Table 1: New and remeasured laboratory oscillator strengths for Mn I.
Upper level Lower level Wavenumber $\lambda_{\rm air}$ BF This Work Previous Work Calc.^a

(cm^-1) (Å) Log (gf) Unc. (dex) Log (gf) Ref.^b Log (gf)

e ⁸S_3.5 z ⁸P_2.5 21 028.888 4754.0338 0.2535 -0.07 0.02 -0.09 3 -0.09

E = 39 431.31 cm^-1 z ⁸P_3.5 20 899.706 4783.4190 0.3344 0.06 0.02 0.04 3 0.04

$\tau = 8.07\pm0.19$ ns^c z ⁸P_4.5 20 726.008 4823.5080 0.4121 0.15 0.02 0.14 3 0.14

Residual 0.0001

e ⁶S_2.5 z ⁸P_3.5 22 872.341 4370.8646 0.0003 -3.59 0.08 -3.03

E = 41 403.93 cm^-1 z ⁶P_1.5 16 624.678 6013.4885 0.2134 -0.43 0.05 -0.25 3 -0.25

$\tau = 18.5 \pm 1.8$ ns^d z ⁶P_2.5 16 615.976 6016.6380 0.3211 -0.25 0.05 -0.22

z ⁶P_3.5 16 601.751 6021.7932 0.4280 -0.12 0.05 0.03 3 0.03

y ⁶P_1.5 5714.003 17 496.0867 0.0089 -0.88 0.05 -0.93

y ⁶P_2.5 5678.129 17 606.6275 0.0123 -0.73 0.05 -0.77

y ⁶P_3.5 5634.016 17 744.4833 0.0156 -0.62 0.05 -0.67

Residual 0.0005

z ⁶D _3.5^e a ⁶S_2.5 41 932.657 2384.0491 0.0008 -3.10 0.08 -2.48

E = 41 932.64 cm^-1 a ⁶D_4.5 24 880.356 4018.0994 0.2493 -0.19 0.03 -0.31 2 -0.31

$\tau = 10.87 \pm0.24$ ns a ⁶D_3.5 24 650.639 4055.5445 0.4697 -0.59 0.03 -0.07 3 -0.07

a ⁶D_2.5 24 481.126 4083.6266 0.2781 -0.35 0.03 -0.25 3 -0.25

a ⁴D_3.5 18 635.987 5364.4703 0.0021 -2.79 0.04 -2.90

Residual 0.0003

z ⁶D_0.5 a ⁶D_1.5 24 630.111 4058.9247 0.7858 -0.46 0.02 -0.45 3 -0.45

E = 42 198.56 cm^-1 a ⁶D_0.5 24 561.434 4070.2741 0.2097 -1.03 0.02 -0.95 2 -0.95

$\tau =11.08 \pm0.31$ ns a ⁴D_0.5 18 479.895 5409.7823 0.0043 -2.47 0.02 -3.62

Residual 0.0001

z ⁶F_3.5 a ⁶D_4.5 26 471.793 3776.5331 0.0039 -2.41 0.12 -2.51 1 -2.49

E = 43 524.08 cm^-1 a ⁶D_3.5 26 242.091 3809.5905 0.2491 -0.60 0.02 -0.64 1 -0.60

$\tau = 17.14 \pm 0.35$ ns a ⁶D_2.5 26 072.576 3834.3599 0.6847 -0.15 0.02 -0.14 1 -0.12

a ⁴D_3.5 20 227.434 4942.4014 0.0020 -2.46 0.05 -2.82 1 -2.79

a ⁴D_2.5 19 974.872 5004.8938 0.0317 -1.25 0.02 -1.66 1 -1.63

a ⁴G_4.5 18 238.492 5481.3864 0.0278 -1.23 0.02 -1.87 1 -1.87

a ⁴G_3.5 18 236.428 5482.0069 0.0006 -2.92 0.10 -3.44

Residual 0.0002

z ⁴F_4.5 a ⁶D_4.5 27 236.449 3670.5053 0.0077 -2.00 0.09 -1.95 1 -1.92

E = 44 288.76 cm^-1 a ⁶D_3.5 27 006.727 3701.7278 0.0108 -1.85 0.05 -1.78 1 -1.75

$\tau = 15.69 \pm 0.33$ ns a ⁴D_3.5 20 992.078 4762.3702 0.9245 0.30 0.02 0.28 1 0.42

a ⁴G_5.5 19 023.064 5255.3139 0.0507 -0.87 0.04 -0.90 1 -0.76

a ⁴G_4.5 19 003.376 5260.7587 0.0039 -1.98 0.02 -2.01 1 -1.97

b ⁴D_3.5 13 934.586 7174.4107 0.0011 -2.29 0.04 -2.44 1 -2.44

a ⁴F_4.5 9350.382 10 691.8212 0.0012 -1.89 0.03 -3.06

Residual 0.0002

z ⁴F_3.5 a ⁶D_3.5 27 241.454 3669.8308 0.0062 -2.20 0.04 -2.01 1 -1.99

E = 44 523.45 cm^-1 a ⁶D_2.5 27 071.942 3692.8103 0.0061 -2.20 0.03 -2.14 1 -2.12

$\tau = 15.70 \pm 0.41$ ns a ⁴D_3.5 21 226.794 4709.7092 0.1911 -0.49 0.02 -0.49 1 -0.34

a ⁴D_2.5 20 974.239 4766.4207 0.7355 0.11 0.02 0.08 1 0.10

a ⁴G_4.5 19 238.094 5196.5730 0.0513 -0.98 0.02 -0.96 1 -0.93

a ⁴G_3.5 19 235.792 5197.1950 0.0069 -1.85 0.02 -1.83 1 -1.81

b ⁴D_3.5 14 169.281 7055.5755 0.0008 -2.52 0.03 -2.56 1 -2.56

b ⁴D_2.5 14 103.873 7088.2968 0.0003 -2.93 0.05 -2.89

Residual 0.0019

z ⁴F_2.5 a ⁶D_2.5 27 244.729 3669.3897 0.0038 -2.53 0.05 -2.41 1 -2.41

E = 44 696.29 cm^-1 a ⁶D_1.5 27 127.791 3685.2076 0.0028 -2.67 0.05 -2.62 1 -2.59

$\tau =15.58 \pm 0.37$ ns a ⁴D_3.5 21 399.582 4671.6807 0.0173 -1.66 0.02 -1.70 1 -1.67

a ⁴D_2.5 21 147.022 4727.4757 0.2793 -0.44 0.02 -0.50 1 -0.47

a ⁴D_1.5 20 976.711 4765.8589 0.6308 -0.08 0.02 -0.10 1 -0.08

a ⁴G_2.5 19 415.276 5149.1490 0.0074 -1.95 0.02 -1.92 1 -1.90

a ⁴G_3.5 19 408.577 5150.9262 0.0558 -1.07 0.02 -1.05 1 -1.03

b ⁴D_2.5 14 276.656 7002.5103 0.0009 -2.62 0.04 -2.61

b ⁴D_1.5 14 270.557 7005.5028 0.0004 -2.98 0.06 -3.06

a ⁴F_2.5 9581.236 10 434.2077 0.0002 -2.94 0.07 -3.09

a ⁴F_1.5 9531.636 10 488.5040 0.0002 -2.95 0.07 -4.13

Residual 0.0014

z ⁴F_1.5 a ⁴D_2.5 21 265.444 4701.1493 0.0291 -1.60 0.03 -1.66 1 -1.65

E = 44 814.73 cm^-1 a ⁴D_1.5 21 095.139 4739.1031 0.2894 -0.60 0.02 -0.66 1 -0.49

$\tau = 15.43 \pm 0.56$ ns a ⁴D_0.5 20 995.814 4761.5226 0.6144 -0.27 0.02 -0.30 1 -0.14

a ⁴G_2.5 19 533.707 5117.9299 0.0614 -1.20 0.02 -1.16 1 -1.14

Residual 0.0058

z ⁴D_3.5 a ⁴D_3.5 22 457.627 4451.5807 0.7382 0.13 0.02 0.14 1 0.28

E = 45 754.27 cm^-1 a ⁴D_2.5 22 205.072 4502.2127 0.1955 -0.43 0.02 -0.50 1 -0.34

$\tau = 12.94 \pm 0.30$ ns a ⁴P_2.5 18 552.871 5388.5030 0.0088 -1.62 0.02 -1.70 1 -1.69

b ⁴D_3.5 15 400.103 6491.6693 0.0348 -0.87 0.02 -1.07 1 -1.04

b ⁴D_2.5 15 334.704 6519.3550 0.0045 -1.75 0.02 -1.24 1 -1.25

b ⁴P_2.5 11 928.849 8380.7351 0.0039 -1.60 0.03 -1.79 1 -1.79

a ⁴F_4.5 10 815.702 9243.2802 0.0080 -1.20 0.02 -1.35 1 -1.35

a ⁴F_3.5 10 712.988 9331.9035 0.0010 -2.10 0.05 -2.14

Residual 0.0053

z ⁴D_2.5 a ⁴D_3.5 22 644.331 4414.8765 0.2803 -0.41 0.02 -0.40 1 -0.29

E =45 940.93 cm^-1 a ⁴D_2.5 22 391.775 4464.6725 0.4126 -0.24 0.02 -0.25 1 -0.10

$\tau = 12.72 \pm0.29$ ns a ⁴D_1.5 22 221.464 4498.8915 0.2436 -0.46 0.02 -0.49 1 -0.34

a ⁴P_2.5 18 739.578 5334.8154 0.0008 -2.78 0.03 -2.88 1 -2.86

a ⁴P_1.5 18 693.192 5348.0537 0.0087 -1.75 0.02 -1.81 1 -1.78

b ⁴D_3.5 15 586.760 6413.9286 0.0073 -1.67 0.02 -1.94 1 -1.91

b ⁴D_2.5 15 521.408 6440.9342 0.0238 -1.16 0.02 -1.42 1 -1.42

b ⁴D_1.5 15 515.308 6443.4665 0.0083 -1.61 0.02 -1.79 1 -1.76

b ⁴P_2.5 12 115.626 8251.5353 0.0011 -2.28 0.15 -2.39

b ⁴P_1.5 11 477.680 8710.1701 0.0020 -1.97 0.04 -1.91

a ⁴F_3.5 10 899.682 9172.0627 0.0067 -1.40 0.02 -1.50 1 -1.50

a ⁴F_2.5 10 826.100 9234.4029 0.0014 -2.07 0.04 -2.03

Residual 0.0032

z ⁴D_1.5 a ⁴D_2.5 22 534.739 4436.3474 0.4054 -0.43 0.02 -0.43 1 -0.29

E = 46 083.89 cm^-1 a ⁴D_1.5 22 364.429 4470.1318 0.2901 -0.56 0.02 -0.57 1 -0.44

$\tau = 12.76 \pm 0.42$ ns a ⁴D_0.5 22 265.104 4490.0734 0.2472 -0.63 0.02 -0.64 1 -0.52

a ⁴P_2.5 18 882.539 5294.4249 0.0009 -2.94 0.04 -3.01

a ⁴P_0.5 18 802.114 5317.0717 0.0047 -2.20 0.02 -2.26 1 -2.23

b ⁴D_0.5 15 672.302 6378.9202 0.0098 -1.72 0.02 -1.83 1 -1.83

b ⁴D_2.5 15 664.371 6382.1497 0.0112 -1.67 0.02 -1.58 1 -1.80

b ⁴D_1.5 15 658.272 6384.6356 0.0181 -1.46 0.02 -1.86 1 -1.53

b ⁴P_1.5 11 620.623 8603.0275 0.0015 -2.29 0.07 -2.27

b ⁴P_0.5 11 238.669 8895.4084 0.0011 -2.39 0.05 -2.32

a ⁴F_2.5 10 969.070 9114.0416 0.0068 -1.57 0.02 -1.80 1 -1.80

a ⁴F_1.5 10 918.990 9155.8436 0.0018 -2.16 0.03 -2.14

Residual 0.0014

z ⁴D_0.5 a ⁴D_1.5 22 450.473 4452.9992 0.5126 -0.62 0.02 -0.62 1 -0.49

E = 46 169.93 cm^-1 a ⁴D_0.5 22 351.149 4472.7878 0.4302 -0.69 0.02 -0.72 1 -0.58

$\tau = 12.75 \pm 0.34$ ns a ⁴P_0.5 18 888.152 5292.8513 0.0017 -2.94 0.06 -2.94 1 -2.90

b ⁴D_0.5 15 758.347 6344.0891 0.0217 -1.69 0.02 -1.86 1 -1.80

b ⁴D_1.5 15 744.317 6349.7425 0.0182 -1.76 0.02 -1.85 1 -1.84

b ⁴P_0.5 11 324.749 8827.7937 0.0031 -2.24 0.08 -2.36

a ⁴F_1.5 11 004.978 9084.3037 0.0086 -1.78 0.02 -2.02 1 -2.02

Residual 0.0039

^a
The semi-empirical calculations are taken from Kurucz & Bell (1995).
^b
The previous laboratory values are taken from (1) Greenlee & Whaling (1979); (2) Blackwell & Collins (1972); and (3) Booth et al. (1984a).
^c
The level lifetimes are taken from Schnabel et al. (1995) unless stated otherwise.
^d
Lifetime for the level e ⁶S_2.5 is taken from Marek (1975).
^e
Branching fractions and oscillator strengths for z ⁶D_3.5 are taken from Blackwell-Whitehead et al. (2005b).

**Table 1:** New and remeasured laboratory oscillator strengths for Mn I.
Upper level	Lower level	Wavenumber	$\lambda_{\rm air}$	BF	This Work	Previous Work	Calc.^a
(cm^-1)	(Å)		Log (gf)	Unc. (dex)	Log (gf)	Ref.^b	Log (gf)
e ⁸S_3.5	z ⁸P_2.5	21 028.888	4754.0338	0.2535	-0.07	0.02	-0.09	3	-0.09
E = 39 431.31 cm^-1	z ⁸P_3.5	20 899.706	4783.4190	0.3344	0.06	0.02	0.04	3	0.04
$\tau = 8.07\pm0.19$ ns^c	z ⁸P_4.5	20 726.008	4823.5080	0.4121	0.15	0.02	0.14	3	0.14
Residual			0.0001
e ⁶S_2.5	z ⁸P_3.5	22 872.341	4370.8646	0.0003	-3.59	0.08			-3.03
E = 41 403.93 cm^-1	z ⁶P_1.5	16 624.678	6013.4885	0.2134	-0.43	0.05	-0.25	3	-0.25
$\tau = 18.5 \pm 1.8$ ns^d	z ⁶P_2.5	16 615.976	6016.6380	0.3211	-0.25	0.05			-0.22
z ⁶P_3.5	16 601.751	6021.7932	0.4280	-0.12	0.05	0.03	3	0.03
y ⁶P_1.5	5714.003	17 496.0867	0.0089	-0.88	0.05			-0.93
y ⁶P_2.5	5678.129	17 606.6275	0.0123	-0.73	0.05			-0.77
y ⁶P_3.5	5634.016	17 744.4833	0.0156	-0.62	0.05			-0.67
Residual			0.0005
z ⁶D _3.5^e	a ⁶S_2.5	41 932.657	2384.0491	0.0008	-3.10	0.08			-2.48
E = 41 932.64 cm^-1	a ⁶D_4.5	24 880.356	4018.0994	0.2493	-0.19	0.03	-0.31	2	-0.31
$\tau = 10.87 \pm0.24$ ns	a ⁶D_3.5	24 650.639	4055.5445	0.4697	-0.59	0.03	-0.07	3	-0.07
a ⁶D_2.5	24 481.126	4083.6266	0.2781	-0.35	0.03	-0.25	3	-0.25
a ⁴D_3.5	18 635.987	5364.4703	0.0021	-2.79	0.04			-2.90
Residual			0.0003
z ⁶D_0.5	a ⁶D_1.5	24 630.111	4058.9247	0.7858	-0.46	0.02	-0.45	3	-0.45
E = 42 198.56 cm^-1	a ⁶D_0.5	24 561.434	4070.2741	0.2097	-1.03	0.02	-0.95	2	-0.95
$\tau =11.08 \pm0.31$ ns	a ⁴D_0.5	18 479.895	5409.7823	0.0043	-2.47	0.02			-3.62
Residual			0.0001
z ⁶F_3.5	a ⁶D_4.5	26 471.793	3776.5331	0.0039	-2.41	0.12	-2.51	1	-2.49
E = 43 524.08 cm^-1	a ⁶D_3.5	26 242.091	3809.5905	0.2491	-0.60	0.02	-0.64	1	-0.60
$\tau = 17.14 \pm 0.35$ ns	a ⁶D_2.5	26 072.576	3834.3599	0.6847	-0.15	0.02	-0.14	1	-0.12
a ⁴D_3.5	20 227.434	4942.4014	0.0020	-2.46	0.05	-2.82	1	-2.79
a ⁴D_2.5	19 974.872	5004.8938	0.0317	-1.25	0.02	-1.66	1	-1.63
a ⁴G_4.5	18 238.492	5481.3864	0.0278	-1.23	0.02	-1.87	1	-1.87
a ⁴G_3.5	18 236.428	5482.0069	0.0006	-2.92	0.10			-3.44
Residual			0.0002
z ⁴F_4.5	a ⁶D_4.5	27 236.449	3670.5053	0.0077	-2.00	0.09	-1.95	1	-1.92
E = 44 288.76 cm^-1	a ⁶D_3.5	27 006.727	3701.7278	0.0108	-1.85	0.05	-1.78	1	-1.75
$\tau = 15.69 \pm 0.33$ ns	a ⁴D_3.5	20 992.078	4762.3702	0.9245	0.30	0.02	0.28	1	0.42
a ⁴G_5.5	19 023.064	5255.3139	0.0507	-0.87	0.04	-0.90	1	-0.76
a ⁴G_4.5	19 003.376	5260.7587	0.0039	-1.98	0.02	-2.01	1	-1.97
b ⁴D_3.5	13 934.586	7174.4107	0.0011	-2.29	0.04	-2.44	1	-2.44
a ⁴F_4.5	9350.382	10 691.8212	0.0012	-1.89	0.03			-3.06
Residual			0.0002
z ⁴F_3.5	a ⁶D_3.5	27 241.454	3669.8308	0.0062	-2.20	0.04	-2.01	1	-1.99
E = 44 523.45 cm^-1	a ⁶D_2.5	27 071.942	3692.8103	0.0061	-2.20	0.03	-2.14	1	-2.12
$\tau = 15.70 \pm 0.41$ ns	a ⁴D_3.5	21 226.794	4709.7092	0.1911	-0.49	0.02	-0.49	1	-0.34
a ⁴D_2.5	20 974.239	4766.4207	0.7355	0.11	0.02	0.08	1	0.10
a ⁴G_4.5	19 238.094	5196.5730	0.0513	-0.98	0.02	-0.96	1	-0.93
a ⁴G_3.5	19 235.792	5197.1950	0.0069	-1.85	0.02	-1.83	1	-1.81
b ⁴D_3.5	14 169.281	7055.5755	0.0008	-2.52	0.03	-2.56	1	-2.56
b ⁴D_2.5	14 103.873	7088.2968	0.0003	-2.93	0.05			-2.89
Residual			0.0019
z ⁴F_2.5	a ⁶D_2.5	27 244.729	3669.3897	0.0038	-2.53	0.05	-2.41	1	-2.41
E = 44 696.29 cm^-1	a ⁶D_1.5	27 127.791	3685.2076	0.0028	-2.67	0.05	-2.62	1	-2.59
$\tau =15.58 \pm 0.37$ ns	a ⁴D_3.5	21 399.582	4671.6807	0.0173	-1.66	0.02	-1.70	1	-1.67
a ⁴D_2.5	21 147.022	4727.4757	0.2793	-0.44	0.02	-0.50	1	-0.47
a ⁴D_1.5	20 976.711	4765.8589	0.6308	-0.08	0.02	-0.10	1	-0.08
a ⁴G_2.5	19 415.276	5149.1490	0.0074	-1.95	0.02	-1.92	1	-1.90
a ⁴G_3.5	19 408.577	5150.9262	0.0558	-1.07	0.02	-1.05	1	-1.03
b ⁴D_2.5	14 276.656	7002.5103	0.0009	-2.62	0.04			-2.61
b ⁴D_1.5	14 270.557	7005.5028	0.0004	-2.98	0.06			-3.06
a ⁴F_2.5	9581.236	10 434.2077	0.0002	-2.94	0.07			-3.09
a ⁴F_1.5	9531.636	10 488.5040	0.0002	-2.95	0.07			-4.13
Residual			0.0014
z ⁴F_1.5	a ⁴D_2.5	21 265.444	4701.1493	0.0291	-1.60	0.03	-1.66	1	-1.65
E = 44 814.73 cm^-1	a ⁴D_1.5	21 095.139	4739.1031	0.2894	-0.60	0.02	-0.66	1	-0.49
$\tau = 15.43 \pm 0.56$ ns	a ⁴D_0.5	20 995.814	4761.5226	0.6144	-0.27	0.02	-0.30	1	-0.14
a ⁴G_2.5	19 533.707	5117.9299	0.0614	-1.20	0.02	-1.16	1	-1.14
Residual			0.0058
z ⁴D_3.5	a ⁴D_3.5	22 457.627	4451.5807	0.7382	0.13	0.02	0.14	1	0.28
E = 45 754.27 cm^-1	a ⁴D_2.5	22 205.072	4502.2127	0.1955	-0.43	0.02	-0.50	1	-0.34
$\tau = 12.94 \pm 0.30$ ns	a ⁴P_2.5	18 552.871	5388.5030	0.0088	-1.62	0.02	-1.70	1	-1.69
b ⁴D_3.5	15 400.103	6491.6693	0.0348	-0.87	0.02	-1.07	1	-1.04
b ⁴D_2.5	15 334.704	6519.3550	0.0045	-1.75	0.02	-1.24	1	-1.25
b ⁴P_2.5	11 928.849	8380.7351	0.0039	-1.60	0.03	-1.79	1	-1.79
a ⁴F_4.5	10 815.702	9243.2802	0.0080	-1.20	0.02	-1.35	1	-1.35
a ⁴F_3.5	10 712.988	9331.9035	0.0010	-2.10	0.05			-2.14
Residual			0.0053
z ⁴D_2.5	a ⁴D_3.5	22 644.331	4414.8765	0.2803	-0.41	0.02	-0.40	1	-0.29
E =45 940.93 cm^-1	a ⁴D_2.5	22 391.775	4464.6725	0.4126	-0.24	0.02	-0.25	1	-0.10
$\tau = 12.72 \pm0.29$ ns	a ⁴D_1.5	22 221.464	4498.8915	0.2436	-0.46	0.02	-0.49	1	-0.34
a ⁴P_2.5	18 739.578	5334.8154	0.0008	-2.78	0.03	-2.88	1	-2.86
a ⁴P_1.5	18 693.192	5348.0537	0.0087	-1.75	0.02	-1.81	1	-1.78
b ⁴D_3.5	15 586.760	6413.9286	0.0073	-1.67	0.02	-1.94	1	-1.91
b ⁴D_2.5	15 521.408	6440.9342	0.0238	-1.16	0.02	-1.42	1	-1.42
b ⁴D_1.5	15 515.308	6443.4665	0.0083	-1.61	0.02	-1.79	1	-1.76
b ⁴P_2.5	12 115.626	8251.5353	0.0011	-2.28	0.15			-2.39
b ⁴P_1.5	11 477.680	8710.1701	0.0020	-1.97	0.04			-1.91
a ⁴F_3.5	10 899.682	9172.0627	0.0067	-1.40	0.02	-1.50	1	-1.50
a ⁴F_2.5	10 826.100	9234.4029	0.0014	-2.07	0.04			-2.03
Residual			0.0032
z ⁴D_1.5	a ⁴D_2.5	22 534.739	4436.3474	0.4054	-0.43	0.02	-0.43	1	-0.29
E = 46 083.89 cm^-1	a ⁴D_1.5	22 364.429	4470.1318	0.2901	-0.56	0.02	-0.57	1	-0.44
$\tau = 12.76 \pm 0.42$ ns	a ⁴D_0.5	22 265.104	4490.0734	0.2472	-0.63	0.02	-0.64	1	-0.52
a ⁴P_2.5	18 882.539	5294.4249	0.0009	-2.94	0.04			-3.01
a ⁴P_0.5	18 802.114	5317.0717	0.0047	-2.20	0.02	-2.26	1	-2.23
b ⁴D_0.5	15 672.302	6378.9202	0.0098	-1.72	0.02	-1.83	1	-1.83
b ⁴D_2.5	15 664.371	6382.1497	0.0112	-1.67	0.02	-1.58	1	-1.80
b ⁴D_1.5	15 658.272	6384.6356	0.0181	-1.46	0.02	-1.86	1	-1.53
b ⁴P_1.5	11 620.623	8603.0275	0.0015	-2.29	0.07			-2.27
b ⁴P_0.5	11 238.669	8895.4084	0.0011	-2.39	0.05			-2.32
a ⁴F_2.5	10 969.070	9114.0416	0.0068	-1.57	0.02	-1.80	1	-1.80
a ⁴F_1.5	10 918.990	9155.8436	0.0018	-2.16	0.03			-2.14
Residual			0.0014
z ⁴D_0.5	a ⁴D_1.5	22 450.473	4452.9992	0.5126	-0.62	0.02	-0.62	1	-0.49
E = 46 169.93 cm^-1	a ⁴D_0.5	22 351.149	4472.7878	0.4302	-0.69	0.02	-0.72	1	-0.58
$\tau = 12.75 \pm 0.34$ ns	a ⁴P_0.5	18 888.152	5292.8513	0.0017	-2.94	0.06	-2.94	1	-2.90
b ⁴D_0.5	15 758.347	6344.0891	0.0217	-1.69	0.02	-1.86	1	-1.80
b ⁴D_1.5	15 744.317	6349.7425	0.0182	-1.76	0.02	-1.85	1	-1.84
b ⁴P_0.5	11 324.749	8827.7937	0.0031	-2.24	0.08			-2.36
a ⁴F_1.5	11 004.978	9084.3037	0.0086	-1.78	0.02	-2.02	1	-2.02
Residual			0.0039

Source LaTeX | All tables | In the text