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Table 3

continued.

Hb 4
λ0 (Å) Ion Mult. λobs Vrad (km s-1) F(λ)/F(Hβ)a I(λ)/I(Hβ)b Err(%) note
3340.77 iii 3 3340.03 –66.42 0.965 4.541 14
3428.65 iii 15 3427.81 –73.45 0.268 1.115 19
3444.07 iii 15 3443.31 –66.17 2.730 11.128 12
3669.47 H i H25 3668.65 –67.01 0.186 0.578 22
3671.48 H i H24 3670.82 –53.89 0.157 0.488 24
3673.76 H i H23 3673.05 –57.95 0.216 0.667 20
3676.37 H i H22 3675.62 –61.17 0.206 0.634 21
3679.36 H i H21 3678.58 –63.57 0.256 0.786 18
3682.81 H i H20 3682.07 –60.25 0.301 0.922 17
3686.83 H i H19 3686.07 –61.81 0.417 1.271 14
3691.56 H i H18 3690.81 –60.92 0.263 0.796 18
3697.15 H i H17 3696.34 –65.68 0.306 0.922 16
3703.86 H i H16 3703.04 –66.39 0.360 1.078 15
3705.04 He i 25 3704.18 –69.61 0.172 0.511 23
3711.97 H i H15 3711.17 –64.63 0.474 1.395 13
3721.93 H i H14 3721.05 –70.89 0.967 2.820 11
3726.03 [O ii] 1F 3725.38 –52.32 5.933 17.224 10
3728.82 [O ii] 1F 3728.15 –53.89 2.740 7.933 10
3734.37 H i H13 3733.57 –64.24 0.738 2.125 12
3750.15 H i H12 3749.35 –63.95 0.845 2.396 11
3754.69 iii 2 3753.88 –64.69 0.147 0.415 25
3759.87 iii 2 3759.07 –63.81 0.788 2.213 11
3770.63 H i H11 3769.83 –63.60 1.126 3.130 10
3797.63 [S iii] 2F 3797.09 –42.62 1.709 4.629 10
3797.90 H i H10 * * * * *
3819.61 He i 22 3818.83 –61.24 0.411 1.091 14
3835.39 H i H9 3834.57 –64.09 2.360 6.176 9
3868.75 [Ne iii] 1F 3867.96 –61.23 41.080 104.331 9
3888.65 He i 2 3888.11 –41.62 5.475 13.661 9
3889.05 H i H8 * * * * *
3964.73 He i 5 3963.89 –63.54 0.322 0.751 15
3967.46 [Ne iii] 1F 3966.64 –61.98 13.857 32.279 8
3970.07 H i H7 3969.25 –61.94 5.751 13.364 8
4009.26 He i 55 4008.45 –60.58 0.075 0.169 :
4026.21 He i 18 4025.33 –65.53 1.068 2.355 9
4041.31 ii 39 4040.41 –66.79 0.019 0.041 :
4068.60 [S ii] 1F 4067.87 –53.80 1.025 2.167 9
4069.62 ii 10 4068.94 –50.11 0.194 0.409 20
4069.89 ii 10 * * * * *
4072.15 ii 10 4071.27 –64.79 0.136 0.288 26
4075.86 ii 10 4075.43 –67.69 0.549 1.152 11
4076.35 [S ii] 1F * * * * *
4097.22 ii 20 4096.44 –57.10 1.006 2.069 9
4097.26 ii 48 * * * * *
4097.33 iii 1 * * * * *
4100.04 He ii 4.12 4099.19 –62.17 0.153 0.314 24
4101.74 H i H6 4100.88 –62.90 11.839 24.244 8
4103.43 iii 1 4102.48 –69.44 0.481 0.983 12
4119.22 ii 20 4118.27 –69.17 0.065 0.131 :
4120.82 He i 16 4119.92 –65.48 0.135 0.271 26
4143.76 He i 53 4142.91 –61.48 0.156 0.307 23
4153.30 ii 19 4152.43 –62.78 0.026 0.051 :
4156.53 ii 19 4155.50 –74.29 0.053 0.103 :
4169.22 ii 19 4168.31 –65.46 0.053 0.102 :
4185.45 ii 36 4184.51 –67.38 0.022 0.042 :
4186.90 iii 18 4185.93 –69.45 0.042 0.080 :
4189.79 ii 36 4188.88 –65.14 0.027 0.051 :
4195.76 iii 6 4194.72 –74.30 0.034 0.064 :
4199.83 He ii 4.11 4199.03 –57.14 0.280 0.528 16
4241.78 ii 48 4241.00 –55.12 0.030 0.055 :
4267.15 ii 6 4266.24 –63.92 0.418 0.756 12
4275.55 ii 67 4274.53 –71.54 0.043 0.078 :
4276.75 ii 67 * * * * *
4294.78 ii 49 4293.79 –69.10 0.036 0.064 :
4294.92 ii 54 * * * * *
4303.61 ii 65 4302.89 –50.14 0.043 0.075 :
4303.82 ii 53 * * * * *
4317.14 ii 2 4316.19 –66.00 0.043 0.076 :
4338.67 He ii 4.10 4337.72 –65.64 0.340 0.583 14
4340.47 H i H5 4339.54 –64.26 28.905 49.572 7
4345.55 ii 65 4344.72 –57.95 0.027 0.046 :
4345.56 ii 2 * * * * *
4349.43 ii 2 4348.57 –59.31 0.104 0.178 31
4363.21 [O iii] 2F 4362.29 –63.22 4.393 7.381 7
4366.89 ii 2 4365.93 –65.92 0.095 0.160 33
4379.11 iii 18 4378.22 –60.92 0.316 0.523 14
4387.93 He i 51 4387.04 –60.83 0.418 0.686 12
4391.94 Ne ii 55e 4391.08 –58.71 0.049 0.080 :
4409.30 Ne ii 55e 4408.76 –36.72 0.017 0.028 :
4414.85 iii 46a 4413.94 –61.82 0.061 0.097 :
4414.90 ii 5 * * * * *
4416.97 ii 5 4416.02 –64.51 0.060 0.095 :
4437.55 He i 50 4436.69 –58.10 0.060 0.094 :
4471.47 He i 14 4470.58 –59.69 3.280 4.903 6
4478.09 [Mn iv] 5D-3P 4477.13 –64.28 0.019 0.028 :
4481.21 Mg ii 4 4480.48 –48.84 0.034 0.050 :
4510.92 iii 3 4509.98 –62.48 0.134 0.191 26
4514.85 iii 3 4513.81 –69.08 0.033 0.047 :
4541.59 He ii 4.9 4540.61 –64.70 0.576 0.795 10
4571.10 Mg i] 1 4570.20 –59.03 0.133 0.178 26
4590.97 ii 15 4589.91 –69.24 0.046 0.060 :
4595.95 ii 15 4595.23 –46.99 0.044 0.058 :
4596.18 ii 15 * * * * *
4607.16 ii 5 4606.34 –53.39 0.024 0.030 :
4609.44 ii 92a 4608.44 –65.05 0.064 0.082 :
4630.54 ii 5 4629.52 –66.05 0.063 0.080 :
4634.14 iii 2 4633.15 –64.07 1.215 1.528 7
4638.86 ii 1 4637.81 –67.86 0.095 0.119 33
4640.64 iii 2 4639.61 –66.57 2.229 2.786 6
4641.81 ii 1 4640.75 –68.48 0.639 0.798 9
4641.85 iii 2 * * * * *
4647.42 iii 1 4646.46 –61.94 0.178 0.221 21
4649.13 ii 1 4648.16 –62.54 0.589 0.730 9
4650.25 iii 1 4649.71 –34.82 0.334 0.413 13
4650.84 ii 1 * * * * *
4651.47 iii 1 4650.85 –39.97 0.033 0.040 :
4658.05 [Fe iii] 3F 4657.38 –43.12 0.069 0.084 :
4661.63 ii 1 4660.66 –62.38 0.152 0.186 23
4676.24 ii 1 4675.18 –67.98 0.096 0.116 33
4685.68 He ii 3.4 4684.73 –60.81 20.797 24.857 5
4711.37 [Ar iv] 1F 4710.33 –66.19 2.517 2.933 6
4713.14 He i 12 4712.20 –59.80 0.559 0.650 10
4740.17 [Ar iv] 1F 4739.20 –61.34 3.632 4.114 5
4859.32 He ii 4.8 4858.26 –65.41 1.235 1.240 7
4861.33 H i H4 4860.30 –63.55 100.000 100.000 5
4958.91 [O iii] 1F 4958.06 –51.40 408.734 371.496 5
5006.84 [O iii] 1F 5006.00 –50.30 1284.716 1115.544 5
5015.68 He i 4 5014.68 –59.78 2.301 1.982 9
5041.03 Si ii 5 5040.02 –60.06 0.330 0.278 14
5047.74 He i 47 5046.71 –61.20 0.238 0.200 12
5055.98 Si ii 5 5055.04 –55.74 0.170 0.141 15
5191.82 [Ar iii] 3F 5190.65 –67.57 0.131 0.097 17
5197.90 [N i] 1F 5197.14 –43.83 0.258 0.190 11
5200.26 [N i] 1F 5199.47 –45.52 0.174 0.128 15
5220.06 [Fe ii] 19F 5383.17 0.00 0.181 0.114 :
5342.38 ii 17.06 5341.53 –47.71 0.042 0.027 39
5411.52 He ii 4.7 5410.39 –62.61 3.331 2.049 6
5517.71 [Cl iii] 1F 5516.58 –61.40 1.004 0.564 8
5537.88 [Cl iii] 1F 5536.71 –63.35 1.544 0.852 7
5666.64 ii 3 5665.45 –62.97 0.130 0.064 18
5675.46 ii 3 5674.89 –30.10 0.060 0.029 30
5679.56 ii 3 5678.35 –63.88 0.282 0.137 12
5686.21 ii 3 5685.00 –63.81 0.048 0.023 35
5691.98 [Mn v] 4F-2G 5690.89 –57.41 0.049 0.023 35
5701.82 [Mn v] 4F-2G 5700.70 –58.88 0.119 0.056 19
5710.76 ii 3 5709.52 –65.10 0.046 0.022 36
5754.64 [N ii] 3F 5753.57 –55.77 3.028 1.368 8
5861.00 [Mn v] 4F-2G 5860.18 –41.94 0.163 0.067 16
5875.64 He i 11 5874.45 –60.73 36.100 14.686 9
5885.40 [Mn v] 4F-2G 5884.52 –44.83 0.124 0.050 19
5913.24 He ii 5.26 5911.98 –63.91 0.090 0.035 23
5931.83 He ii 5.25 5930.60 –62.18 0.071 0.028 27
5952.93 He ii 5.24 5951.51 –71.55 0.108 0.041 21
5957.57 Si ii 4 5956.64 –46.79 0.106 0.041 21
5977.03 He ii 5.23 5975.84 –59.70 0.113 0.043 20
5990.10 [Mn v] 4F-4P 5989.39 –35.54 0.080 0.030 25
6004.73 He ii 5.22 6003.69 –51.93 0.185 0.068 16
6024.40 [Mn v] 4F-4P 6023.42 –48.77 0.102 0.037 22
6036.70 He ii 5.21 6035.46 –61.60 0.220 0.080 15
6074.10 He ii 5.20 6073.04 –52.33 0.170 0.060 17
6083.30 [Mn v] 4F-4P 6082.37 –45.82 0.115 0.040 20
6101.83 [K iv] 1F 6100.42 –69.30 0.580 0.201 11
6118.20 He ii 5.19 6117.04 –56.86 0.145 0.050 18
6151.43 ii 16.04 6150.04 –67.76 0.073 0.025 27
6157.60 [Mn v] 4F-4P 6156.10 –73.05 0.114 0.038 21
6166.00 [Mn v] 4F-4P 6164.48 –73.92 0.095 0.032 23
6170.60 He ii 5.18 6169.36 –60.27 0.195 0.065 16
6219.10 [Mn v] 4F-4P 6217.54 –75.22 0.087 0.028 24
6233.80 He ii 5.17 6232.50 –62.52 0.275 0.088 14
6300.30 [O i] 1F 6299.22 –51.38 9.171 2.800 10
6312.10 [S iii] 3F 6310.78 –62.72 7.521 2.279 11
6343.60 [Mn v] 4F-4P 6342.32 –60.52 0.167 0.050 17
6347.11 Si ii 2 6345.74 –64.71 0.349 0.104 13
6363.78 [O i] 1F 6362.68 –51.81 3.305 0.969 11
6371.36 Si ii 2 6369.99 –64.46 0.526 0.154 12
6393.60 [Mn v] 4F-4P 6392.41 –55.81 0.232 0.067 15
6406.30 He ii 5.15 6405.08 –57.09 0.446 0.127 13
6435.10 [Ar v] 2P-1D 6433.66 –67.10 0.160 0.045 18
6461.95 ii 17.04 6460.46 –69.15 0.288 0.080 15
6527.10 [N ii] 1F 6525.78 –60.65 0.574 0.152 13
6527.11 He ii 5.14 * * * * *
6548.03 [N ii] 1F 6547.16 –39.82 102.085 26.793 11
6560.00 He ii 4.6 6558.61 –63.54 10.175 2.653 12
6562.82 H i H3 6561.62 –54.81 1072.284 279.108 12
6578.05 ii 2 6576.81 –56.51 0.899 0.232 12
6583.41 [N ii] 1F 6582.54 –39.63 313.079 80.530 12
6678.15 He i 46 6676.77 –61.96 15.611 3.813 12
6683.20 He ii 5.13 6681.78 –63.73 0.703 0.171 13
6716.47 [S ii] 2F 6715.31 –51.79 13.761 3.294 12
6730.85 [S ii] 2F 6729.65 –53.47 26.336 6.258 12
6795.00 [K iv] 1F 6793.53 –64.88 0.187 0.043 18
6890.88 He ii 5.12 6889.45 –62.21 0.756 0.166 14
7005.67 [Ar v] 3P-1D 7004.19 –63.35 0.520 0.108 14
7065.28 He i 10 7063.78 –63.66 28.552 5.789 13
7135.78 [Ar iii] 1F 7134.33 –60.92 119.025 23.391 14
7170.62 [Ar iv] 2F 7169.12 –62.73 0.586 0.113 15
7177.50 He ii 5.11 7176.00 –62.67 1.505 0.290 14
7231.34 ii 3 7229.73 –66.76 0.547 0.103 15
7236.42 ii 3 7235.21 –50.13 1.395 0.262 14
7262.76 [Ar iv] 2F 7261.37 –57.37 0.526 0.098 15
7281.35 He i 45 7279.85 –61.77 3.937 0.726 14 c
7318.92 [O ii] 2F 7318.50 –17.20 17.557 3.186 14
7319.99 [O ii] 2F * * * * *
7329.66 [O ii] 2F 7328.82 –34.37 15.061 2.721 14
7330.73 [O ii] 2F * * * * *
7499.85 He i 1/8 7498.29 –62.37 0.257 0.043 18
7530.54 [Cl iv] 1F 7528.83 –68.09 2.293 0.382 15
7592.74 He ii 5.10 7591.15 –62.81 2.437 0.396 15
7751.10 [Ar iii] 2F 7749.57 –59.20 37.383 5.729 15
7816.13 He i 1/7 7814.56 –60.22 0.456 0.068 17
? 8016.95 0.225 0.032 19
8045.63 [Cl iv] 1F 8043.98 –61.49 6.393 0.893 16
8116.30 He i 4/16 8114.90 –51.72 0.082 0.011 28
8196.48 iii 43 8194.92 –57.09 0.824 0.109 17
? 8225.74 0.146 0.019 22
8236.77 He ii 5.9 8235.07 –61.86 5.464 0.711 17
? 8242.39 0.214 0.028 20
8255.02 H i P38 8253.31 –62.11 0.290 0.037 19
8257.85 H i P37 8255.93 –69.72 0.295 0.038 19
8260.93 H i P36 8259.28 –59.87 0.496 0.064 18
8264.28 H i P35 8262.76 –55.17 0.681 0.088 17
8267.94 H i P34 8266.50 –52.24 0.648 0.083 17
8271.93 H i P33 8270.22 –61.99 0.577 0.074 18
8276.31 H i P32 8274.62 –61.21 0.639 0.082 17 c
8281.12 H i P31 8279.12 –72.42 0.487 0.062 18
8286.43 H i P30 8284.77 –60.07 0.813 0.104 17
8292.31 H i P29 8290.60 –61.83 0.921 0.117 17
8298.83 H i P28 8296.76 –74.81 1.444 0.183 17 c
8306.11 H i P27 8304.39 –62.12 1.048 0.132 17
8314.26 H i P26 8312.50 –63.47 1.265 0.159 17
8323.42 H i P25 8321.68 –62.69 1.355 0.170 17
8333.78 H i P24 8332.02 –63.35 1.637 0.204 17
8342.33 He i 4/12 8340.57 –63.25 0.245 0.030 20
8345.55 H i P23 8343.69 –66.81 1.816 0.225 17 c
8359.00 H i P22 8357.27 –62.08 2.048 0.251 17
8361.67 He i 1/6 8360.11 –55.93 0.991 0.121 17
8374.48 H i P21 8372.76 –61.61 2.335 0.284 17
8392.40 H i P20 8390.65 –62.53 2.454 0.295 17
8413.32 H i P19 8411.57 –62.37 2.763 0.328 17
8421.67 He ii 6.37 8420.09 –56.26 0.125 0.015 24
8433.85 [Cl iii] 3F 8432.16 –60.07 0.194 0.023 21
8437.96 H i P18 8436.20 –62.54 3.275 0.383 17
8444.34 He i 4/11 8442.43 –67.83 0.159 0.018 23
8446.25 i 4 8444.85 –49.71 0.682 0.079 18
8446.36 i 4 * * * * *
8446.76 i 4 * * * * *
8451.00 He i 6/17 8449.42 –56.06 0.098 0.011 27
8467.25 H i P17 8465.51 –61.63 5.813 0.667 18 c
8486.27 He i 6/16 8484.42 –65.35 0.185 0.021 22
8499.00 He ii 6.32 8497.71 –45.51 0.168 0.019 22
8502.48 H i P16 8500.70 –62.78 4.725 0.530 18
8518.04 He i 2/8 8517.06 –34.51 0.182 0.020 22
8528.99 He i 6/15 8527.24 –61.52 0.244 0.027 21
8531.48 He i 7/15 8530.07 –49.56 0.107 0.012 26
8545.38 H i P15 8543.61 –62.09 5.639 0.614 18
8567.15 He ii 6.29 8565.46 –59.17 0.177 0.019 22
8582.54 He i 3/10 8580.74 –62.88 0.741 0.079 19
8594.91 He ii 6.28 8593.07 –64.19 0.181 0.019 22
8598.39 H i P14 8596.63 –61.37 7.097 0.745 18
8648.10 He i 6/13 8646.19 –66.20 0.198 0.020 22 c
8665.02 H i P13 8663.26 –60.90 9.320 0.936 18
8727.13 [C i] 3F 8725.50 –56.00 0.226 0.022 22
8733.43 He i 6/12 8731.60 –62.83 0.411 0.039 20
8736.04 He i 7/12 8734.22 –62.48 0.177 0.017 23
8747.00 He ii 6.24 8745.07 –66.15 0.265 0.025 21
8750.47 H i P12 8748.64 –62.71 11.091 1.052 19
8776.60 He i 4/9 8774.91 –57.72 0.524 0.049 20
8798.90 He ii 6.23 8797.10 –61.37 0.329 0.030 21
8845.38 He i 6/11 8843.55 –62.04 0.519 0.046 20
8848.05 He i 7/11 8846.21 –62.35 0.242 0.022 22
8854.11 He i 5/11 8852.52 –53.87 0.075 0.007 31
8859.10 He ii 6.22 8857.24 –62.93 0.247 0.022 22
8862.79 H i P11 8860.96 –61.92 15.445 1.368 19
8996.99 He i 6/10 8995.09 –63.34 0.801 0.066 20
9011.20 He ii 6.20 9009.25 –64.89 0.404 0.033 21
9014.91 H i P10 9013.04 –62.20 20.908 1.709 20
9063.29 He i 4/8 9061.60 –55.93 0.887 0.071 21
9068.60 [S iii] 1F 9067.40 –39.65 486.386 38.843 20
9108.50 He ii 6.19 9106.64 –61.24 0.337 0.027 22
9123.60 [Cl ii] 1F 9121.96 –53.89 0.532 0.042 21

Notes. 

(a)

Where F is the unreddened flux in units of 100.00 = 1.343  ×  10-13.

(b)

Where I is the reddened corrected flux, with c(Hβ) = 1.81  ±  0.14, in units of 100.00 = 8.671  ×  10-12.

(c)

Affected by telluric emission.

(d)

Blended with an unknown line.

(e)

Affected by charge transfer.

(f)

Affected by atmospheric absorption bands.

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