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A NEW ATOMIC LINE CATALOGUE FOR PLANETARY NEBULAE

This is an updated in 1997 version of the Atomic line catalogue presented in Baltic Astronomy, 3, p. 292-320 (1994)
T.Feklistova1 , A.F.Kholtygin
1 2 2

Tartu Observatory, Toravere, EE2444, Estonia Ё

Astronomical Institute, St.Petersburg University, 198904, St.Petersburg, Petrodvoretz, Russia

ABSTRACT. A list of the lines observed in the sp ectra of the gaseous nebulae in the wavelength range from 920° to 610µm and corresp onding transition probabilities have b een compiled. The most A probable identification for each line has b een presented. The classification scheme for transition typ es is prop osed. For the lines listed also their formation mechanism is given. First version of such catalogue was issued by Feklistova et al. (1994). Since the first edition of the catalogue numerous weak lines b elonging to the heavy elements (Z>30) were identified in the sp ectra of NGC 7027 (Pґ uignot et al. eq 1994, Baluteau et al. 1995). Moreover many newly identified lines were found in the sp ectra of other planetary nebulae. These lines together with unidentified ones are compiled in the catalogue KEYWORDS: planetary nebulae, HI I regions: atomic data

1

Intro duction

Over 1000 lines of atoms and ions b elonging to more than 20 elements were observed in the sp ectral range 920° of the gaseous nebulae (Kaler, 1976; Aller and Czyzak, 1979, 1983; Aller and Keyes, A 1987; Pґ uignot et al. 1994; Hyung et al. 1994; Baluteau et al. 1995; Aller and Hyung, 1995; Liu eq et al. 1995; Hyung and Aller, 1996). The lines of some molecules and radicals (CO, H2 O, H2 , OH etc.) and unidentified IR bands connected with p olycyclical aromatic carb o-hydrate molecules also were detected (Kholtygin, 1990). Many of these lines are very weak, thus their identification in the sp ectra is a hard problem. To facilitate solution of this problem, we have compiled a list of the lines observed in the sp ectra of the ob jects quoted. Both well identified and badly or unidentified lines are given. Recently revealed lines of the heavy elements (Z>30) are added to the line list. The classification scheme for the lines observed in the sp ectra of the gaseous nebulae is describ ed in Section 2. The mechanisms of line formation in the sp ectra of the gaseous nebulae are discussed in Section 3. The list of lines is presented in Section 4.

2

The line classification

The lines observed in the sp ectra of gaseous nebulae can b e divided into p ermitted, forbidden and intercombinational ones. Ions HI, HeI and HeI I are presented only by the p ermitted lines. Most of the strong lines in the sp ectra of gaseous nebulae are forbidden or intercombinational ones b elonging to ions of C, N and O and of the other heavy elements. In the UV sp ectral region the resonance lines of the ions C, N, O, Si, S, Ar and other elements are the strongest ones. In addition, a lot of weak p ermitted lines of C, N, O, Ne, Mg and other ions are observed in the sp ectra of the bright nebulae. The classification scheme for atomic transitions used in astrophysics is given in Table 1. There we use the standard designations E1 and E2 for the electric dip ole and quadrup ole transitions and M1 for the magnetic dip ole transitions. The selection rules for Ek transitions are: L = 0, ±1, ... ± k, L + L` k; S = 0, J = 0, ±1, ... ± k, J + J` k. Here k=1 for E1 transitions and k=2 for E2 transitions. For the magnetic dip ole transitions M1 we have the next selection rules: L = 0, S = 1

0, J = ±1, l = 0. The magnetic dip ole transitions take place only b etween levels b elonging to the same term. In Table 1 only violations of these selection rules occurring for different typ es of the forbidden transitions are presented. The typical values of the transition probabilities for the transitions under consideration are given in column 3 of the table. In the first column there are presented also the transition typ e notations (p - p ermitted, f - forbidden, i - intercombination, 2e - dielectronic) used in the line catalogue. Table 1 Classification of the transition typ es Transition typ e Selection rule violation Aki (s E1, p E1, i E1, 2e E2, E2, M1, M1, f f f f no S = 0 quantum numb er change of two(three) electrons no S = 0 no transition b etween levels of different terms
-1

)

107 - 109 102 - 104 106 - 108 1- 10-4 1- 10-4 102 -1 10 -1

3

Line formation mechanisms

Main mechanisms of the line formation in the sp ectra of gaseous nebulae are the recombination one for the lines of HI, HeI and HeI I and for weak p ermitted lines of C, N and O ions and the excitation by electron impacts for the forbidden, intercombinational and resonance lines (see, e.g., Aller, 1984; Nikitin et al., 1988). For many recombinational lines the contributions by b oth the radiative and the dielectronic recombination are imp ortant (Nussbaumer & Storey 1983, 1984, 1986, 1987). The effective recombination coefficients for weak p ermitted lines of C, N and O ions are compiled in the pap er by Pequignot et al. (1991) and Nikitin et al. (1993). Many p ermitted lines of the C, N, O and some other ions have significant additional contribution to their intensities due to some selective excitation mechanisms. Classification of such selective mechanisms is considered in pap ers by Nikitin et al. (1988); Rudzikas et al. (1990). The most imp ortant selective excitation mechanisms in gaseous nebulae are the Bowen fluorescence excitation, photoionization followed by recombination and excitation connected with charge transfer reactions.

4

List of the lines

Lines detected in the sp ectra of gaseous nebulae are given in Table 2. As sources of data ab out the sp ectral lines we used the pap ers by Kaler (1976), Kholtygin (1990) and the pap ers cited on the introduction. In the first column of the Table 2 the lab oratory wavelengths taken mainly (for p ermitted and intercombination lines) from tables by Striganov and Odintsova (1982) are presented. In the case 2

of absence of the desired values in those tables (mostly for forbidden lines) we either took lab oratory wavelengths given in the pap ers used as sources of the lines or calculated them by usual way from the level energies (e.g., Moore 1949, 1970, 1971,1975 and references in the catalogue by Kholtygin et. al. 1996). The next two columns sp ecify the ion typ e and the electron transition, resp ectively. Unidentified lines are marked with the capital letter X in the second column. We use the standard term designations given by Moore (1949, 1970, 1971, 1975) and by Striganov and Odintsova (1982). The observational wavelengths given by various authors differ essentially and therefore we do not list them. If difference b etween the lab oratory and the observational wavelengths exceeds 0.2° we mark the values by colons. We consider the line identification to b e uncertain if A they are weak in the lab oratory sp ectra and if the strongest line of the multiplet has not b een identified in the nebular sp ectra. In this case we also mark the values by colons. The transition probabilities are presented in column 4 of the Table. We use notation a + b for value a · 10b . The probable line formation mechanisms are presented in column 5. The references to the used sources of the transition probabilities are given in the last column. To find the transition probabilities and wavelengths for the HI and HeI I transitions with large n values we have used the standard formulas for nonrelativistic hydrogenic ions (see, e.g. Rudzikas et al., 1990) which were slightly corrected to fit with exp erimental wavelengths by Striganov and Odintsova (1982). The values calculated so are referred to as Kh93. Nussbaumer and Storey (1984) presented the total transition probabilities for multiplets of C, N and O ions. To calculate the values for comp onent lines of multiplets we used the standard relations for LS-coupling scheme (see, e.g., Rudzikas et al., 1990). We used the following abbreviations for the line generation mechanisms: R - Radiative recombination, D - Dielectronic recombination, B - Bowen mechanism, C - Collision excitation, Ch- Charge transfer excitation, Au- Auger excitation, NF- Nonresonance fluorescence, Ph- Photoionization mechanism. Mostly cases only one line generation mechanism must b e taken into account in the line intensity calculation. It is why, only the main mechanisms contributing to the line intensity is presented in the Table 2.

3

Table 2 The list of lines observed in the sp ectra of gaseous nebulae , ° A 919.78 932.05 933.38 972.11 972.54 977.03 989.79 991.51 992.36 998.43 1000.16 1012.67 1020 1022.6 1025.27 1025.72 1031.91 1037.02 1037.61 1072.99 1084.58 1084.94 1085.70 Ion ArI I ArI I SVI HeI I HI-L CI I I NI I I NI I I HeI I ArVI ArVI ArVI NeVI ArVI HeI I HI-L OVI CI I OVI SIV NI I HeI I NI I Transition 3p5 2 P3/2 - 3p6 2 S1/2 3p5 2 P1/2 - 3p6 2 S1/2 3s 2 S1/2 - 3p 2 P3/2 2-8 1s 2 S1/2 - 4p 2 P3/2 2s2 1 S0 - 2p 1 P1 2p 2 P1/2 - 2p2 2 D3/2 2p 2 P3/2 - 2p2 2 D5/2 2-7 3p 2 P1/2 - 3p2 4 P3/2 3p 2 P1/2 - 3p2 4 P1/2 3p 2 P3/2 - 3p2 4 P3/2 2p 2 P3/2 - 2p2 4 P1/2 3p 2 P3/2 - 3p2 4 P1/2 2-6 1s 2 S1/2 - 3p 2 P1/2 2s 2 S1/2 - 2p 2 P3/2 2p 2 P3/2 - 2p2 2 S1/2 2s 2 S1/2 - 2p 2 P1/2 3p 2 P3/2 - 3p2 2 D5/2 2p2 3 P1 - 2p3 3 D2 2-5 2p2 3 P2 - 2p3 3 D3 A, s
-1

Ex.M. Ref

1.398+ 6.719+ 1.690+ 3.550+ 6.818+ 1.775+ 3.630+ 4.332+ 7.030+

1.560+ 1.672+ 4.163+ 1.526+ 4.095+ 1.377+ 2.629+ 4.050+ 3.494+

8 C M91 7 C M91 9 C M91 6 R R80 7 R M91 9 C,Au M 8 C M91 8 C M91 6 R R80 C C C C C 7 R R80 8 R M91 8 C,Au M91 9 C M91 8 C,Au M91 8 C M91 8 C M91 7 R R80 8 C M91

4

Table 2 (Continuation) , ° A 1175.71 1176.37 1194.50 1198.6 1201.97 1206.51 1215.09 1215.17 1215.67 1218.34 1238.82 1242.80 1247.38 1256.52 1259.52 1264.74 1302.17 1304.37 1304.86 1306.03 1309.28 1335.71 1343.51 1371.29 1393.78 1397.20 1399.77 1401.16 1402.77 1404.81 1407.39 1483.3 1486.50 1503.7 1529.1 1548.20 1550.77 1574.9 1592.7 1608.8 Ion CI I I CI I I S iI I SV SI I I S iI I I HeI I HeI I HI-L OV] NV NV CI I I CI I I SI I S iI I OI S iI I OI OI S iI I CI I OIV OV SiIV OIV] OIV] OIV] SiIV OIV] OIV] NIV] NIV] [NaIV] [NaIV] CIV CIV [NeV] [NeV] [NeIV] Transition 2p 3 P2 - 2p2 3 P2 2p 3 P2 - 2p2 3 P1 3p 2 P3/2 - 3p2 2 P3/2 3s2 1 S0 - 3p 3 P1 3p2 3 P2 - 3p3 3 D3 3s2 1 S0 - 3p 1 P1 2-4 2-4 1s 2 S1/2 - 2p 2 P3/2 2s2 1 S0 - 2p 3 P1 2s 2 S1/2 - 2p 2 P3/2 2s 2 S1/2 - 2p 2 P1/2 2p 1 P1 - 2p2 1 S0 3s 3 S1 - 4p 3 P2 3 4S 44 3p 3/2 - 3p P5/2 3p 2 P3/2 - 3d 2 D5/2 2p4 3 P2 - 3s 3 S1 3p 2 P1/2 - 3p2 2 S1/2 2p4 3 P1 - 3s 3 S1 2p4 3 P0 - 3s 3 S1 3p 2 P3/2 - 3p2 2 S1/2 2p 2 P3/2 - 2p2 2 D5/2 2p2 2 P3/2 - 2p3 2 D5/2 2p 1 P1 - 2p2 1 D2 3s 2 S1/2 - 3p 2 P3/2 2p 2 P1/2 - 2p2 4 P3/2 2p 2 P1/2 - 2p2 4 P1/2 2p 2 P3/2 - 2p2 4 P5/2 3s 2 S1/2 - 3p 2 P1/2 2p 2 P3/2 - 2p2 4 P3/2 2p 2 P3/2 - 2p2 4 P1/2 2s2 1 S0 - 2p 3 P2 2s2 1 S0 - 2p 3 P1 2p4 3 P2 - 2p4 1 S0 2p4 3 P1 - 2p4 1 S0 2s 2 S1/2 - 2p 2 P3/2 2s 2 S1/2 - 2p 2 P1/2 2p2 3 P1 - 2p2 1 S0 2p2 3 P2 - 2p2 1 S0 2p3 4 S3/2 - 2p3 2 P3/2 A, s
-1

Ex.M. C,D C,D,Au C C C C R R R C,Au C,Au C,Au C,D C,D C C C C C C C C,D C C,D C C C C C C C C C C C C C C C C

Ref

2.914+9 1.640+5 6.098+7 2.550+9 1.350+8 1.350+8 6.265+8 2.210+3 3.411+8 3.378+8 1.860+9 1.040+8 4.553+7 2.512+9 3.204+8 5.776+8 1.911+8 6.352+7 1.142+9 2.864+8 2.640+8 3.480+8 8.825+8 5.815+1 2.075+3 1.466+3 8.656+8 4.414+2 2.120+3 1.150-2 5.773+2 1.050-2 0.710+1 2.654+8 2.641+8 0.421+1 6.690-3 0.127+1

M91 M91 M91 M91 R80 R80 M91 M91 M91 M91 R80 NS84 M91 M91 M91 M91 M91 M91 M91 M91 R80 Kh81 M91 M91 M91 M91 M91 M91 M91 M83 M91 M83 M83 M91 M91 M83 M83 M83

5

Table 2 (Continuation) , ° A 1609.0 1620.05 1640.33 1640.47 1640.49 1641.3 1661.17 1666.52 1711.30 1718.55 1746.82 1748.61 1749.67 1751.22 1753.99 1760.40 1793.8 1808.01 1814.7 1816.93 1817.45 1854.72 1862.79 1867.4 1875.5 1883 1889.3 1892.03 1906.68 1908.73 1922.93 1939.6 1939.6 2009.57 2010.09 2112.0 2139.01 2225.61 2226.0 2242.61 2252.69 Ion [NeIV] CI I I HeI I HeI I HeI I OI] OI I I] OI I I] S iI I NIV NI I I] NI I I] NI I I] NI I I] NI I I] CI I [NeI I I] S iI I [NeI I I] S iI I S iI I A lI I I A lI I I [FIV] [FIV] SiI I I] [FIV] SiI I I] CI I I] CI I I] CI I I [FI I I] [FI I I] CI I I CI I I [CaVI I] NI I] [FI I] [CaVI I] [FI I] HeI I-P Transition 2p3 4 S3/2 - 2p3 2 P1/2 3p 3 P1 - 4d 3 D2 2-3 2-3 2-3 2p4 1 D2 - 3s 3 S1 2p2 3 P1 - 2p3 5 S2 2p2 3 P2 - 2p3 5 S2 3p2 2 D5/2 - 5f 2 F7/2 2p 1 P1 - 2p2 1 D2 2p 2 P1/2 - 2p2 4 P3/2 2p 2 P1/2 - 2p2 4 P1/2 2p 2 P3/2 - 2p2 4 P5/2 2p 2 P3/2 - 2p2 4 P3/2 2p 2 P3/2 - 2p2 4 P1/2 2p2 2 D5/2 - 3p 2 P3/2 2p4 3 P2 - 2p4 1 S0 3p 2 P1/2 - 3p2 2 D3/2 2p4 3 P1 - 2p4 1 S0 3p 2 P3/2 - 3p2 2 D5/2 3p 2 P3/2 - 3p2 2 D3/2 3s 2 S1/2 - 3p 2 P3/2 3s 2 S1/2 - 3p 2 P1/2 2p2 3 P0 - 2p2 1 S0 2p2 3 P1 - 2p2 1 S0 3s2 1 S0 - 3p 3 P2 2p2 3 P2 - 2p2 1 S0 3s2 1 S0 - 3p 3 P1 2s2 1 S0 - 2p 3 P2 2s2 1 S0 - 2p 3 P1 3p 3 D3 - 4f 3 F4 2p3 4 S3/2 - 2p3 4 P3/2 2p3 4 S3/2 - 2p3 4 P1/2 3p 3 P1 - 4s 3 S1 3p 3 P2 - 4s 3 S1 3p2 3 P1 - 3p2 1 S0 2p2 3 P1 - 2p3 5 S2 2p4 3 P2 - 2p4 1 S0 3p2 3 P2 - 3p2 1 S0 2p4 3 P1 - 2p4 1 S0 3-10 A, s
-1

Ex.M. C R,D R R R C C,Au C,Au R C,D C C C C C R C C C C C C C C C C C C C,Au,Ph C,Au,Ph R,D C C R R C C C C C R

Ref M83 NS84 R80 R80 R80 M91 M91 Kh81 M91 M91 M91 M91 M91 B85 M83 M91 M83 M91 M91 M91 M91 G68 M83 G68 M91 M83 M91 NS84 G68 G68 NS84 NS84 G68 M91 G68 G68 G68 R80

5.210-1 8.520+8 7.060+8 7.060+8 7.060+8 2.369+2 5.845+2 2.540+8 8.950+0 3.390+2 2.510+2 5.900+1 3.640+2 3.500+7 3.940-3 5.639+6 2.000+0 6.668+6 1.110+6 5.432+8 5.361+8 1.100+0 1.200-2 2.300-3 1.670+4 5.190-3 7.520+1 7.720+8 0.260+0 0.100+0 6.860+8 6.860+8 3.400+1 5.700+1 1.600-3 0.250+0 0.490+0 8.250+5

6

Table 2 (Continuation) , ° A 2280.0 2296.87 2306.19 2321.08 2325.40 2328.12 2331.55 2334.40 2334.61 2350.17 2366.8 2385.40 2399.2 2412.4 2416.5 2421.8 2436.2 2438.6 2441.6 2444.5 2458.8 2465.2 2470.32 2470.41 2471.7 2479.2 2481.0 2482.3 2484.2 2492.3 2494.5 2506.4 2506.8 2508.3 2511.20 2512.0 2514.5 2519.4 2548.2 Ion [CaV] CI I I HeI I-P [OI I I] CI I] CI I] [OI I I] SiI I] SiI I] SiI I] [KVI] HeI I-P FeI I [CaV] [MgV] [NeIV] FeI I [NeIV] [MgVI I] FeI I FeI I FeI I [OI I] [OI I] [KVI] FeI I FeI I FeI I FeI I FeI I [KV] FeI I FeI I FeI I HeI I-P [MgVI I] [KV] FeI I FeI I Transition 3p4 3 P2 - 3p4 1 S0 2p 1 P1 - 2p2 1 D2 3-9 2p2 3 P1 - 2p2 1 S0 2p 2 P3/2 - 2p2 4 P5/2 2p 2 P3/2 - 2p2 4 P1/2 2p2 3 P2 - 2p2 1 S0 3p 2 P1/2 - 3p2 4 P1/2 3p 2 P3/2 - 3p2 4 P5/2 3p 2 P3/2 - 3p2 4 P1/2 3p2 3 P1 - 3p2 1 S0 3-8 4s6 D5/2 - z 6 F5/2 3p4 3 P1 - 3p4 1 S0 2p4 1 D2 - 2p4 1 S0 2p3 4 S3/2 - 2p3 2 D3/2 a4 G11/2 - y 4 H11/2 2p3 4 S3/2 - 2p3 2 D5/2 2p2 1 D2 - 2p2 3 P0 b4 P5/2 - y 4 D7/2 a4 G9/2 - y 4 H11/2 b4 P1/2 - y 4 D3/2 3 4S 32 2p 3/2 - 2p P1/2 2p3 4 S3/2 - 2p3 2 P3/2 3p2 3 P2 - 3p2 1 S0 c2 D5/2 - w2 D3/2 b2 H11/2 - y 4 H11/2 c2 D3/2 - w2 D3/2 b2 H11/2 - y 4 H13/2 b2 H9/2 - y 4 H11/2 3p3 4 S3/2 - 3p3 2 P3/2 c4 F9/2 - z 4 G9/2 c4 F7/2 - y 6 F9/2 c4 F7/2 - w4 G9/2 3-7 2p2 3 P1 - 2p2 1 D2 3p3 4 S3/2 - 3p3 2 P1/2 b2 P1/2 - x4 P3/2 b4 F5/2 - y 6 P7/2 A, s
-1

Ex.M. Ref M83 Kh81 R80 M83 M91 M91 M83 M91 M91 M91 G68 R80 M91 M83 M83 M83 M KL80

0.145+0 C 1.490+8 C,D 1.430+6 R 0.223+0 C 4.320+1 C 6.550+1 C 7.850-4 C 4.550+3 C 2.400+3 C 3.000+3 C 1.600+1 C 2.640+6 R 1.366+8 C 2.310+1 C 4.230+0 C 5.540-3 C,Au C 4.840-4 C 1.600-4 C C C C 0.232-1 C 0.564-1 C 0.140+0 C C C C C C 5.190+0 C C C C 5.370+6 R 1.050+0 C 2.140+0 C C C

M83 M83 G68

M83

R80 KL80 M83

7

Table 2 (Continuation) , ° A 2562.5 2582.6 2585.9 2591.5 2593.5 2593.60 2595.68 2598.4 2599.4 2604.0 2605.0 2606.5 2607.1 2611.9 2613.8 2617.6 2620.4 2625.6 2628.3 2631.0 2631.3 2663.27 2669.16 2690.82 2696.12 2709.4 2711.2 2711.8 2712.4 2714.4 2716.7 2723.19 2724.9 2727.5 2730.7 2732.4 2733.30 2739.5 Ion FeI I FeI I FeI I FeI I [KIV] NeI I I NeI I I FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I HeI A lI I [ArV] HeI FeI I [KIV] FeI I FeI I FeI I FeI I HeI FeI I FeI I FeI I FeI I HeI I-P FeI I Transition a4 D7/2 - x4 P5/2 a4 D3/2 - x4 P3/2 a6 D9/2 - x6 D7/2 a4 D5/2 - x4 P5/2 3p4 3 P2 - 3p4 1 S0 3s 5 S2 - 3p 5 P2 3s 5 S2 - 3p 5 P1 a6 D7/2 - z 6 D5/2 a6 D9/2 - a6 D7/2 c2 F7/2 - v 2 G7/2 c2 F5/2 - v 2 G7/2 b2 D5/2 - x2 D5/2 a6 D5/2 - z 6 D3/2 a6 D7/2 - z 6 D7/2 a6 D3/2 - z 6 D1/2 a6 D5/2 - z 6 D5/2 a6 D3/2 - z 6 D3/2 a6 D7/2 - z 6 D9/2 a6 D1/2 - z 6 D3/2 a6 D3/2 - z 6 D5/2 a6 D5/2 - z 6 D7/2 2s 3 S1 - 11p 3 P0-2 3s2 1 S0 - 3p 3 P1 3p2 3 P1 - 3p2 1 S0 2s 3 S1 - 9p 3 P0-2 a4 D5/2 - z 4 F3/2 3p4 3 P1 - 3p4 1 S0 a4 G11/2 - z 2 I13/2 a4 G9/2 - z 2 I11/2 a4 D7/2 - z 4 D5/2 a4 D7/2 - z 4 F7/2 2s 3 S1 - 8p 3 P0-2 a4 D5/2 - z 4 F5/2 a4 D5/2 - z 4 D3/2 a4 D3/2 - z 4 F3/2 a4 F9/2 - z 6 D9/2 3-6 4D a 7/2 - z 4 D7/2 A, s
-1

Ex.M. Ref C C C C C R R C C C C C C C C C C C C C C R C C R C C C C C C R C C C C R C

8.046+7 0.817-1

M91 M83

1.307+8

M91

1.658+ 1.089+ 1.988+ 4.364+ 3.590+ 3.353+ 8.560+ 7.682+ 6.032+ 3.190+ 3.330+ 6.550+ 5.790+

8 8 8 7 6 7 7 7 7 5 3 0 5

M91 M91 M91 M91 M91 M91 M91 M91 M91 T87 M91 KL80 T87 M83

1.000+1

8.170+5

T87

1.250+7

R80

8

Table 2 (Continuation) , ° A 2741.7 2743.2 2746.5 2747.0 2749.2 2749.3 2749.5 2754.9 2755.1 2755.7 2763.80 2767.5 2767.5 2768.9 2771.2 2776.9 2783.2 2785.2 2785.76 2790.6 2790.78 2795.53 2797.99 2802.70 2803.3 2818.68 2829.08 2836.34 2839.5 2845.5 2848.1 2848.3 2851.7 2853.68 2856.4 2856.9 2865.5 Ion FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I FeI I HeI FeI I FeI I FeI I FeI I FeI I [MgV] FeI I [ArV] FeI I MgI I MgI I MgI I MgI I [NaIV] OI I I HeI OI I I FeI I FeI I FeI I FeI I FeI I [ArIV] FeI I FeI I FeI I Transition z 2 F5/2 - e2 F5/2 a4 D1/2 - z 4 F3/2 a4 D3/2 - z 4 F5/2 a4 D5/2 - z 4 D5/2 a4 D3/2 - z 4 D3/2 a4 D5/2 - z 4 F7/2 a4 D1/2 - z 4 D1/2 z 6 F7/2 - e6 D5/2 z 6 F7/2 - e6 D3/2 a4 D7/2 - z 4 F9/2 2s 3 S1 - 7p 3 P0-2 b2 H11/2 - z 2 I13/2 z 6 F9/2 - e6 D7/2 a4 D3/2 - z 4 D5/2 b2 G9/2 - y 4 H11/2 z 6 F7/2 - e6 D7/2 2p4 3 P2 - 2p4 1 D2 z 6 F11/2 - e6 D9/2 3p2 3 P2 - 3p2 1 S0 b2 G7/2 - y 4 H9/2 3p 2 P1/2 - 3d 2 D3/2 3s 2 S1/2 - 3p 2 P3/2 3p 2 P3/2 - 3d 2 D5/2 3s 2 S1/2 - 3p 2 P1/2 2p4 1 D2 - 2p4 1 S0 3p 3 D2 - 3d 3 P2 2s 3 S1 - 6p 3 P0-2 3p 3 D3 - 3d 3 P2 z 4 F9/2 - e4 D7/2 z 4 D3/2 - e4 D3/2 z 4 D5/2 - e4 D5/2 z 4 F5/2 - e4 D3/2 z 4 F3/2 - e4 D1/2 3p3 4 S3/2 - 3p3 2 P3/2 z 6 P5/2 - e6 D7/2 z 4 D7/2 - e4 D7/2 z 4 F3/2 - e4 D3/2 A, s
-1

Ex.M. Ref C C C C C C C C C C R C C C C C C C C C C,R C C,R C C B,R R B,R C C C C C C C C C

1.200+6

T87

1.850+0 0.569-1

M83 KL80

2.612+8 2.592+ 3.460+ 6.980+ 1.860+ 8.710+ 8 0 5 6 6

M91 M91 M83 E84 T87 E84

2.110+0

M83

9

Table 2 (Continuation) , ° A 2868.18 2886.2 2888.1 2916.2 2922.0 2926.6 2928.7 2930.0 2933.1 2944.1 2945.11 2945.3 2953.8 2958.36 2964.6 2965.0 2970.5 2972.29 2972.56 2973.4 2978.83 2979.1 2979.3 2984.8 3002.7 3005.22 3023.45 3024.57 3047.13 3059.30 3062.83 3070.55 3109.16 3118.61 3121.71 3132.86 3183.1 3187.74 3196.1 Ion [ArIV] FeI I FeI I FeI I FeI I FeI I [MgV] [FI I I] [FI I I] FeI I HeI FeI I FeI I [OI] FeI I FeI I FeI I [OI] NI I I [NeV] NI I I FeI I FeI I FeI I FeI I [ArI I I] OI I I OI I I OI I I OI I I [NI I] [NI I] [ArI I I] [ClIV] OI I I OI I I FeI I HeI FeI I Transition 3p3 4 S3/2 - 3p3 2 P1/2 b2 H11/2 - z 4 G9/2 b2 P3/2 - y 4 P5/2 a4 D7/2 - z 6 F7/2 b4 D7/2 - x4 G9/2 a4 D7/2 - z 6 F9/2 2p4 3 P1 - 2p4 1 D2 2p3 4 S3/2 - 2p3 2 D3/2 2p3 4 S3/2 - 2p3 2 D5/2 a4 P3/2 - z 4 P1/2 2s 3 S1 - 5p 3 P0-2 a4 D5/2 - z 6 F5/2 a4 D5/2 - z 6 F7/2 2p4 3 P2 - 2p4 1 S0 a4 P1/2 - z 4 P1/2 a4 P3/2 - z 4 P3/2 a4 D3/2 - z 6 F5/2 2p4 3 P1 - 2p4 1 S0 3p 2 P1/2 - 3d 2 P1/2 2p2 1 D2 - 2p2 1 S0 3p 2 P1/2 - 3d 2 P3/2 b2 F7/2 - z 2 H9/2 a4 D1/2 - z 6 F3/2 a4 P5/2 - z 4 P5/2 a4 P3/2 - z 4 P5/2 3p4 3 P2 - 3p4 1 S0 3s 3 P1 - 3p 3 P2 3s 3 P0 - 3p 3 P1 3s 3 P2 - 3p 3 P2 3s 3 P2 - 3p 3 P1 2p2 3 P1 - 2p2 1 S0 2p2 3 P2 - 2p2 1 S0 3p4 3 P1 - 3p4 1 S0 3p2 3 P1 - 3p2 1 S0 3p 3 S1 - 3d 3 P1 3p 3 S1 - 3d 3 P2 a4 P3/2 - z 4 P5/2 2s 3 S1 - 4p 3 P0-2 a4 P5/2 - z 4 F7/2 A, s
-1

Ex.M. Ref C C C C C C C C C C R C C C C C C C R,D C R,D C C C C C B,R B,R B,R B,R C C C C B,R B,R C R C M83

0.862+0

0.541+0 1.300-3 1.300-4 3.080+6

M83 G68 G68 T87

2.880-4

M83

0.732-1 6.310+7 2.850+0 3.600+7

M83 NS84 M83 NS84

0.417-1 5.100+7 6.560+7 1.610+8 9.650+7 0.338-1 1.510-4 3.910+0 2.470+0 1.240+8 1.360+8 5.420+6

M83 E84 E84 E84 E84 M83 M83 M83 KL80 E84 E84 T87

10

Table 2 (Continuation) , ° A 3203.10 3203.60 3241.67 3260.98 3265.43 3299.36 3300.0 3306.63 3312.30 3319.00 3334.84 3334.84 3340.74 3340.81 3342.55 3342.85 3345.86 3349.12 3350.68 3350.99 3353.21 3355.05 3355.05 3362.20 3381.24 3382.69: 3385.50 3396.67 3403.54 3404.82 3405.74 3407.38 3407.38 3407.96 3409.60 3411.69 3415.18 3416.2 3425.97 3428.67 Ion HeI I-P [ClIV] [NaIV] OI I I OI I I OI I I [NeV] NI I I OI I I [FeI I I] [FeI I I] NeI I OI I I [FeI I I] [NeI I I] [ClI I I] [NeV] OIV OI I I OI I I [ClI I I] NeI I [FeI I I] [NaIV] OIV OIII OIV OIV OIV NeI I OI I I OI I OI I OI I I OIV OIV OI I I [NaIV] [NeV] OI I I Transition 3-5 3p2 3 P2 - 3p2 1 S0 2p4 3 P2 - 2p4 1 D2 3p 3 D2 - 3d 3 F3 3p 3 D3 - 3d 3 F4 3s 3 P0 - 3p 3 S1 2p2 3 P0 - 2p2 1 D2 4p 2 P3/2 - 5d 2 D5/2 3s 3 P1 - 3p 3 S1 a 5 D2 - a 3 D3 a 5 D2 - a 3 D2 3s 4 P5/2 - 3p 4 D7/2 3s 3 P2 - 3p 3 S1 a 5 D1 - a 3 D3 2p4 1 D2 - 2p4 1 S0 3p3 4 S3/2 - 3p3 2 P3/2 2p2 3 P1 - 2p2 1 D2 3s 2 P3/2 - 3p 2 D5/2 3s` 5 P2 - 3p` 5 P1 3s` 5 P3 - 3p` 5 P3 3p3 4 S3/2 - 3p3 2 P1/2 3s 4 P3/2 - 3p 4 D5/2 a 5 D1 - a 3 D1 2p4 3 P1 - 2p4 1 D2 3s 4 P3/2 - 3p 4 P5/2 3p` 5 P2 - 3d` 5 D3 3s 4 P5/2 - 3p 4 D7/2 3s 4 P3/2 - 3p 4 D3/2 3p 2 P1/2 - 3d 2 D3/2 3p 2 D3/2 - 3d 2 D5/2 3p 3 P0 - 3d 3 P1 3p 2 D5/2 - 4s 2 D5/2 3p 2 D5/2 - 4s 2 D3/2 3p 3 P1 - 3d 3 P0 3s 4 P5/2 - 3p 4 D5/2 3p 2 P3/2 - 3d 2 D5/2 3p 3 P1 - 3d 3 P1 2p4 3 P0 - 2p4 1 D2 2p2 3 P2 - 2p2 1 D2 3p 3 P1 - 3d 3 P2 A, s
-1

Ex.M.

Ref R80 KL80 M83 E84 E84 E84 M83 NS84 E84

3.520+7 0.262-1 0.610+0 2.040+8 2.240+8 2.090+7 2.370-5 7.980+7 5.780+7 B

R C C R,D R,D B,R C R ,R,D,Ch C C R 7.970+7 B,R,D,Ch C 2.710+0 C 0.754+0 C 0.131+0 C 1.330+8 R R,D R,D 0.305+0 C 1.300+8 R C 0.186+0 C R R,D R R 8.060+7 R 1.900+8 R 2.070+7 B,R 4.080+7 R 4.080+7 R 8.200+7 R R 1.030+8 R 2.560+7 B,R 2.240-5 C 0.365+0 C 9.840+6 B,R

E84 M83 M83 M83 NS84

M83 R80 M83

NS84 R80 E84 NS84 NS84 E84 NS84 E84 M83 M83 E84

11

Table 2 (Continuation) , ° A 3430.60 3433.9 3444.10 3447.59 3450.40 3455.20 3466.50 3466.54 3471.81 3478.71 3478.96 3485.5 3487.72 3488.1 3498.64 3500.4 3503.0 3512.51 3530.49 3532.2 3554.34 3554.41 3568.53 3583.0 3586.0 3587.27 3609.62 3613.64 3634.23 3634.37 3657.27 3657.93 3658.64 3659.42 3660.28 3661.22 3662.26 3662.50 3663.41 3664.68 3666.10 3667.88 3669.47 3671.48 3673.76 Ion OI I I OVI OI I I HeI OI I I OI I I [NI] [NI] HeI NIV HeI [MgVI] HeI [MgVI] HeI [MgVI] [MgVI] HeI HeI [FIV] NeI I HeI NeI I [ClI I] [FeVI I] HeI CI I I HeI HeI HeI H36 H35 H34 H33 H32 H31 H30 [FeVI] H29 H28 H27 H26 H25 H24 H23 Transition 3p 3 P2 - 3d 3 P1 6fgF G - 7ghGH 3p 3 P2 - 3d 3 P2 2s 1 S0 - 6p 1 P1 3p` 5 D1 - 3d` 5 F1 3p` 5 D2 - 3d` 5 F2 2p3 4 S3/2 - 2p3 2 P3/2 2p3 4 S3/2 - 2p3 2 P1/2 2p 3 P - 16d 3 D 3s 3 S1 - 3p 3 P2 2p 3 P - 15d 3 D 3 2D 32 2p 5/2 - 2p P3/2 2p 3 P - 14d 3 D 3 2D 32 2p 3/2 - 2p P3/2 3 P - 13d 3 D 2p 3 2D 32 2p 5/2 - 2p P1/2 3 2D 32 2p 3/2 - 2p P1/2 2p 3 P - 12d 3 D 2p 3 P - 11d 3 D 2p2 1 D2 - 2p2 1 S0 3p 2 D5/2 - 3d 4 D7/2 2p 3 P - 10d 3 D 3s 2 D5/2 - 3p 2 F7/2 3p4 3 P2 - 3p4 1 S0 3d2 (a3 F3 - a1 G4 ) 2p 3 P - 9d 3 D 4p 3 P2 - 5d 3 D3 2s 1 S0 - 5p 1 P1 2p 3 P1,2 - 8d 3 D1-3 2p 3 P0 - 8d 3 D1 2-36 2-35 2-34 2-33 2-32 2-31 2-30 3d3 (a4 F7/2 - a2 D5/2 ) 2-29 2-28 2-27 2-26 2-25 2-24 2-23 A, s
-1

Ex.M. Ref E84 Kh93 E84 T87

3.120+ 5.910+ 5.820+ 2.230+

7 B,R 8R 7 B,R 6R R,D R,D 6.580-3 C 2.710-3 C 3.140+5 R 1.100+8 R,D 3.820+5 R 2.400+0 C 4.710+5 R 3.800+0 C 5.900+5 R 0.150+0 C 2.500+0 C 7.520+5 R 9.810+5 R 2.100+0 C R 1.310+6 R 1.400+8 R 0.197-1 C C 1.810+6 R 9.090+7 R 3.740+6 R 2.320+6 R 1.450+8 R R 1.320+2 R 1.520+2 R 1.770+2 R 2.060+2 R 2.420+2 R 2.850+2 R C 3.380+2 R 4.020+2 R 4.830+2 R 5.830+2 R 7.100+2 R 8.710+2 R 1.080+3 R

M83 M83 T87 R80 T87 G68 T87 G T87 G G68 T87 T87 G68 T87 R80 M83 T87 NS84 T87 T87 T87 Kh Kh Kh Kh Kh Kh Kh Kh Kh Kh Kh Kh Kh 93 93 93 93 93 93 93 93 93 93 93 93 93

12

Table 2 (Continuation) , ° A 3675.0 3676.36 3679.35 3682.81 3686.83 3688.0: 3690.07 3691.56 3694.21 3697.15 3698.07 3698.72 3701.77 3702.75 3703.86 3705.00 3705.15 3707.24 3709.52 3709.62 3711.97 3712.75 3715.08 3715.15 3715.46 3717.90 3720.72 3721.88 3721.94 3726.19 3727.33 3729.11 3731.60 3732.34 3732.82 3732.86 3733.01 3734.37 3735.94: 3736.85 3739.92 3740.22 3740.30 3745.92 3747.86 Ion [ClI I] H22 H21 H20 H19 [CaVI I] HeI I H18 NeI I H17 NeI I HeI I NeI I OI I I H16 HeI HeI OI I I OI I I NeI I H15 OI I OI I I HeI I NeI I X NeI I [SI I I] H14 [OI I] OI I [OI I] OI I I NeI I HeI I HeI HeI H13 OI I OIV OI I HeI I [FeVI] NI I I NeI I 3p Transition P1 - 3p4 1 S0 2-22 2-21 2-20 2-19 3p2 1 D2 - 3p2 1 S0 4-36 2-18 3s 4 P5/2 - 3p 4 P5/2 2-17 3d 4 P3/2 - 5p 4 D1/2 4-33 3p 2 P3/2 - 3d 4 P5/2 3p 3 P0 - 3d 3 D1 2-16 2p 3 P1,2 - 7d 3 D1-3 2p 3 P0 - 7d 3 D1 3p 3 P1 - 3d 3 D2 3s` 5 P1 - 3p` 5 D0 3s 4 P3/2 - 3p 4 P1/2 2-15 3s 4 P1/2 - 3p 4 S3/2 3p 3 P2 - 3d 3 D3 4-29 4p 2 D5/2 - 7s 2 P3/2 3d 2 F5/2 - 5p 2 D5/2 3p2 3 P1 - 3p2 1 S0 2-14 2p3 4 S3/2 - 2p3 2 D3/2 3s 4 P3/2 - 3p 4 S3/2 2p3 4 S3/2 - 2p3 2 D5/2 3p 3 P2 - 3d 3 D1 3p 2 P3/2 - 3d 4 F3/2 4-26 2p 3 P1,2 - 7s 3 S1 2p 3 P0 - 7s 3 S1 2p 2 P - 13d 2 D 3p 2 P3/2 - 4s 2 D5/2 3p 4 D7/2 - 3d 4 F9/2 3p 4 S3/2 - 4s 4 P5/2 4-25 3d 4 F9/2 - 3d 2 H9/2 3s` 4 P1/2 - 3p` 4 S3/2 3d 2 P1/2 - 5p 2 S1/2
43

A, s

-1

Ex.M. Ref C R R R R C R R R R R R R M83 Kh93 Kh93 Kh93 Kh93 G68 Kh93 Kh93 R80 Kh93 Kh93 R80

1.310+ 1.350+ 1.700+ 2.170+ 2.810+ 4.300+ 9.660+ 3.690+ 1.000+ 4.910+

0 3 3 3 3 0 2 3 8 3

1.500+3 2.700+7 6.660+ 3.520+ 2.200+ 7.740+ 3 6 6 7

R Kh93 R T87 R T87 R E84 R,D 1.100+8 R R80 9.210+3 R Kh93 9.810+7 B,R 2.870+3 R R E84 R80

R 0.796+0 C KL80 1.300+4 R Gr90 1.650-4 C,Ph M83 3.820-5 C,Ph 2.150+6 B,R R 4.980+3 R 1.290+6 R 1.610+5 R 1.880+4 R R,D R,D 6.060+3 R C R,D R M83 E84 R80 T87 T87 Gr90

R80

13

Table 2 (Continuation) , ° A 3748.60 3750.15 3754.67 3756.11 3757.21 3757.47 3757.65 3758.14 3759.0 3759.87 3762.63 3768.07 3768.78 3770.63 3773.98 3774.00 3777.07 3777.07 3781.62 3781.68 3783.47 3784.86 3785.01 3791.26 3795.23 3796.3 3796.33 3796.7 3797.90 3805.74 3810.96 3813.49 3814.56 3819.61 3819.76 3829.75 3829.79 3833.55 3833.78 3833.80 3835.38 3838.09 3839.27 3842.82: Ion HeI I H12 OI I I HeI OI I I NI I I NI I I HeI I [FeVI I] OI I I OI I HeI I HeI H11 [FeVI] OI I I [FeV] NeI I FI I HeI I [FeV] HeI OI I OI I I [FeV] S iI I I HeI I [SI I I] H10 HeI OI I I HeI I FI I HeI HeI NeI I NI I HeI HeI I HeI I H9 HeI [FeV] OI I Transition 4-24 2p 2 P - 12d 2 D 3s 3 P1 - 3p 3 D2 2p 1 P1 - 14d 1 D2 3s 3 P0 - 3p 3 D1 3p` 4 D1/2 - 3d` 4 P3/2 3p` 4 D3/2 - 3d` 4 P1/2 4-23 3d2 (a3 F4 - a1 G4 ) 3s 3 P2 - 3p 3 D3 3p 4 S3/2 - 4s 4 P3/2 4-22 2p 1 P1 - 13d 1 D2 2p 2 P - 11d 2 D 3d 4 F3/2 - 3d 2 P1/2 3s 3 P1 - 3p 3 D1 3d 5 D0 - 3d 3 P2 3s 4 P1/2 - 3p 4 P3/2 3s 3 D2 - 3p 1 F3 4-21 3d 5 D2 - 3d 3 F3 2d 1 P1 - 12d 1 D2 4p 2 P3/2 - 4d 2 D5/2 3s 3 P2 - 3p 3 D2 3d 5 D2 - 3d 3 F2 4p 3 P1 - 4d 3 D2 4-20 3p2 3 P2 - 3p2 1 S0 2p 2 P - 10d 2 D 2p 1 P1 - 11d 1 D2 3s 3 P2 - 3p 3 D1 4-19 3p 3 P1 - 3d 3 S1 2p 3 P1,2 - 6d 3 D1-3 2p 3 P0 - 6d 3 D1 3p 2 P3/2 - 3d 2 D5/2 3p 3 P1 - 4s 3 P2 2p 1 P1 - 10d 1 D2 2-10 4-18 2p 2 P - 9d 2 D 2p 1 P1 - 10s 1 S0 3d4 (a5 D3 - a3 F3 ) 3p 4 D1/2 - 3d 4 D3/2 A, s
-1

Ex.M.

Ref R80 Gr90 E84 E84

7.450+3 R 2.820+4 R 8.270+7 B,R,Ch R 6.120+7 B,R,Ch R,D R,D 9.240+3 R C 1.080+8 B,R,Ch R,D 1.160+4 R 4.320+5 R 4.370+4 R C 4.290+7 B,R,Ch C R R,D 1.460+4 R C 5.550+5 R R,D 2.490+7 B,R,Ch C R 1.880+4 R 0.105-1 C 7.080+4 R 7.240+5 R B,R,Ch 2.440+4 R R,D 5.720+6 R 3.580+6 R 8.400+7 R 1.500+7 R 9.720+5 R 2.850+5 R 3.210+4 R 1.210+5 R 3.667+5 R C 1.460+7 R

R80 E84 R80 T87 Gr90 E84

R80 T87 E84 R80 KL80 Gr90 T87 R80 T87 T87 R80 R80 T87 Kh93 R80 Gr90 T87 NS84

14

Table 2 (Continuation) , ° A 3851.20 3853.66 3856.16 3856.02 3856.16 3857.81 3858.07 3859.19 3862.59 3867.48 3867.63 3868.71 3871.79 3875.50 3878.10 3882.20 3883.82 3885.94 3887.44 3887.57: 3888.65 3889.05 3891.28 3891.80 3895.22 3918.98 3919.29 3920.69 3923.48 3924.47 3926.53 3934.47 3935.91 3945.05 3954.37: 3956.74: 3960.7 3961.59 3964.73 3967.41 3968.43 3970.07 3973.26 Ion [FeV] S iI I OI I S iI I OI I NeI I HeI I X S iI I HeI HeI [NeI I I] HeI OI I] X OI I CI I I CI I I HeI I NI HeI H8 [FeV] X [FeV] CI I OI I CI I HeI I S iI I I HeI X HeI OI I OI I OIV [FIV] OI I I HeI [NeI I I] HeI I H7 OI I
22

Transition 3d 5 D3 - 3d 3p D3/2 - 4p 3p 4 D3/2 - 3d 3p2 2 D5/2 - 4p 3p 4 D3/2 - 3d 3p 2 P1/2 - 4d 4-17
22 3

A, s
2

-1

Ex.M. Ref C R R

F2 P3/2 4D 1/2 2P 3/2 4D 1/2 2D 3/2
2

R,D 4.300+4 R 2.120+ 2.640+ 0.171+ 1.350+ 6 5 0 6 R R R C R R

R80 T87 T87 M83 T87

3p D3/2 - 4p P1/2 2p 3 P2,1 - 6s 3 S1 2p 3 P0 - 6s 3 S1 2p4 3 P2 - 2p4 1 D2 2p 1 P1 - 9d 1 D2 3p 4 D7/2 - 3d 2 F5/2 3p 4 D7/2 - 3d 4 D7/2 4d 3 D1 - 5f 3 F2 4d 3 D2 - 5f 3 F3 4-16 3s 2 P1/2 - 5p 2 D3/2 2s 3 S1 - 3p 3 P0-2 2-8 5 D -3 F 4 4 D3 -3 P2 3p P1/2 - 4s 2 S1/2 3s 2 D3/2 - 3p 2 P1/2 3p 2 P3/2 - 4s 2 S1/2 4-15 4f 1 F3 - 5g 1 G4 2p 1 P1 - 8d 1 D2
2 5

9.030+ 9.560+ 5.860+ 6.410+ 9.120+ 2.210+

7 7 4 6 6 5

R R,D NS84 R NS84 R R80 R NS84 R T87 R S77 C B85 B85 R80 T87

C 1.810+8 R,NF R 1.810+8 R,NF 8.160+4 R R 1.950+6 R

2p 1 P1 - 8s 1 S0 3s 2 P1/2 - 3p 2 P3/2 3s 2 P1/2 - 3p 2 P1/2 3s 4 P3/2 - 3d 4 P3/2 2p2 3 P0 - 2p2 1 D2 3p 1 D2 - 3d 1 F3 2s 1 S0 - 4p 1 P1 2p4 3 P1 - 2p4 1 D2 4-14 2p 2 P - 7d 2 D 3s 2 P3/2 - 3p 2 P3/2

4.320+7 6.400-6 1.500+8 6.830+6 0.542-1 1.160+5 4.390+5

R R R NS84 R,D C G68 R E84 R T87 C M83 R R80 R S77 R

15

Table 2 (Continuation) , ° A 3973.76: 3982.72 3995.00 3995.08 3996.3 3997.4 4003.58 4007.91 4009.27 4011.60 4012.7 4025.60 4026.13 4026.36 4033.18: 4035.09 4046.5 4047.80 4056.06 4057.76 4060.2 4068.60 4068.91 4069.64 4069.90 4070.26 4071.3 4072.16 4073.90 4076.35 4077.78 4078.86 4081.10 4085.12 4087.16 4089.29 4091.32 4092.80 4097.0: 4097.33 4100.04 Ion CI I OI I NI I OIV [CaV] [FIV] NI I I [FeI I I] HeI [NaV] [NeI I I] HeI I HeI HeI OI I OI I [FeI I I] OI I CI I I NIV [FIV] [SI I] CI I I OI I OI I CI I I [FeV] OI I OI I I [SI I] CI I OI I OI I I OI I OI I OI I X OI I [KVI] NI I I HeI I Transition 3s 2 P3/2 - 3p 2 P1/2 3s 1 P1 - 3p 1 D2 3p 4 P5/2 - 3d 4 P5/2 3p4 1 D2 - 3p4 1 S0 2p2 3 P1 - 2p2 1 D2 4d 2 D5/2 - 5f 2 F7/2 a5 D4 - a3 G4 2p 1 P1 - 7d 1 D2 3 2D 32 2p 5/2 - 2p P3/2 2p4 3 P0 - 2p4 1 D2 4-13 2p 3 P1,2 - 5d 3 D1-3 2p 3 P0 - 5d 3 D1 3d 4 F3/2 - 4f 4 F3/2 3d 4 F5/2 - 4f 2 F5/2 3d6 (a5 D3 - a3 G3 ) 3d 4 F7/2 - 4f 4 F7/2 4d 1 D2 - 5f 1 F3 3p 1 P1 - 3d 1 D2 2p2 3 P2 - 2p2 1 D2 3p3 4 S3/2 - 3p3 2 P3/2 4f 3 F3 - 5g 3 G4 3p 4 D1/2 - 3d 4 F3/2 3p 4 D3/2 - 3d 4 F3/2 4f 3 F4 - 5g 3 G5 5 D -3 P 2 1 4D - 3d 4 F7/2 3p 5/2 3s 3 P1 - 3p 3 D2 3p3 4 S3/2 - 3p3 2 P1/2 3d 4 D7/2 - 4f 2 F7/2 3p 4 D3/2 - 3d 4 F3/2 3s 3 P2 - 3p 3 D3 3p 4 D5/2 - 3d 4 F5/2 3d 4 F3/2 - 4f 4 G5/2 3d 4 F9/2 - 4f 4 G11/2 3p 4 D7/2 - 3d 4 F7/2 3p2 1 D2 - 3p2 1 S0 3s 2 S1/2 - 3p 2 P3/2 4-12 A, s
-1

Ex.M. Ref R R R C C R,D C R C C R R R R R C R R,D R C C R,D R R R C R R,D C R R R R R R R C R R

3.730+0 0.340-1 1.820+8 2.980+6 8.510-6 1.710+5 1.030+7 6.440+6 2.300+7

M83 G68 NS84 T87 M83 R80 T87 T87 NS84

2.200+7 2.520+8 7.080+7 0.098+0 0.225+0 3.070+8 1.420+8 1.520+8 3.270+8 1.740+8 3.110+7 0.906-1 5.680+ 4.140+ 4.950+ 2.240+ 2.620+ 2.900+ 4.100+ 1.190+ 2.590+ 7 7 7 8 8 7 0 8 5

NS84 Kh81 Kh81 G68 M83 NS84 NS84 NS84 NS84 NS84 NS84 M83 NS84 NS84 NS84 R80 R80 NS84 G68 B85 R80

16

Table 2 (Continuation) , ° A 4101.74 4102.94 4103.43 4104.74 4107.07: 4115.83 4119.22 4120.82 4120.55: 4120.99 4121.84 4122.46 4128.75 4141.8 4143.76 4143.77 4146.06: 4152.51 4156.45 4156.49 4157.5 4162.86 4163.05 4163.30 4168.97 4180.59 4185.46 4186.90 4189.79 4195.76 4199.83 4227.19 4229.27 4240.0 4244.0 4247.31 4250.0 4253.74 4253.98 4265.34 4267.00 Ion H SiI] NI I I OI I OI I SiIV OI I HeI OI I HeI CI I I [KV] [FeI I I] [BaV] HeI OI I OI I CI I I OI I CI I I [FI I] CI I I [KV] [KV] HeI [FeV] OI I CI I I OI I NI I I HeI I [FeV] [FeV] [YVI] [FeI I] CI I I [SrVI] OI I OI I X CI I Transition 2p 2 P - 6d 2 D 3p2 1 S0 - 4s 3 P1 3s 2 S1/2 - 3p 2 P1/2 3p 4 P3/2 - 3d 4 D5/2 3d 4 F5/2 - 4f 4 D7/2 4s 2 S1/2 - 4p 2 P1/2 3p 4 P5/2 - 3d 4 D7/2 2p 3 P1,2 - 5s 3 S1 3p 4 P5/2 - 3d 4 D3/2 2p 3 P2-0 - 5s 3 S1 4p 1 P1 - 5d 1 D2 3 4S 32 3p 3/2 - 3p D5/2 3d6 (a5 D1 - a3 G3 ) 2p 1 P1 - 6d 1 D2 3p 6 P5/2 - 3d 6 D7/2 3p 6 P7/2 - 3d 6 D7/2 3p` 3 D1 - 5f 3 F2 3p 4 P5/2 - 3d 4 P3/2 3p 3 D2 - 5f 3 F3 2p4 1 D2 - 2p4 1 S0 3p 3 D3 - 5f 3 F4 3p3 4 S3/2 - 3p3 2 D3/2 3p3 4 S3/2 - 3p3 2 D3/2 2p 1 P1 - 6s 1 S0 5 D -3 P 1 0 3p` 2 F5/2 - 3d` 2 G7/2 4f 1 F3 - 5g 1 G4 3p 2 F7/2 - 3d 2 G9/2 3s 2 P1/2 - 3p 2 D3/2 4-11 a5 D4 - a3 H4 a5 D2 - a3 P0 a4 F9/2 - a4 G11/2 3p 1 P1 - 5p 1 P1 3d` 2 G9/2 - 4f ` 2 H9,11/2 3d` 2 G7/2 - 4f ` 2 H9/2 3d 2 D3/2 - 4f 2 F5/2 2.220+8 A, s
-1

Ex.M. Ref R C R R R R R R R R C C R R R,D R R,D C R,D C C R C R R,D R,D R,D R C C C R R,D R,D R B85 S77 B85 NS8 R80 T87 NS84 T87 NS84 M83

9.730+5 1.190+8 3.790+3 1.480+8 3.860+6 7.600+6 4.820+5 1.090+8 4.590-3

4.910+6

T87

1.090+8 4.350+7 1.150+8 2.100+0 1.300+8 0.884-1 1.100+6

Kh81 NS84 Kh81 G68 Kh81 M83 T87

4.310+8 1.980+8 4.090+5

Kh81 NS84 R80

1.060+7

NS84

17

Table 2 (Continuation) , ° A 4267.26 4275.52 4276.71 4276.71 4276.71 4287.40 4295.24 4303.83 4317.14 4319.68 4325.56 4325.69 4332.76 4336.86 4338.67 4340.47 4349.43 4359.0 4363.21 4366.90 4368.14 4368.25 4379.11 4387.93 4414.78 4414.91 4416.98 4437.55 4447.99 4452.10 4452.38 4465.40 4465.5 4471.48 4471.68 4474.91 4481.13 4491.25 4506.9 4510.94 Ion CI I OI I OI I OI I OI I] [FeI I] OI I OI I OI I OI I CI I I OI I OI I OI I HeI I H OI I [FeI I] [OI I I] OI I CI I OI NI I I HeI [FeI I] OI I OI I HeI OI I [FeI I] OI I OI I [XeIV] HeI HeI [FeI I I] MgI I OI I [SI] [KIV] Transition 3d 2 D5/2 - 4f 2 F7/2 3d 4 D7/2 - 4f 4 F9/2 3d 4 P3/2 - 4f 4 D1/2 3d 4 D5/2 - 4f 4 F7/2 3d 4 D5/2 - 4f 2 F5/2 a6 D9/2 - a6 S5/2 3d 4 P3/2 - 4f 4 D5/2 3d 4 P5/2 - 4f 4 D7/2 3s 4 P1/2 - 3p 4 P3/2 3s 4 P3/2 - 3p 4 P5/2 3s 1 P1 - 3p 1 D2 3s 4 P1/2 - 3p 4 P1/2 3d 4 D7/2 - 4f 4 G9/2 3s 4 P3/2 - 3p 4 P3/2 4-10 2p 2 P - 5d 2 D 3s 4 P5/2 - 3p 4 P5/2 a6 D7/2 - a6 S5/2 2p2 1 D2 - 2p2 1 S0 3s 4 P5/2 - 3p 4 P3/2 3d 4 P5/2 - 4f 4 D3/2 3s 3 S1 - 4p 3 P2-0 4f 2 F - 5g 2 G 2p 1 P1 - 5d 1 D2 3s 2 P3/2 3s 2 P1/2 2p 1 P1 3p 2 F7/2 - - - - 3p 3p 5s 3d
2 2

A, s

-1

Ex.M. Ref R R R R R C R R B85

2.380+8

1.820+8

R80

8.070+7 R,D NS84

6.760+5 2.530+6 7.400+7 1.780+0

R R R C C R R R R R R R R R

R80 S77 R80 M83

3.560+8 9.100+6

NS84 T87 R80 R80 T87

D5/2 1.150+8 D3/2 9.500+7 1S 3.210+6 0 2F 7/2

3s 2 P3/2 - 3p 2 D3/2 3s 6 S5/2 - 3p 6 P7/2 2p 3 P1,2 - 4d 3 D1-3 2.190+7 2p 3 P0 - 4d 3 D1 1.370+7 3d 2 D5/2 3d 2 P3/2 3p4 3 P2 3p4 1 D2 - 4f 2 F7/2 - 4f 2 D5/2 1.100+8 - 3p4 1 S0 8.230-3 - 3p4 1 S0 3.180+0

R R R R C C

T87 T87

NS84 M83 M83

18

Table 2 (Continuation) , ° A 4514.86 4516.77 4518.15 4523.58 4529.93 4534.58 4541.59 4544.85 4552.00 4558.29 4562.60 4568.50 4571.0: 4571.10 4581.12 4589.0 4590.97 4596.17 4602.11 4603.73 4605.00 4606.6 4607.16 4613.67 4613.87 4616.01 4618.40 4619.98 4620.10 4621.28 4621.39: 4621.57 4624.93 4627.35 4630.54 4631.89 4634.14 4638.85 4640.64 4641.81 4641.85 4643.09 Ion NI I I CI I I NI I I NI I I X NI I I HeI I NI I I S iI I I X MgI] OIV [CaVI I] MgI] X [SI] OI I OI I OI I NV X [FeI I I] NI I OI I NI I X CI I NV CI I OI I NI I [CI] [ArV] [CI] NI I OIV NI I I OI I NI I I OI I NI I I NI I Transition 3s 4 P5/2 4p 3 P2 3s 4 P1/2 3s 4 P3/2 - - - - 3p 5s 3p 3p
4 3 4 4

A, s

-1

Ex.M. Ref

D7/2 R,D S1 1.660+8 R NS84 D1/2 R,D D3/2 R,D

R,D 3s 4 P5/2 - 3p 4 D5/2 4-9 1.210+6 R R80 4p 2 P3/2 - 5s 2 S1/2 8.290+7 R NS84 R 4s 3 S1 - 4p 3 P2 3s2 1 S0 5f 2 F 3p2 3 P0 3s2 1 S0 3p4 3 P1 3s 2 D5/2 3s 2 D3/2 3d 2 D3/2 3s 2 S1/2 a5 D4 3s 3 P0 3d 2 D5/2 3s 3 P1 3d 2 F5/2 3s 2 S1/2 3d` 2 F 3d 2 D5/2 3s 3 P1 2p2 3 P1 3p2 1 D2 2p2 3 P2 3s 3 P2 5g 2 G 3p 2 P1/2 3s 4 P1/2 3p 2 P3/2 3s 4 P3/2 3p 2 P3/2 3s 3 P2 - - - - - - - - - - - - - - - - - - - - - - - - - - - - - 3p 3 P2 4.130-4 6d 2 D 3p2 1 D2 2.100-4 3p 3 P1 1.800+2 3p4 1 S0 3p 2 F7/2 3p 2 F5/2 4f 2 F5/2 3p 2 P3/2 a3 3p 4f 3p F3 3P 1 4F 7/2 3P 1 2.550+8 4.080+7 0.350+0 8.510+7 7.940+7 4.120+7 C R C C C R R R C M83 G68 M83 M83 NS84 NS84 R80

4f 2 G7/2 3p 2 P1/2 4f ` 2 G 4f 4 F5/2 3p 3 P0 2p2 1 S0 3p2 1 S0 2p2 1 S0 3p 3 P2 6h 2 H 3d 2 D3/2 3p 4 D3/2 3d 2 D5/2 3p 4 D5/2 3d 2 D3/2 3p 3 P1

R R R R C C C

NS84 R80

9.000+7 2.710-3 3.290+0 2.000-5

R80 M83 KL80 M83

R 5.660+7 R,D 6.790+7 R,D 1.130+7 R,D

B85 B85 B85

19

Table 2 (Continuation) , ° A 4647.42 4649.14 4650.25 4650.84 4651.47 4654.40 4658.0 4658.30 4661.63 4663.64 4665.61 4665.86 4669.20 4673.75 4676.23 4678.14 4680.32 4685.71 4699.21 4699.21 4701.62 4711.15 4713.14 4713.38 4714.3 4715.7 4724.3 4725.7 4733.93 4736.6 4740.18 4754.90 4756.56 4769.60 4789.45 4803.29 4814.55 4839.96 4844.92 4851.5 4859.32 4861.29 Ion CI I I OI I CI I I OI I CI I I [SrVI I] [FeI I I] CIV OI I CI I I CIV CI I I [PI I] OI I OI I NI I X HeI I OI I OI I [FeI I I] [ArIV] HeI HeI [NeIV] [NeIV] [NeIV] [NeIV] [FeI I I] [PI I] [ArIV] [FeI I I] [BaVI I] [FeI I I] [FI I] NI I [FeI I] X OI I [FeV] HeI I H Transition 3s 3 S1 3s 4 P5/2 3s 3 S1 3s 4 P1/2 3s 3 S1 a5 D 5g 2 G 3s 4 P3/2 3s 3 P1 5f 2 F 3s 3 P2 3p2 3 P1 3s 4 P3/2 3s 4 P5/2 3d 1 P1 - - - - - - - - - - - - - - - 3p 3p 3p 3p 3p P2 D7/2 3P 1 4D 1/2 3P 0
4 3

A, s

-1

Ex.M. Ref

7.180+7 R,D NS84 8.570+7 R NS84 7.180+7 R,D NS84 7.180+7 R,D NS84

a3 F C 6h 2 H R 3p 4 D3/2 5.200+7 R 3p 3 P0 R,D 6d 2 D R 3p 3 P2 R,D 3p2 1 S0 C 3p 4 D1/2 R 3p 4 D5/2 R 4f 1 D2 R 1.430+8 R

R80

3-4 3p 2 D3/2 - 3d 2 F5/2 3p 2 D5/2 - 3d 2 F7/2 a5 D3 - a3 F3 3 4S 32 3p 3/2 - 3p D5/2 2p 3 P1,2 - 4s 3 S1 2p 3 P0 - 4s 3 S1 3 2D 32 2p 5/2 - 2p P3/2 2p3 2 D5/2 - 2p3 2 P1/2 2p3 2 D3/2 - 2p3 2 P3/2 2p3 2 D3/2 - 2p3 2 P1/2 a5 D2 - a3 F2 3p2 3 P2 - 3p2 1 S0 3p3 4 S3/2 - 3p3 2 D3/2 5 D -3 F 3 4 2p4 3 P2 - 2p4 1 D2 3p 3 D3 - 3d 3 D3 3p 4 S
3/2

R80

1.770-3 8.270+6 1.030+6 0.400+0 0.115+0 0.437+0 0.393+0

C C R R C,A C,A C,A C,A C C 0.223-1 C C C

u u u u

M83 T87 T87 M83 M83 M83 M83

M83

0.038+0

G68

- 3d 2 F5/2 2.280+6 8.420+6 R R R80 S77

4-8 2p 2 P - 4d 2 D

20

Table 2 (Continuation) , ° A 4868.99 4881.11 4893.42 4895.00 4904.56 4904.80 4906.60 4921.93 4930.27 4931.78 4938.6 4944.6 4948.56 4958.90 4959.52 4969.36 4971.60 4972.47 4987.30 4988.8 4994.42 4996.36 5007.57 5011.30 5015.67 5017.48 5032.07 5032.40 5035.74 5041.0 5041.03 5047.74 5055.98 5056.02 5114.07 5121.82 5131.41 5145.75 5151.0 5158.81 5158.9 5176.04 5191.80 5197.90 5200.26 5261.61 5269.2 5270.3 Ion [FI I] [FeI I I] [FeVI I] NI I [FI I] NI I I OI I HeI OV [OI I I] [CaVI I] [FeVI I] X [FeI I I] [OI I I] X X [FeVI] [FeI I I] [FeVI I] X X [OI I I] [FeI I I] HeI X CI I [FeIV] X [FeIV] S iI I HeI S iI I S iI I OV CI I X [FeVI] [FeI I I] [FeI I] [FeVI I] [FeVI] [ArI I I] [NI] [NI] [FeI I] [KVI] [FeI I I] 2p Transition
43

A, s D2

-1

Ex.M. Ref C C G68

P1 - 2p

41

0.012+0

F2 -3 P1 2p D2 - 3p 1 P1 2p4 3 P0 - 2p4 1 D2 4d 2 D5/2 - 5p 2 P3/2 3p 4 S3/2 - 3d 4 P3/2 2p 1 P1 - 4d 1 D2 6h 3,1 H - 7i 3,1 I 2p2 3 P0 - 2p2 1 D2 3p2 3 P1 - 3p2 1 D2 3 F -3 P 3 2
31

3

4.100-6

1.990+7 2.740-6 1.200+0

C R R R R C C C

G68

T87 M83 G68

2p

23

P1 - 2p

21

D2

6.740-3 C,Au M83 C C 0.196-1 C,Au M83 1.310+7 R R,D C R R R R C C C C C C C C C T87

4

F5/2 -2 G7/2

a3 F2 - a3 P0 2p
23

P2 - 2p

21

D2

2s 1 S0 - 3p 1 P1 2p
32

P3/2 - 3p 2 D5/2 - - - - - - - 3d5 4 F 4d 2 D3/2 4s 1 S0 4d 2 D5/2 4d 2 D3/2 3p 1 P1 3p 2 P3/2

3d5 4 G 4p 2 P1/2 2p 1 P1 4p 2 P3/2 4p 2 P3/2 3s 1 S0 4p 2 P3/2
4

9.800+7 6.670+6 1.200+8 1.700+7

R80 T87 R80 R80

F7/2 -2 G7/2 a5 D4 - a3 P2
3

F3 -3 P1 F9/2 -2 G9/2 3p4 1 D2 - 3p4 1 S0 2.590+0 2p3 4 S3/2 - 2p3 2 D3/2 2.020-5 2p3 4 S3/2 - 2p3 2 D5/2 7.270-6
4

M83 M83 M83 G68

3p

23

P0 - 3p2 1 D2 a5 D3 - a3 P2

1.100-4

21

Table 2 (Continuation) , ° A 5273.38 5275.08 5277.8 5299.00 5309.2 5323.3 5334.00 5335.18 5342.56 5345.9 5364.26 5381.20 5411.52 5424.22 5426.64 5434.7 5484.84 5495.66 5512.71 5517.72 5537.89 5551.84 5554.94 5577.34 5592.37 5603.2 5614.7 5631.07 5666.63 5676.02 5676.95 5679.56 5695.26 5695.92 5696.4 5709.2 5710.76 5721.1 5721.2 5733.0 5733.0 5739.76 5754.59 5758.7 5776.4 Ion [FeI I] OI [FeVI I] OI [CaV] [ClIV] [FeI I] [FeVI] X [KrIV] [RbV] [RbVI] HeI I [FeVI] [FeVI] [SrVI] [FeVI] X OI [ClI I I] [ClI I I] X OI [OI] OI I I [KVI] [CaVI I] [FeVI] NI I NI I [FeVI] NI I X CI I I [FeI] [XeIV] NI I [FeVI I] [FI I I] [FI I I] [FI I I] S iI I I [NI I] [RbIV] [MnVI] Transition A, s
-1

Ex.M. Ref

3p 3 P2 - 7d 3 D3,2,1 3 F -3 P 4 2 3p 3 P2 - 8s 3 S1 3p4 3 D2 - 3p4 1 D2 1.900+0 3p2 1 D2 - 3p2 1 S0 2.800+0
4

C C C C M83 KL80

F3/2 -4 P1/2

4 4 4

4-7 F5/2 -4 P3/2 F7/2 -4 P5/2 F5/2 -4 P1/2

4.860+6

R C C C C C

R80

3p 3 P2 - 6d 3 D3,2,1 3p3 4 S3/2 - 3p3 2 D5/2 7.040-4 3p3 4 S3/2 - 3p3 2 D3/2 4.830-3 3p 3 P1 2p4 1 D2 3s 1 P1 3p2 3 P1 3p2 3 P2 4F 7/2 3s 3 P1 3s 3 P0 4F 9/2 3s 3 P2 - 7s 3 S1 - 2p4 1 S0 - 3p 1 P1 - 3p2 1 D2 - 3p2 1 D2 -4 P3/2 - 3p 3 D2 - 3p 3 D1 -4 P5/2 - 3p 3 D3 1.220+ 4.120+ 0.530+ 2.500+

M83 M83 M83 E84 G68 G68 R80

0C 7 C,Ch 0C 0C C 4.230+7 R C R R C C C C C C C

5.600+7 4.980+7

R80 Kh81

3p 1 P1 - 3d 1 D2 4s2 5 D4 - 4s 5 P3 3s 3 P2 3F 2 3 2D 2p 5/2 2p3 2 D3/2 2p3 2 D3/2 4s 1 S0 2p2 1 D2 - 3p 3 D2 -1 D2 - 2p3 2 P1/2 - 2p3 2 P1/2 - 2p3 2 P3/2 - 4p 1 P1 - 2p2 1 S0

0.088+0 0.160+0 0.114+0 1.120+0

G G68 G68 M83

3d2 3 F3 - 3d2 3 P1

22

Table 2 (Continuation) , ° A 5784.94 5789.72 5794.88 5800.48 5801.33 5806.56 5811.98 5813.19 5820.43 5828.36 5837.06 5846.6 5846.65 5857.26 5860.94 5863.0 5867.60 5867.82 5869.02 5875.62 5875.97 5882.12 5886.34 5889.77 5891.0 5894.0 5896.78 5913.24 5920.2 5931.79 5931.83 5936.88 5941.67 5952.93 5957.61 5958.58 5958.58 5977.02 5978.97 6004.72 6036.78 6045.85 6046.40 6074.19 6086.9 6086.9 6101.8 6103.72 6108.4 6118.26 6130.56 Ion HeI I HeI I HeI I HeI I CIV HeI I CIV HeI I HeI I HeI I HeI I [XeI I I] HeI I HeI I X [MnV] [KrIV] S iI I HeI I HeI HeI HeI I X CI I [MnV] [MnVI] HeI I HeI I [BaV] NI I HeI I X NI I HeI I S iI I OI OI HeI I S iI I HeI I HeI I X OI HeI I [CaV] [FeVI I] [KIV] X [KrIV] HeI I [BrI I I] Transition 5-40 5-39 5-38 5-37 3s 2 S1/2 - 3p 2 P3/2 5-36 3s 2 S1/2 - 3p 2 P1/2 5-35 5-34 5-33 5-32 5-31 5-30 3d3 4 F7/2 - 3d3 2 G7/2 4s 4 P5/2 - 4p 4 P5/2 5-29 2p 3 P1,2 - 3d 3 D1-3 2p 3 P0 - 3d 3 D1 5-28 2.350+ 6.280+ 3.930+ 2.800+ 3 7 7 3 A, s
-1

Ex.M.

Ref R R R R R R R R R R R 80 80 80 80 80 80 80 80 80 80 80

4.630+2 R 5.260+2 R 6.000+2 R 6.860+2 R 3.190+7 NF,R,Ch 7.870+2 R 3.160+7 NF,R,Ch 9.080+2 R 1.050+3 R 1.220+3 R 1.430+3 R 1.670+3 1.980+3 R R C R R R R R R C C R R R R

R80 R80

R80 T87 T87 R80

3d 2 D5/2 - 4p 2 P3/2 3d3 4 F9/2 - 3d3 2 G9/2 3d2 3 F - 3d2 3 P 5-27 3.370+3 5-26 4.080+3 3p 3 P1 - 3d 3 D2 5-25 3p 3 P2 - 3d 3 D3 5-24 4p 2 P1/2 - 5s 2 S1/2 3p 3 P0 - 5d 3 D1 3p 3 P2 - 5d 3 D3,2.1 5-23 4p 2 P3/2 - 5s 2 S1/2 5-22 5-21 3p 3 P2 - 6s 3 S1 5-20 3p4 3 P1 - 3p4 1 D2 3 F -1 D 3 2 4 3 P - 3p4 1 D 3p 2 2 5-19 4.980+3 6.130+3

R80 R80 R80 R80

7.610+3 9.550+3 1.210+4 1.550+4 0.426+0 0.814+0 2.020+4

R R R R C C C R

R80 R80 R80 R80 M83 M83 R80

23

Table 2 (Continuation) , ° A 6133.42 6151.29 6152.9 6166.2 6170.69 6218.6 6221.0 6223.0: 6228.4 6233.82 6256.56 6300.30 6310.85 6312.10 6317.0: 6333.10 6347.10 6349.0: 6363.77 6371.36 6391.74 6393.62 6406.38 6428.2 6434.72 6447.0: 6461.95 6482.07 6518.3 6527.10 6527.23 6544.61 6548.05 6560.10 6562.85 6578.00 6581.09 6582.80 6583.45 6598.76 6601.30 6610.60 6617.50 6627.40 6630.60 6639.22 6641.10 Ion [ArV] X [ClI I] [MnV] HeI I [MnV] [MnV] [KV] [KVI] HeI I [KrV] [OI] HeI I [SI I I] [KV] [SrVI I] S iI I [KV] [OI] S iI I [OI] [MnV] HeI I [CaV] [ArV] [KV] X X [MnVI] HeI I [NI I] X [NI I] HeI I H CI I X CI I [NI I] [FeVI I] OV X X OI I [CsV] X OI I 3p Transition
23

A, s D2

-1

Ex.M. Ref C C C R C C C C R KL80 M83 R80

P0 - 3p

21

3.500-5 2.060+0 2.670+4

3p4 1 D2 - 3p4 1 S0 3d3 4 F7/2 - 3d3 4 P5/2 5-18 3d3 4 F5/2 - 3d3 4 P3/2 3d3 4 F5/2 - 3d3 4 P1/2 3p3 2 D3/2 - 3p3 2 P3/2 3p2 3 P2 - 3p2 1 D2 5-17 P2 - 2p4 1 D2 5-16 3p2 1 D2 - 3p2 1 S0 3p3 2 D5/2 - 3p3 2 P3/2 2p 4s 2 S1/2 - 4p 2 P3/2 3p3 2 D3/2 - 3p3 2 P1/2 2p4 3 P1 - 2p4 1 D2 4s 2 S1/2 - 4p 2 P1/2 2p4 3 P0 - 2p4 1 D2 3d3 4 F9/2 - 3d3 4 P5/2 5-15 3p4 3 P0 - 3p4 1 D2 3p2 3 P1 - 3p2 1 D2 3p3 2 D5/2 - 3p3 2 P1/2 3d2 3 F - 3d2 1 D 5-14 2p2 3 P0 - 2p2 1 D2 P1 - 2p2 1 D2 4-6 2p 2 P - 3d 2 D 3s 2 S1/2 - 3p 2 P3/2 2p 3s 2 S1/2 - 3p 2 P1/2 2p2 3 P2 - 2p2 1 D2 3d2 (3 F4 -1 D2 ) 3p 3 D3 - 3d 3 F3 3d 2 P3/2 - 4p 2 P3/2 3s 2 P1/2 - 3p 2 S
1/2 23 43

1.860+0 1.100+0 3.590+4

M83 G68 R80 M83 R80 KL80 M83

6.340-3 C 4.920+4 R 2.220+0 C,Ch 1.210+0 C

7.000+7 R,D R80 1.250+0 C M83 2.110-3 C M83 6.900+7 R,D R80 7.230-7 C M83 C 6.880+4 R R80 8.420-5 C M83 0.204+0 C KL80 0.141+0 C M83 C R C C R R

9.880+4 5.350-7 1.010-3 1.230+7 4.410+7

R80 M83 M83 R80 S77

2.990-3

C C

M83

24

Table 2 (Continuation) , ° A 6655.10 6666.70 6666.80 6668.50 6672.00 6676.02 6678.15 6683.20 6708.70 6709.10 6709.70 6716.47 6721.40 6727.40 6730.85 6731.00 6733.58 6733.58 6734.00 6734.40 6738.40 6739.80 6742.20 6744.10 6744.40 6746.90 6747.00 6747.60 6755.80 6756.00 6761.40 6762.20 6763.50 6768.90 6769.50 6778.70 6779.90 6780.60 6783.90 6785.70 6787.20 6791.50 6792.50 6795.8 6798.00 6798.50 Ion X OI I [NiI I] X X X HeI HeI I [I I I I] [MnI I] [CrV] [SI I] OI I CI I I [SI I] CI I I CI I NI [CrIV] [FeIV] [SrI I] [FeIV] CI I I HeI CI I I CIV NV [CrIV] HeI [FeIV] [FeIV] CI I I [MnI I] [XeIV] HeI CIV CI I CI I CI I HeI CI I CI I [FeIV] [KIV] CI I [KrIV] Transition 3d 2 P3/2 - 4p 2 P1/2 A, s
-1

Ex.M. Ref

2p 1 P1 - 3d 1 D2 5-13

6.370+7 1.460+5

R R

T87 R80

3p3 4 S3/2 3s 2 P3/2 3s 3 P0 3p3 4 S3/2 3s 3 P1 3p 4 D3/2 3p 4 P1/2
4 4

- - - - - - -

3p3 2 D5/2 2.600-4 3p 2 S1/2 3p 3 D1 3p3 2 D3/2 8.820-4 3p 3 D2 3d 4 D1/2 4d 4 P1/2

C

M83

C

M83

G -2 I

G -2 I 3s 3 P1 - 3p 3 D1 3 1 S - 21 3 P 3s 3 P2 - 3p 3 D3 3 1S 4P 4P 3P 3s 2 - 20 3 P -2 D -2 D - 3p 3 D2

3 1 S - 19 3 P 3s 4 P3/2 3s 4 P1/2 3s 4 P5/2 3 1S 3s 4 P1/2 3s 4 P3/2 4P 3p4 3 P1 3s 4 P3/2 - 3p 4 D5/2 - 3p 4 D3/2 - 3p 4 D7/2 - 18 3 P - 3p 4 D1/2 - 3p 4 D3/2 -2 D - 3p4 1 D2 0.198+0 - 3p 4 D1/2

C

M83

25

Table 2 (Continuation) , ° A 6800.70 6804.80 6812.30 6818.50 6819.20 6820.60 6826.90 6827.90 6828.10 6829.80 6832.60 6846.80 6850.40 6852.10 6855.90 6857.30 6868.20 6869.40 6871.70 6873.80 6874.60 6875.80 6880.90 6890.50 6890.90 6895.10 6896.20 6896.50 6901.10 6906.40 6907.90 6910.60 6914.80 6915.48 6933.90 6949.00 6957.30 6958.70 6961.40 6976.00 6978.50 6982.40 6989.40 6989.40 6997.10 6998.50 7002.10 Ion CI I HeI CI I S iI I [FeV] X [KrI I I] HeI CI S iI I X OI I [MnI I] [MnVI] HeI CI I I [SrI I] X CI I I [FeI I] CIV CIV X HeI HeI I OI I [FeI I] [CrIV] X OI I OI I OI I [CrIV] X HeI [CuIV] NI I I X [CoI I I] X [MnI I] X HeI X [FeIV] [XeV] OI Transition 3s 4 P5/2 - 3p 4 D5/2 3 1 S - 17 3 P 4P 3s 5/2 - 3p 4 D3/2 5p 2 P1/2 - 6d 2 D3/2 3 P -1 S 3 1 S - 16 3 P 3p 1 P1 - 4d 1 D2 5p 2 P3/2 - 6d 2 D5/2 3d 4 F7/2 - 4p 4 D7/2 3 1 S - 15 3 P 3p 3 D1 - 3d 3 D1 3p 3 D3 - 3d 3 D3 7p 2 P1/2 - 9d 2 D3/2 7p 2 P3/2 - 9d 2 D5/2 3 1 S - 14 3 P 5g 2 G - 12h 2 H 2.240+5 3d 4 F9/2 - 4p 4 D7/2 R R80 A, s
-1

Ex.M. Ref

3d 4 F7/2 - 4p 4 D5/2 3d 4 F3/2 - 4p 4 D1/2 3d 4 F5/2 - 4p 4 D3/2 3 1 S - 13 3 P 3 F -1 D " 2 D - 4d 2 F 3p
4

F -4 P

3 1 S - 12 3 P
4

P -2 D
1

3p 3 P1 - 4d 3 D2,

26

Table 2 (Continuation) , ° A 7005.58 7011.00 7021.40 7029.00 7032.30 7036.30 7037.20 7037.80 7047.00 7051.70 7053.60 7062.20 7062.40 7065.19 7065.71 7074.90 7076.50 7087.80 7099.8 7103.20 7110.4 7110.90 7111.50 7112.50 7113.00 7113.20 7113.40 7115.20 7115.20 7115.60 7117.00 7119.70 7119.90 7125.70 7125.80 7135.80 7152.60 7155.20 7160.50 7160.63 7170.50 7172.00 7177.52 Ion [ArV] X CIV X OIV [FeIV] CI I I NV X [CrIV] OIV HeI CIV HeI HeI CI CI CI [PbI I] X [KIV] [CrIV] CI CI I CI I CI S iI I CI CI CI I CI CI CI I CI I S iI I [ArI I I] [CoI I I] [FeI I] HeI X [ArIV] [FeI I] HeI I 3p Transition
23

A, s D2

-1

Ex.M. Ref C KL80

P2 - 3p

21

0.476+0

4s 2 S

- 4p 2 P3/2 -2 D 1 P - 4d 1 D 3s 1 2
1/2 4P

4s 2 S1/2 - 4p 2 P1/2 3 1 S - 11 3 P 2p 2p 3p 3p 3p 3p
3

P1,2 - 3s 3 S1 P0 - 3s 3 S1 3 D - 4d 3 D 1 1 3 D - 4d 3 D 2 2 3 D - 4d 3 D 3 3 2 P -2 P
3

2.430+7 3.030+6

R R

T87 T87

43

P0 - 3p

41

D2

4.540-5

C

M83

3p 3 D1 3p 4 D1/2 3p 4 D3/2 3p 3 D3 5p 2 P1/2 3p 3 D1 3p 3 D2 3p 4 D5/2 3p 3 D3 3p 3 D2 3p 4 D7/2 3p 4 D5/2 5p 2 P3/2 3p4 3 P2 4F

- 4d 3 F2 - 3d 4 F3/2 - 3d 4 F5/2 - 4d 3 F4 - 7s 2 S1/2 - 5s 3 P0 - 4d 3 F3 - 3d 4 F7/2 - 5s 3 P2 - 5s 3 P1 - 3d 4 F9/2 - 3d 4 F5/2 - 7s 2 S1/2 - 3p4 1 D2 0.314+0 -4 P

C

M83

3 1 S - 10 3 P 3p
32

D3/2 - 3p 5-11

32

P3/2 0.789+0 3.590+5

C R

M83 R80

27

Table 2 (Continuation) , ° A Ion Transition A, s
-1

Ex.M. Ref

7184.00 [FeIV] 4 D -4 F 7191.60 [FeIV] 4 D -4 F 7206.60 CIV 7210.50 CI I I 5p 3 P2 - 6d 3 D3 7212.30 CI I I 5p 3 P1 - 6d 3 D2 7213.50 CIV 8s - 11p 2 P -2 P 7219.70 [CsI I I] 4 D -4 F 7222.80 [FeIV] 7231.32 CI I 3p 2 P1/2 - 3d 2 D3/2 7236.42 CI I 3p 2 P3/2 - 3d 2 D5/2 7238.14 [ArIV] 3p3 2 D5/2 - 3p3 2 P3/2 7254.40 OI 3p 3 P2 - 5s 3 S1 7255.80 [NiI I] 7261.43 [ClIV] 3p2 3 P0 - 3p2 1 D2 7262.96 [ArIV] 3p3 2 D3/2 - 3p3 2 P1/2 7266.80 X 7281.35 HeI 2p 1 P1 - 3s 1 S0 7291.50 [CaI I] 7297.90 HeI 3 1S - 9 3P 7307.00 OI I I 7307.70 [NiI I] 7318.63 [OI I] 2p3 2 D5/2 - 2p3 2 P1/2 7319.43 [OI I] 2p3 2 D5/2 - 2p3 2 P3/2 7329.90 [OI I] 2p3 2 D3/2 - 2p3 2 P1/2 7330.70 [OI I] 2p3 2 D3/2 - 2p3 2 P3/2 7332.15 [ArIV] 3p3 2 D5/2 - 3p3 2 P1/2 7345.20 X 7354.20 X 7363.40 CIV 7365.20 OI I I 7368.00 [BrIV] 7370.00 CI I 3p 2 D - 3d 2 P 7377.80 [NiI I] 3 P -3 P 7378.70 [ZrVI I] 2 1 7380.30 CIV 6p - 7d 7382.40 CIV 6p - 7d 7385.10 [BrI I I] 7388.20 [FeI I] 7391.30 [CrIV] 7411.60 [NiI I] 7414.00 OI I I 7418.00 X 7423.60 NI 3s 4 P1/2 - 3p 4 S3/2 7440.20 NV 7442.30 NI 3s 4 P3/2 - 3p 4 S3/2 7452.50 [FeI I]

3.600+7 4.400+7 0.598+0

R R C

R80 R80 M

1.560-5 0.603+0 1.810+7

C C R

KL80 M83 T87

0.615-1 0.117+0 0.102+0 0.614-1 0.119+0

C C C C C

M8 M83 M83 M83 M83

28

Table 2 (Continuation) , ° A Ion Transition A, s
-1

Ex.M. Ref

7455.30 OI I I 7461.80 CI I 5s 2 S1/2 - 7p 2 P3/2,1/2 7462.30 S iI I I 4d 3 D1 - 5p 3 P1 7468.30 NI 3s 4 P5/2 - 3p 4 S3/2 7473.50 X 7486.50 CI I I 5d 3 D - 6f 3 F 7499.70 HeI 3 1S - 8 3P 2P 7505.30 CI I 5p 3/2 - 3p 2 D5/2 7507.60 X 7510.50 X 7516.00 OI I I 7519.90 CI I 2p3 2 P1/2 - 3p 2 P1/2 7530.83 [ClIV] 3p2 3 P1 - 3p2 1 D2 0.723-1 7535.40 [XeIV] 7574.10 X 7578.20 CI I I 3d 3 F2 - 5g 3 G3 7580.60 [CrV] 7581.50 NIV 6g 1 G - 7h 1 H 7582.40 NIV 6g 3 G - 7h 3 H 7584.70 [MgI] 7585.40 NV 7592.00 OV 7h 3,1 H - 8i 3,1 I 7592.30 CI I I 3d 3 F3 - 5g 3 G4 7592.75 HeI I 5-10 6.080+5 7610.90 OV 7i 3,1 I - 8k 3,1 K 7612.60 CI I I 3d 3 F4 - 5g 3 G5 7618.50 NV 7ghi - 8hik 7637.50 [FeI I] 7677.40 OIV 6g 2 G - 7h 2 H 7686.80 NI I I 5d 2 D - 6f 2 F 7686.90 [FeI I] 7703.00 NIV 6h 3 H - 7i 3 I 7706.70 CIV 6d 2 D - 7f 2 F 7707.40 CI I I 3p 1 P1 - 3d 1 D2 7713.30 OIV 6h 2 H - 7i 2 I 7718.80 SiIV 6g 2 G - 7h 2 H 7719.50 X 7722.50 X 7723.80 SiIV 6h 2 H - 7i 2 I 7724.7 [SI] 3p4 1 D2 - 3p4 1 S0 1.530+0 7726.20 CIV 6h 2 H - 7i 2 I 7731.50 X 7733.20 [FeI I] 7736.00 CIV(8-11?) 7736.50 OVI(8-9?) 7741.50 [V IV] 7746.50 X

C

KL80

R

R80

C

M83

29

Table 2 (Continuation) , ° A Ion Transition A, s
-1

Ex.M. Ref C M83

7751.43 [ArI I I] 3p4 3 P1 - 3p4 1 D2 0.823-1 7772.00 OI 3s 5 S2 - 3p 5 P3 7774.20 OI 3s 5 S2 - 3p 5 P2 7775.40 OI 3s 5 S2 - 3p 5 P1 7777.61 X 7809.00 X 7811.60 HeI 3 1 S - 13 1 P 7816.00 HeI 3 1S - 7 3P 7820.70 OI I I 7832.50 OI I I 7839.30 OI I I 7848.30 OI I I 7854.90 X 7857.30 [V IV] 7860.80 CIV(9-14?) 7873.70 OI I I 7876.00 [PI I] 3p2 1 D2 - 3p2 1 S0 7877.00 MgI I 4p 2 P1/2 - 4d 2 D3/2 7880.80 HeI 3 1 S - 12 1 P 7884.40 [CrV] 7886.70 X 3 F -1 D 7889.90 [NiI I I] 7892.90 HeI 3 3 P - 37 3 D 7895.70 HeI 3 3 P - 36 3 D 7896.40 MgI I 4p 2 P3/2 - 4d 2 D5/2 7898.70 HeI 3 3 P - 35 3 D 7902.10 HeI 3 3 P - 34 3 D 7905.80 HeI 3 3 P - 33 3 D 7909.80 HeI 3 3 P - 32 3 D 7913.00 X 7914.10 HeI 3 3 P - 31 3 D 7919.00 HeI 3 3 P - 30 3 D 7924.40 HeI 3 3 P - 29 3 D 4 D -2 F 7925.00 [FeIV] 3 P - 28 3 D 7930.30 HeI 3 7933.30 [TeI I I] 7937.00 HeI 3 3 P - 27 3 D 7944.40 HeI 3 3 P - 26 3 D 7947.50 OI 3s 3 D3 - 3p 3 F4 7948.10 CIV 6d 2 D - 7p 2 P 7950.80 OI 3s 3 D2 - 3p 3 F3 7952.20 OI 3s 3 D1 - 3p 3 F2 7952.80 HeI 3 3 P - 25 3 D 3 P -3 P 7961.40 [ZrVI I] 2 0 7962.30 HeI 3 3 P - 24 3 D 7963.50 OI I I 7971.50 HeI 3 1 S - 11 1 P 7973.00 HeI 3 3 P - 23 3 D

C

30

Table 2 (Continuation) , ° A 7985.30 7992.50 7997.80 7998.00 7999.40 8000.10 8015.00 8015.80 8018.60 8019.10 8021.10 8021.30 8023.60 8025.50 8035.00 8036.76 8040.20 8046.27 8049.60 8051.50 8057.30 8060.10 8062.50 8070.20 8076.80 8084.20 8084.20 8094.00 8102.80 8103.50 8116.30 8125.14 8125.30 8127.50 8137.20 8140.10 8142.40 8145.70 8152.30 8155.70 8159.60 8160.20 8168.00 8177.50 8184.90 8188.00 8189.10: Ion HeI X [AsI I] [FeI I] HeI [CrI I] ClI HeI CI NI I I CI I I CI [YV] X HeI [ArI I I] X [ClIV] [TeI I] OI I I HeI OI I I OI I I OI I I OI I I HeI OI I I HeI S iI I I S iI I I HeI X [CrI I] OI I I [FeV] X [BrI I I] OI I I OI I I HeI NIV X OI I I X NI NI CIII Transition 3 3 P - 22 3 D A, s
-1

Ex.M. Ref

3 3 P - 21 3 D 4s 2 D3/2 - 5p 2 P1/2 3 3 P - 20 3 D 3p 3 P0 - 4d 3 D1 5d 1 D2 - 6f 1 F3 3p 3 P2 - 4d 3 D3 2 P -2 P 3p 3p 3 3P 4 3P 0
23

- 19 3 D - 3p4 1 D2
21

2.210-5

C C

M83 KL80

P2 - 3p

D2 0.179+0

3 3 P - 18 3 D 5f G - 6gH 5f G - 6gH 3 3 P - 17 3 D 3 1 S - 10 1 P 5g G3,4 - 6h 3,1 H 5g 3,1 G5 - 6h 3,1 H 3 3 P - 16 3 D
3,1

5f G - 6gH 3 H -1 I 5f D - 6gF 5f D - 6gF 3 3 P - 15 3 D 6p 1 P - 7s 1 S 5f G - 6gH 3s 4 P3/2 - 3p 4 P5/2 3s 4 P1/2 - 3p 4 P3/2 5g 3 H - 6h 3 I

31

Table 2 (Continuation) , ° A 8196.48 8204.04 8200.40 8203.90 8210.60 8210.70 8216.30 8223.10 8226.20: 8227.60 8229.70 8236.78 8238.50 8242.10 8242.40 8243.10 8244.10 8245.70 8247.80 8249.90 8250.80 8252.40 8255.00 8257.80 8260.90 8264.30 8264.40 8267.90 8268.80 8271.90 8276.30 8281.10 8286.40 8286.70 8292.30 8298.80 8306.10 8314.30 8315.10: 8319.90 8323.40 8325.00 8330.20 8333.00 Ion CI I I X NI HeI [CsVI] NI NI NI CIII OI I I [CrI I] HeI I OI I I HI(P44 ) NI [KrV] OI I I HI(P42 ) HI(P41 ) HI(P40 ) OI I I HI(P39 ) HI(P38 ) HI(P37 ) HI(P36 ) HI(P35 ) HeI HI(P34 ) OI I I HI(P33 ) HI(P32 ) HI(P31 ) HI(P30 ) OI I I HI(P29 ) HI(P28 ) HI(P27 ) HI(P26 ) CIII HeI I HI(P25 ) HeI I HeI I CI I I 5g Transition
1,3

A, s

-1

Ex.M. Ref R Kh81

G - 6h

1,3

H 1.380+8

3s 4 P1/2 - 3p 4 P1/2 3 3 P - 14 3 D 3 P -3 P 2 0 3s 4 P3/2 - 3p 4 P3/2 3s 4 P5/2 - 3p 4 P5/2 3s 4 P3/2 - 3p 4 P1/2 5f 3 G - 6g 3 H 5gH - 6hI 5-9 1.100+6 5gG - 6hH 3d 2 D - 44f 2 F 3s 4 P5/2 - 3p 4 P3/2 5gG - 6hH 3d 2 D - 42f 2 F 3d 2 D - 41f 2 F 3d 2 D - 40f 2 F 5gF - 6hG 3d 2 D - 39f 2 F 3d 2 D - 38f 2 F 3d 2 D - 37f 2 F 3d 2 D - 36f 2 F 3d 2 D - 35f 2 F 3 3 P - 13 3 D 3d 2 D - 34f 2 F 5gH - 6hI 3d 2 D - 33f 2 F 3d 2 D - 32f 2 F 3d 2 D - 31f 2 F 3d 2 D - 30f 2 F 5gF - 6hG 3d 2 D - 29f 2 F 3d 2 D - 28f 2 F 3d 2 D - 27f 2 F 3d 2 D - 26f 2 F 5g 3 F - 6h 3 G 6-50 3d 2 D - 25f 2 F 6-49 6-48 3 D - 3d 3 F 4d 3 4 R R80

32

Table 2 (Continuation) , ° A 8333.80 8336.00 8338.25 8341.60 8342.10 8342.20 8342.70 8345.60 8347.6 8347.90 8348.60 8352.70 8355.50 8357.90 8358.70 8359.00 8361.60 8363.00 8369.30 8371.00 8374.50 8376.40 8377.70 8378.80 8379.60 8387.20 8388.90 8392.40 8397.30 8397.40 8398.80 8398.90 8399.70 8405.80 8409.80 8413.30 8421.60 8421.80 8423.70 8424.30 8429.30 8433.94 8434.40 8438.00 8444.31 8444.40 8446.40 8448.40 8451.00 Ion HI(P24 HeI I X CI I I HeI I HeI [FeV] HI(P23 [FeI] CI I I HeI I X HeI I CI I I CI I I HI(P22 HeI HeI I HeI HeI I HI(P21 HeI HeI HeI HeI I X HeI I HI(P20 HeI X HeI HeI I HeI X HeI I HI(P19 HeI I HeI HeI HeI X [ClI I I] HeI I HI(P18 X HeI OI HeI I HeI ) Transition 3d 2 D - 24f 2 F 6-47 4d 3 D2 - 3d 3 F3 6-46 3 3 P - 12 3 D 3 H -1 I 2 D - 23f 2 F 3d 4s2 5 D4 - 4s 3 F4 4d 3 D1 - 3d 3 F2 6-45 6-44 4d 3 D3 - 3d 3 F3 4d 3 D2 - 3d 3 F2 3d 2 D - 22f 2 F 3 1S - 6 3P 6-43 3 3 P - 12 3 S 6-42 3d 2 D - 21f 2 F 3 3 D - 20 3 F 3 3 D - 20 3 P 3 1 D - 20 1 F 6-41 6-40 3d 2 D - 20f 2 F 3 3 D - 19 3 F 3 3 D - 19 3 P 6-39 3 1 D - 19 1 F ) 6-38 3d 2 D - 19f 6-37 3 3 D - 18 3 3 3 D - 18 3 3 1 D - 18 1 3p )
32 2

A, s

-1

Ex.M. Ref

)

C

)

)

)

F

F P F C M83

D3/2 - 3p3 2 P3/2 0.323+0 6-36 3d 2 D - 18f 2 F 3 3 P - 11 3 D 3s 3 S1 - 3p 3 P2 6-35 3 3 D - 17 3 F

33

Table 2 (Continuation) , ° A 8451.55 8453.20 8453.50 8457.30 8459.20 8463.70 8467.30 8469.46 8480.50 8480.60 8481.16 8486.20 8488.60 8488.80 8495.00 8498.00 8500.20 8502.48 8517.90 8519.30 8528.80 8528.90 8531.40 8532.10 8533.40 8536.50 8541.80 8542.10 8545.38 8547.86 8548.17 8564.40 8566.90 8570.10 8578.50 8578.70 8581.70 8582.50 8582.54 8584.30 8585.80 8594.80 8598.39 8605.00 8608.20 8614.90 8615.90 8616.90 Ion SI HeI HeI [VI I I] X HeI I HI(P17 ) X HeI I HeI [ClI I I] HeI HeI HeI X CaI I [ClI I I] HI(P16 ) HeI HeI I HeI HeI HeI HeI HeI [I I I I] HeI I CaI I HI(P15 ) X [ClI I I] HeI HeI I HeI [FeV] [Cl I I] HeI HeI [Cl I I I] HeI HeI HeI I HI(P14 ) X HeI HeI [VI I I] [FeI I] Transition 4p 3 P0 - 6s 3 S 3 3 D - 17 3 P 3 1 D - 17 1 F
1

A, s

-1

Ex.M. Ref

6-34 3d 2 D - 17f 2 F 6-33 3 3 P - 11 3 S 3p3 2 D5/2 - 3p3 2 P3/2 0.316+0 3 3 D - 16 3 F 3 1 D - 16 1 F 3 3 D - 16 3 P

C

M83

3d 2 D3/2 - 4p 2 P3/2 8498.90 HeI I 6-32 3p3 2 D3/2 - 3p3 2 P1/2 0.303+0 C M83 3d 2 D - 16f 2 F 4.650+3 R Gr90 3 1S - 8 1P 6-31 3 1 P - 17 1 D 3 3 D - 15 3 F 3 1 D - 15 1 F 3 3 D - 15 3 P 3 1 P - 17 1 S 6-30 3d 2 D5/2 - 4p 2 P3/2 3d 2 D - 15f 2 F 6.450+3 3p D5/2 - 3p3 2 P1/2 0.100+0 3 1 P - 16 1 D 6-29 3 1 P - 16 1 S 3 H -1 G 4 3 P - 3p4 1 D 0.104+0 3p 2 2 3 D - 14 3 F 3 3 3 P - 10 3 D 3 1 D - 14 1 F 3 3 D - 14 3 P 6-28 3d 2 D - 14f 2 F 3 1 P - 15 1 D 3 1 P - 15 1 S
32

R C

Gr90 M83

C

M83

9.160+3

R

Gr90

34

Table 2 (Continuation) , ° A 8626.10 8629.00 8632.60 8633.50 8648.10 8650.70 8652.60 8653.30 8661.40 8662.00 8662.10 8663.65 8665.02 8665.22 8670.40 8680.30 8682.80 8683.40 8686.16 8694.83 8701.30 8703.25 8706.60 8707.00 8711.71 8718.84 8727.13 8729.70 8733.30 8735.90 8739.90 8740.40 8746.80 8750.47 8761.10 8767.30 8776.60 8787.60 8791.30 8793.80 8798.90 8799.90 8800.10 8806.76 8816.50 8829.00 Ion HeI I X HeI X HeI HeI CI I I HeI HeI I HeI CaI I CI I I HI(P13 CI I I HeI NI [VI I I] NI NI X HeI I NI CIV X NI NI [CI] HeI HeI HeI HeI HeI HeI I HI(P12 X X HeI [PI] X CI I HeI I CI I [FeV] MgI HeI OIV Transition 6-27 3 3 P - 10 3 S 3 3 5d 3
3 D - 13 3 F 1 D - 13 1 F 3 D - 6p 3 P 3 2 3 D - 13 3 P

A, s

-1

Ex.M. Ref

6-26 3 1 P - 14 1 D 3d 2 D3/2 - 4p 2 P1/2 5f 3 F3 - 6g 3 G4 ) 3d 2 D - 13f 2 F 1.340+4 5f 3 F4 - 6g 3 G5 3 1 P - 14 1 S 3stP5/2 - 3p 4 D7/2 3stP3/2 - 3p 4 D5/2 3stP1/2 - 3p 4 D3/2 6-25 3stP1/2 - 3p 4 D1/2 3stP3/2 - 3p 4 D3/2 3stP5/2 - 3p 4 D5/2 2p2 1 D2 - 2p2 1 S0 0.528+0 3 1 P - 13 1 D 3 3 D - 12 3 F 3 1 D - 12 1 F 3 3 D - 12 3 P 3 1 P - 13 1 S 6-24 ) 3d 2 D - 12f 2 F 2.010+4 3 3P - 9 3D 3p 2 D5/2 - 3d 2 F7/2 6-23 3p 2 D3/2 - 3d 2 F5/2 3 H -1 G 1 P - 3d 1 D 3p 0 2 3 1 P - 12 1 D 3p 2 P - 5p 2 D

R R R

Gr90

C

M83

R

Gr90

35

Table 2 (Continuation) , ° A 8829.70 8830.40 8831.5 8845.20 8847.90 8849.00 8854.10 8854.20 8857.40 8859.10 8862.78 8873.70 8877.20 8885.40 8891.90 8898.60 8914.60 8920.00 8923.57 8925.70 8929.00 8929.20 8930.60 8933.20 8986.50 8992.60 8996.80 8999.60 9004.80 9009.00 9011.20 9014.91 9021.70 9024.30 9028.92 9033.50 9051.90 9063.29 9068.90 9078.28 9079.90 9085.30 9088.51 9094.83 9103.80 9108.50 9110.90 9111.8 9114.10 Ion [SI I I] HeI [SI I I] HeI HeI HeI HeI [SeI I I] CIV HeI I HI(P11 ) X X X [FeI I] X HeI X MgI NV HeI I NV HeI X X X HeI HeI X HeI HeI I HI(P10 ) X X NI [FeI I] [FeI I] X [S I I I] CI X HeI CI CI X HeI I HeI CI X Transition 3 1P 2 3P 0 3 3D 3 1D 3 3P 3 3D A, s
-1

Ex.M. Ref

3p

- 12 1 S - 3p2 1 D2 5.820-6 - 11 3 F - 11 1 F - 9 3S - 11 3 P

C

M83

6-22 3d 2 D - 11f 2 F

3.140+4

R

Gr90

3 1S - 7 1P 4s 1 S0 - 5p 1 P1 6-21 3 1 P - 11 1 D 3 3 D - 10 3 F 3 1 D - 10 1 F 3 3 D - 10 3 P 6-20 3d 2 D - 10f 2 F 3p 2 S
1/2

5.130+4

R

Gr90

- 3d 2 P1/2

3p2 3 P1 - 3p2 1 D2 0.221-1 C,Ch KL80 3s 3 P1 - 3p 3 P1 3 1 P - 10 1 D 3s 3 P1 - 3p 3 P0 3s 3 P2 - 3p 3 P2 6-19 3 1 P - 10 1 S 3s 3 P2 - 3p 3 P1

36

Table 2 (Continuation) , ° A 9116.10 9123.60 9125.8 9133.30 9165.10 9174.20 9174.40 9182.20 9210.20 9213.10 9214.83 9218.25 9223.00 9225.20 9227.70 9229.02 9229.50 9231.10 9236.80 9244.27 9260.93 9262.77 9266.00 9267.50 9303.00 9318.80 9344.94 9354.00 9358.37 9367.00 9381.00 9381.8 9386.80 9401.30 9404.30 9405.73 9412.0 9426.40 9448.52 9460.40 9463.40 9479.70 9493.00 9499.50 9516.50 9526.00 9529.10 9531.00 9542.00 9545.97 Ion OI I I [Cl I I] [ClI I] OI I I NIV OI I I HeI NIV HeI HeI X MgI I NIV HeI I HeI HI(P9 ) CI I CI I CI I MgI I OI OI OI [FeI I] HeI X HeI I X CI I I HeI I X [ClI I] NI [V IV] X CI NI I I X [BrIV] X HeI X X X HeI HeI HeI [S I I I] HeI I HI(P8 ) Transition 4p 3 D - 4d 3 F 3p4 3 P1 - 3p4 1 D2 0.292-1 4p 3 D - 4d 3 F 4p 3 D - 4d 3 F 3 3P - 8 3S 3 3D - 9 3F 3 1D - 9 1F 4s 2 S
1/2

A, s

-1

Ex.M. Ref

C

M83

- 4p 2 P3/2

6-18 3 3D - 9 3P 3d 2 D - 9f 2 F 4s 2 S1/2 3p 5 P1 3p 5 P2 3p 5 P3 - - - - 4p 3d 3d 3d
2 5 5 5

8.850+4

R

Gr90

P1/2 D2 D3 D4

3 1P - 9 1D 5-8 4s 1 S0 - 4p 1 P1 6-17 3p4 3 P0 - 3p4 1 D2 9.820-6 3s 2 P1/2 - 3p 2 D3/2 3s 1 P1 - 3p 1 D2 4s 2 S1/2 - 4p 2 P3/2 3 1S - 5 3P 3 3P - 7 3D 3 3D - 8 3F 3 1D - 8 1F 2 3 P - 3p2 1 D 3p 2 2 0.576-1 6-16 3d 2 D - 8f 2 F 1.640+5 C M83 2.210+6 R R80

R

C R

KL80 Gr90

37

Table 2 (Continuation) , ° A 9552.80 9572.30 9625.60 9701.10 9702.50 9705.30 9705.39 9706.44 9715.11 9717.73 9719.50 9762.10 9808.32 9824.13 9850.26 9902.70 9903.50 9942.50 9980.20 9982.40 9988.50 9990.30 10008.9 10010.9 10017.7 10023.0 10023.3 10027.73 10031.16 10035.4 10045.2 10049.38 10065.1 10070.1 10071.9 10092.16 10108.1 10108.89 10110.4 10112.48 10114.64 10123.61 10138.3 10167.9 10172.2 10203.4 10206.5 Ion HeI X HeI CI I I HeI [TiI I I] CI I I CI I I CI I I CI I I X HeI I [CI] [CI] [CI] [KrI I I] CI I X X OI I OI I OI I OI I OI I X HeI NI I HeI HeI NI I HeI I HI-P NI I NI I HeI MgI I NI I NI OI I NI NI HeI I HeI CI I I X X [XeI I I] Transition 3 3D - 8 3P 3 1P - 8 1D 3p 3 P0 - 3d 3 D1 3 3P - 7 3S 3p 3p 3p 3p 2p 2p 2p 4p
3 3 3 3

A, s

-1

Ex.M. Ref

P1 P1 P2 P2

- - - -

3d 3d 3d 3d

3 3 3 3

D2 D1 D3 D2 D2 7.770-8 D2 8.210-5 D2 2.440-4 D2

R R C C C M83 M83 M83

23 23 23 43

6-15 P0 - 2p P1 - 2p P2 - 2p P1 - 4p - - - - -

21 21 21 41

4fG 4fG 4fD 4fG 4fG

5g 5g 5g 5g 5g P F F
2

3 1D - 7 1 4f - 5g 3 3D - 7 3 3 1D - 7 1 4f - 5g 6-14 3d 2 D - 7f 4f - 5g 4f - 5g 3 3D - 7 3 4f 2 F - 5g

F

3.360+5

R

S77

P 2G

3p 4 D3/2 - 3d 4 F5/2 4fF - 5g 3p 4 D5/2 - 3d 4 F7/2 3p 4 D7/2 - 3d 4 F9/2 4-5 4.320+7 3 1P - 7 1D 5f 1 - 6g1 5p
43

R

R80

P2 - 5p

43

P1

38

Table 2 (Continuation) , ° A 10232.9 10276.9 10287.1 10311.1 10320.6 10338.8 10363.7 10364.8 10371.27 10372.6 10397.74 10398.16 10407.17 10407.59 10419.7 10603.43 10627.65 10689.72 10691.25 10819.8 10829.09 10830.25 10830.34 10938.10 10994.0 11305.8 11540.1 11626.42 12818.08 18636.78 18751.02 20581.30 4.49µm 5.34 5.61 6.62 6.98 7.90 8.99 10.52 11.76 12.8 Ion HeI [SrIV] [SI I] HeI [SI I] [SI I] X CI I S iI [SI I] [NI] [NI] [NI] [NI] HeI I S iI S iI S iI CI [SI] HeI HeI HeI HI-P [SiI] [SI] [SI] HeI I HI-P HeI I HI-P HeI [MgIV] [FeI I] [MgV] [NiI I] [ArI I] [ArV] [ArI I I] [SIV] [ClIV] [NeI I] Transition 3 1P 2P D3/2 3 3P D5/2 D3/2 A, s
-1

Ex.M. Ref

3p 3p 3p

32 32 32

- 7 1S -2 P - 3p3 2 P3/2 0.133+0 - 6 3D - 3p3 2 P3/2 0.179+0 - 3p3 2 P1/2 0.163+0

C C C R C C C C C R R R R C R R R R C C C R R R R R C C C C C C C C C C

M83 M M83

4s 3 P1 - 4p 3 S1 3p D5/2 - 3p3 2 P1/2 2p3 2 D5/2 - 2p3 2 P3/2 2p3 2 D5/2 - 2p3 2 P1/2 2p3 2 D3/2 - 2p3 2 P3/2 2p3 2 D3/2 - 2p3 2 P1/2 6-13 4s 3 P1 - 4p 3 P2 4p 1 P1 - 4d3 3 P2 4p 3 D1 - 4d 3 F2 3s 3 P2 - 3p 3 D3 3p4 3 P2 - 3p4 1 D2 2s 3 S1 - 2p 3 P0 2s 3 S1 - 2p 3 P1 2s 3 S1 - 2p 3 P2 3d 2 D - 6f 2 F 3p2 1 D2 - 3p2 1 S0 3p4 3 P1 - 3p4 1 D2 3p4 3 P0 - 3p4 1 D2 5-7 3d 2 D - 5f 2 F 5-6 3d 2 D - 4f 2 F 2s 1 S0 - 2p 1 P1 5 2P 52 2p 3/2 - 2p P1/2 6D 4 9/2 - F9/2 4 3 P - 2p4 3 P 2p 2 1 2P 2 1/2 - P3/2 3p5 2 P1/2 - 3p5 2 P3/2 3p2 3 P2 - 3p2 3 P1 3p4 3 P1 - 3p4 3 P2 3p 2 P3/2 - 3p 2 P1/2 3p2 3 P1 - 3p2 3 P2 2p5 2 P1/2 - 2p5 2 P3/2
32

0.779-1 0.614-1 0.345-1 0.276-1 0.529-1

M M M M M

83 83 83 83 83

0.278-1 1.020+7 1.020+7 1.020+7 7.780+5 1.140+0 8.160-3 3.840-6 5.180+6 2.200+6 1.630+7 8.990+6 1.970+6 0.199+0 4.170-5 0.127+0 5.270-2 0.272-1 0.308-1 7.730-3 8.250-3 8.550-3

M83 T87 T87 T87 S77 M83 M83 M83 R80 S77 R80 S77 T87 M83 NS88 M83 M83 KL80 M83 M83 KL80 M83

39

Table 2 (Continuation) , ° A 13.10 13.5 14.3 15.6 18.7 20.30 21.83 22.9 24.3 25.91 25.98 32.59 33.0 33.5 34.81 35.3 36.1 36.33 51.69 57.3 63.17 70.35 88.16 121.8 145.48 157.6 205.3 370.3 609.6 Ion [ArV] [MgV] [NeV] [NeI I I] [SI I I] [ClIV] [ArI I I] [FeI I I] [NeV] [OIV] [FeI I] [OI I I] [FeI I I] [SI I I] [SiI I] [FeI I] [NeI I I] [FeV] [OI I I] [NI I I] [OI] [FeV] [OI I I] [NI I] [OI] [CI I] [NI I] [CI] [CI] 3p 2p 2p 2p 3p 3p 3p Transition
23 43

A, s

-1

Ex.M. Ref C C C C C C C C C C C C C C C C C C C C C C C C C C C C C KL80 M83 M83 M83 KL80 KL80 M83 M83 M83 NS88 M83 KL80 M83 M83 M83 M83 M83 M M M M M M M 83 83 83 83 83 83 83

P1 - 3p2 3 P0 7.990-3 P1 - 2p4 3 P0 0.217-1 2 3 P - 2p2 3 P 4.590-3 2 1 4 3 P - 2p4 3 P 5.970-3 1 2 2 3 P - 3p2 3 P 2.070-3 2 1 2 3 P - 3p2 3 P 2.160-3 0 1 4 3 P - 3p4 3 P 5.170-3 0 1 5 D -5 D 3 4 1.280-3 2p2 3 P1 - 2p2 3 P0 2p 2 P3/2 - 2p 2 P1/2 5.200-4 4s(6 D7/2 -6 D9/2 ) 2.130-3 2p2 3 P0 - 2p2 3 P2 3.020-11 a5 D3 - a5 D2 4.720-4 3p2 3 P1 - 3p2 3 P0 3p 2 P1/2 - 3p 2 P3/2 2.170-4 3d6 4s(6 D5/2 -6 D7/2 ) 1.150-3 2p4 3 P0 - 2p4 3 P1 5 D - a5 D a1 2 9.760-5 2p2 3 P2 - 2p2 3 P1 2p 3 P3/2 - 2p 3 P1/2 4.770-5 8.920-5 2p4 3 P1 - 2p4 3 P2 a5 D0 - a5 D1 2.620-5 2p2 3 P1 - 2p2 3 P0 7.460-6 2p2 3 P1 - 2p2 3 P2 1.740-5 2p4 3 P0 - 2p4 3 P1 2P 2P 2p 3/2 - 2p 1/2 2.290-6 2.080-6 2p2 3 P0 - 2p2 3 P1 2.650-7 2p2 3 P1 - 2p2 3 P2 2 3 P - 2p2 3 P 7.930-8 2p 0 1

References B85 Bogdanovich et al. (1985) E84 Egikyan (1984) G67 Garstang (1967) Gr90 Gruzdev (1990) KL80 Kafatos & Lynch (1980) Kh81, Kh93 Kholtygin (1981, 1993) M83 Mendoza (1983) M91 Morton (1991) NS84, NS88 Nussbaumer & Storey (1984, 1988) R80 Reader et al. (1980) S77 Sob elman (1977) T87 Theodosiou (1987)

5

Conclusion

A list of more than thousand lines observed in the sp ectra of gaseous nebulae in the UV, optical and IR sp ectral regions are compiled. Transition probabilities for most of these lines are given. Main mechanisms p opulating the upp er state of transition are presented.
Acknowledgement. We are grateful to Estonian Science Foundation for partial support by grant.

References
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41