**Table 5:** Oscillator strengths for transitions in Ra I.
$\lambda (\AA)^a$	Int^a	$E_{\rm l}$ ( cm^-1)	$J_{\rm l}$	$E_{\rm u}$ ( cm^-1)	$J_{\rm u}$	$\log~gf$
4825.91	1000	0.00 (e)	0	20 715.71 (o)	1	0.31
5400.23	200	13 993.97 (e)	2	32 506.59 (o)	2	-0.13
5406.81	200	14 707.35 (e)	3	33 197.46 (o)	3	0.11
5555.85	200	13 999.38 (o)	1	31 993.41 (e)	2	0.00
5660.81	500	14 707.35 (e)	3	32 367.78 (o)	4	0.40
6200.30	300	13 993.97 (e)	2	30 117.78 (o)	3	0.17
6446.20	200	16 688.54 (o)	2	32 197.28 (e)	3	0.19
6487.32	200	14 707.35 (e)	3	30 117.78 (o)	3	-0.36
6980.22	200	13 715.85 (e)	1	28 038.05 (o)	2	-0.10
7118.50	200	13 993.97 (e)	2	28 038.05 (o)	2	-0.38
7141.21	500	0.00 (e)	0	13 999.38 (o)	1	-1.08
7225.16	200	17 081.45 (e)	2	30 918.14 (o)	2	0.20
7838.12	200	13 999.38 (o)	1	26 754.05 (e)	1	-0.16

a From Sansonetti & Martin (2005)
(see also http://physics.nist.gov/PhysRevData/Handbook/Tables/radiumtable2.htm).

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