NOTE: This is NOT the final line database that will be used for calibration of the ISO spectrometers. That information will be made available if and when it becomes public.
========================================================================== species transition lambda error ep ip reference notes -------- ----------- --------- -------- ------ ------ --------- ----- [SiVI] 2P1/2-2P3/2 1.963410 .000100 166.77 205.05 [SiVII] 3P1-3P2 2.483340 .000100 205.05 246.52 [SiIX] 3P2-3P1 2.584600 .000500 303.17 351.10 [AlV] 2P1/2-2P3/2 2.905000 .002000 120.00 153.83 [CoII] a5F5-a3F4 2.984600 .000100 7.86 17.08 [MgVIII] 2P3/2-2P1/2 3.027950 .000250 224.95 265.96 [NiI] a1D2-a3D3 3.120000 .000100 0.00 7.64 [KVII] 2P3/2-2P1/2 3.190800 .001000 99.40 117.56 [CaIV] 2P1/2-2P3/2 3.207000 .001000 50.91 67.27 [AlVI] 3P1-3P2 3.660000 .001000 153.83 190.48 [AlVIII] 3P2-3P1 3.690000 .014000 241.44 284.60 [SiIX] 3P1-3P0 3.935700 .000400 303.17 351.10 [NiI] a1D2-a3D2 3.952400 .000100 0.00 7.64 [FeII] a4F5/2-a6D7/2 4.076400 .000100 7.90 16.19 [FeII] a4F3/2-a6D5/2 4.082000 .000100 7.90 16.19 [CaVII] 3P2-3P1 4.087000 .005000 108.78 127.20 [FeII] a4F7/2-a6D9/2 4.115100 .000100 7.90 16.19 [CaV] 3P1-3P2 4.158500 .001700 67.27 84.50 [FeII] a4F3/2-a6D3/2 4.434900 .000100 7.90 16.19 [MgIV] 2P1/2-2P3/2 4.488000 .004000 80.14 109.24 [ArVI] 2P3/2-2P1/2 4.528000 .005000 75.02 91.01 [FeII] a4F5/2-a6D5/2 4.607700 .000100 7.90 16.19 [KIII] 2P1/2-2P3/2 4.616600 .002100 31.63 45.80 [FeII] a4F3/2-a6D1/2 4.672000 .000100 7.90 16.19 [NaVII] 2P3/2-2P1/2 4.675000 .022000 172.15 208.44 [FeII] a4F7/2-a6D7/2 4.889200 .000100 7.90 16.19 [FeII] a4F5/2-a6D3/2 5.062400 .000100 7.90 16.19 [FeII] a4F9/2-a6D9/2 5.340300 .000100 7.90 16.19 [MgVII] 3P2-3P1 5.500000 .030000 186.51 224.95 [KVI] 3P2-3P1 5.575000 .004000 82.66 99.40 [MgV] 3P1-3P2 5.608000 .006000 109.24 141.27 [FeII] a4F7/2-a6D5/2 5.674000 .000100 7.90 16.19 [AlVIII] 3P1-3P0 5.850000 .040000 241.44 284.60 [NiI] a1D2-a3D1 5.893300 .000100 0.00 7.64 [KIV] 3P1-3P2 5.983000 .004000 45.80 60.91 [CaVII] 3P1-3P0 6.154000 .008000 108.78 127.20 [SiVII] 3P0-3P1 6.515000 .018000 205.05 246.52 [NiII] 2D3/2-2D5/2 6.636000 .000300 7.64 18.17 [ClV] 2P3/2-2P1/2 6.704000 .009000 53.46 67.82 [FeII] a4F9/2-a6D7/2 6.721400 .000100 7.90 16.19 [ArII] 2P1/2-2P3/2 6.985274 .000003 15.76 27.63 [NaIII] 2P1/2-2P3/2 7.319000 .005000 47.29 71.62 [NiI] a3F3-a3F4 7.506700 .000200 0.00 7.64 [NeVI] 2P3/2-2P1/2 7.642000 .006000 126.21 157.93 [ArV] 3P2-3P1 7.899000 .006000 59.81 75.02 [NaVI] 3P2-3P1 8.610000 .090000 138.39 172.15 [KVI] 3P1-3P0 8.823000 .008000 82.66 99.40 [ArIII] 3P1-3P2 8.991030 .000080 27.63 40.74 [MgVII] 3P1-3P0 9.030000 .080000 186.51 224.95 [NaIV] 3P1-3P2 9.048000 .005000 71.62 98.91 [AlVI] 3P0-3P1 9.116000 .008000 153.83 190.48 [SIV] 2P3/2-2P1/2 10.510500 .000100 34.79 47.22 [CoII] a3F3-a3F4 10.521000 .001000 7.86 17.08 [NiII] 4F7/2-4F9/2 10.682200 .000800 7.64 18.17 [NiI] a3F2-a3F3 11.307500 .000200 0.00 7.64 [ClI] 2P1/2-2P3/2 11.333347 .000015 0.00 12.97 [CaV] 3P0-3P1 11.482000 .019000 67.27 84.50 [ClIV] 3P2-3P1 11.741000 .007000 39.61 53.46 [CoIII] a4F7/2-a4F9/2 11.890000 .010000 17.08 33.50 [NiI] a3D1-a3D2 12.001000 .000300 0.00 7.64 [CoI] a4F7/2-a4F9/2 12.255000 .002000 0.00 7.86 [NiII] 4F5/2-4F7/2 12.728800 .001200 7.64 18.17 [NeII] 2P1/2-2P3/2 12.813550 .000020 21.56 40.96 [ArV] 3P1-3P0 13.100000 .020000 59.81 75.02 [FV] 2P3/2-2P1/2 13.432000 .009000 87.14 114.24 [MgV] 3P0-3P1 13.540000 .040000 109.24 141.27 [NeV] 3P2-3P1 14.320000 .030000 97.12 126.21 [NaVI] 3P1-3P0 14.330000 .200000 138.39 172.15 [ClII] 3P1-3P2 14.367800 .000800 12.97 23.81 [CoII] a5F4-a5F5 14.740000 .002000 7.86 17.08 [NiI] a3D2-a3D3 14.814200 .000300 0.00 7.64 [CoI] b4F7/2-b4F9/2 15.155000 .002000 0.00 7.86 [KIV] 3P0-3P1 15.390000 .030000 45.80 60.91 [CoII] a3F2-a3F3 15.460000 .002000 7.86 17.08 [NeIII] 3P1-3P2 15.555000 .005000 40.96 63.45 [CoIII] a4F5/2-a4F7/2 16.390000 .030000 17.08 33.50 [CoI] a4F5/2-a4F7/2 16.925000 .003000 0.00 7.86 [PIII] 2P3/2-2P1/2 17.885000 .005000 19.77 30.20 [FeII] a4F7/2-a4F9/2 17.936300 .001000 7.90 16.19 [NiII] 4F3/2-4F5/2 18.240500 .002000 7.64 18.17 [CoI] b4F5/2-b4F7/2 18.264000 .003000 0.00 7.86 [SIII] 3P2-3P1 18.712900 .000400 23.34 34.79 5 [CoII] a5F3-a5F4 18.804000 .004000 7.86 17.08 [ClIV] 3P1-3P0 20.354000 .021000 39.61 53.46 [NaIV] 3P0-3P1 21.290000 .060000 71.62 98.91 [ArIII] 3P0-3P1 21.842000 .006000 27.63 40.74 [FeIII] 5D3-5D4 22.930000 .030000 16.19 30.65 [FeI] a5D3-a5D4 24.042300 .000100 0.00 7.90 [CoIII] a4F3/2-a4F5/2 24.070000 .060000 17.08 33.50 [NeV] 3P1-3P0 24.300000 .020000 97.12 126.21 [FeII] a4F5/2-a4F7/2 24.518600 .002000 7.90 16.19 [FI] 2P1/2-2P3/2 24.747500 .001500 0.00 17.42 [CoI] a4F3/2-a4F5/2 24.845000 .006000 0.00 7.86 [SI] 3P1-3P2 25.249000 .000300 0.00 10.36 [CoII] a5F2-a5F3 25.681000 .007000 7.86 17.08 [FIV] 3P2-3P1 25.830000 .040000 62.71 87.14 [OIV] 2P3/2-2P1/2 25.913000 .013000 54.93 77.41 [CoI] b4F3/2-b4F5/2 25.930000 .007000 0.00 7.86 [FeII] a6D7/2-a6D9/2 25.988200 .000500 7.90 16.19 [FII] 3P1-3P2 29.330000 .040000 17.42 34.97 [PII] 3P2-3P1 32.870000 .030000 10.48 19.77 [FeIII] 5D2-5D3 33.040000 .070000 16.19 30.65 [ClII] 3P0-3P1 33.281000 .008000 12.97 23.81 [SIII] 3P1-3P0 33.480000 .002000 23.34 34.79 5 [FeI] a5D2-a5D3 34.713300 .000200 0.00 7.90 [SiII] 2P3/2-2P1/2 34.814000 .002000 8.15 16.35 [FeII] a6D5/2-a6D7/2 35.349100 .001000 7.90 16.19 [FeII] a4F3/2-a4F5/2 35.776800 .004000 7.90 16.19 [NeIII] 3P0-3P1 36.009000 .004000 40.96 63.45 [CoII] a5F1-a5F2 39.274000 .015000 7.86 17.08 [FIV] 3P1-3P0 44.070000 .210000 62.71 87.14 [FeII] a6D3/2-a6D5/2 51.300500 .002000 7.90 16.19 [FeIII] 5D1-5D2 51.680000 .200000 16.19 30.65 [OIII] 3P2-3P1 51.814500 .000500 35.12 54.93 5 3 [FeI] a5D1-a5D2 54.310900 .000400 0.00 7.90 [SI] 3P0-3P1 56.311000 .010000 0.00 10.36 [NIII] 2P3/2-2P1/2 57.317000 .002000 29.60 47.45 5 3 [PII] 3P1-3P0 60.640000 .070000 10.48 19.77 [OI] 3P1-3P2 63.183705 .000002 0.00 13.62 2 2 [FII] 3P0-3P1 67.200000 .300000 17.42 34.97 [SiI] 3P2-3P1 68.474000 .005000 0.00 8.15 4 [FeII] a6D1/2-a6D3/2 87.382000 .006000 7.90 16.19 [OIII] 3P1-3P0 88.356000 .002300 35.12 54.93 5 3 [AlI] 2P3/2-2P1/2 89.237000 .008000 0.00 5.99 [FeIII] 5D0-5D1 105.370000 .600000 16.19 30.65 [FeI] a5D0-a5D1 111.183000 .002000 0.00 7.90 [NII] 3P2-3P1 121.898060 .000070 14.53 29.60 1 **old* 1 [NII] J1-2,F1-2 121.901726 1 1 [NII] J1-2,F2-3 121.888439 1 1 [SiI] 3P1-3P0 129.681730 .000030 0.00 8.15 4 [OI] 3P0-3P1 145.525439 .000007 0.00 13.62 2 [CII] 2P3/2-2P1/2 157.740900 .000100 11.26 24.38 3 [NII] 3P1-3P0 205.178200 .000100 14.53 29.60 1 1 =========================================================================== (Our thanks to Mike Haas for these references and wavelength notes) REFERENCES: 1: [NII] (121.8976, 205.1782) References are: Brown et al. 1994, ApJ 428 L37 Colgan et al. 1993, ApJ, 413, 237 Cooksy et al. 1986, J. Chem. Phys. 84, 6101 2: [OI] line References are: Saykally et al. 1979, JChemPhys, 71, 1564 Watson etal. 1984, (63.1700 um) ApJ, 279, L1 says its 63.18372+0.00003 The [OI] line - 145.5255 um - Davies etal. 1978, JChemPhys, 68, 1135. 3: [CII] 157.7409 um: Boreiko et al. 1990, ApJ, 353, 181 - astrophysical observations Cooksy et al. 1986, ApJ, 305, L89 - laboratory LMR measurements 4: [SiI] 129.6817: Inguscio et al. ApJL, 278, L127, 1984 (2311.7556 GHz). 68.472 5: Moorwood et al. 1980, ApJ, 238, 565 WAVELENGTH NOTES: The NII, OI, CII, and SiI wavelengths have all been measured with Laser Magnetic Resonance techniques and are well known: 1: The [NII] lines have recently been measured in the lab via the LMR technique; see Brown et al. 1994, above. 2: The OI line - 63.1700 um: Saykally etal. 1979, JChemPhys, 71, 1564 Watson etal. 1984, ApJ, 279, L1 says its 63.18372+0.00003 and refers to Evenson, 1982, private communication. This must supercede the 63.1700 value, but am checking it out. All these are presumably known to 0.0001 um or so. See references for details. 3: Surprisingly, the wavelengths of the doubly ionized lines are rather poorly known. The values we are using come from Moorwood etal. 1980, ApJ, 238, 565 and are very old and not all that well determined. The CGS on the KAO (Erickson, PI) can only do slightly better, having uncertainty of 1/2 channel or more, being respectively, 0.004, 0.008, and 0.006 microns at 52, 88, and 57 microns. Many people use 57.317 for the wavelength of the NIII line, including the FIFI group (R. Genzel, PI), and this may fit the CGS data better, but the CGS group are not yet sure. We are also not sure where this number originated. Moorwood's paper is worth looking at just to see how FIR spectroscopy has come. ==============================================================================