y 2D°5/2	39476.9244	3d2.(3P).4d	4F5/2	76311.242
2715.029	Ti	II	8	-	3d2.(3F).4p	z 2D°5/2	32025.5915	3d2.(3F).4d	f 4F5/2	68846.699
2716.107	Ti	I	10	-	3d3.(4F).4s	a 5F3	6661.006	3d2.4s.(4F).5p	r 3F°2	43467.537
2716.24763	Ti	II	80	-	3d2.(1D).4s	a 2D5/2	8744.3406	3d2.(3P).4p	y 2P°3/2	45548.9273
2717.297	Ti	II	40	-	3d3	a 2G9/2	9118.2849	3d2.(1G).4p	z 2H°11/2	45908.6592
2717.8424	Ti	II	120	-	3d2.(3P).4p	z 2S°1/2	37430.6814	3d2.(1D).4d	2P3/2	74213.6741
2718.64	Ti	III	10	-	3p6.3d.4s	3D3	38425.99	3p6.3d.4p	1D°2	75198.21
2719.4032	Ti	II	40	-	3d2.(1D).4s	a 2D3/2	8710.5675	3d2.(3P).4p	y 2P°1/2	45472.4518
2720.4358	Ti	II	10	-	3d2.(1D).4p	z 2P°3/2	39233.4153	3d2.(1D).4d	2D5/2	75981.346
2722.	Ti	XVI	10	-	2s.(2S).2p4.(1S)	2S1/2	939920	2s.(2S).2p4.(3P)	2P3/2	976650

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