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Table A.1.

The transitions detected with single dish telescope in NGC 1068.

Line Frequency Flux Velocity Line width Tmb rms Telescope HPBW Ref.
(MHz) (mK km s−1) (km s−1) (km s−1) (mK) (mK) (″)
HC3N (9 − 8) (a) 81881.5 517.3 ± 160.7 1167.6 213.2 2.28 1.37 IRAM 30 m 30.0 1, P
CH3OH (5k − 4k) 84521.2 127.2 ± 28.0 1035.7 ± 8.9 78.0 ± 19.1 1.53 0.41 IRAM 30 m 29.1 2
HC18O+ (1 − 0) 85162.2 125.6 ± 40.3 1124.7 ± 58.3 317.6 ± 107.9 0.37 0.27 IRAM 30 m 28.9 2
133.1 ± 36.8 1124.5 ± 49.5 300.8 ± 83.3 ... ... IRAM 30 m 28.9 5
c-C3H2 (21, 2 − 10, 1) 85338.9 1190.3 ± 59.9 1128.6 ± 6.3 249.6 ± 12.4 4.48 0.36 IRAM 30 m 28.8 2
1200 ± 100 1148 ± 17 176 ± 40 5 1 NRO 45 m 19.0 3
1200 1148 248 5 1.7 NRO 45 m 19.0 4
CH3CCH (5k − 4k) 85457.3 347.5 ± 107.2 1126.0 ± 42.4 363.8 ± 156.7 0.90 0.36 IRAM 30 m 28.8 2
< 140 ... ... ... ... NRO 45 m 19.0 3
H42α 85695.0 448.2 ± 77.7 1251.0 ± 28.3 377.1 ± 91.9 1.12 0.43 IRAM 30 m 28.7 2
HC15N (1 − 0) 86055.0 < 115(2σ) ... ... ... ... IRAM 30 m 28.6 5
H13CN (1 − 0) 86340.2 1249.8 ± 37.2 1109.6 ± 3.1 211.9 ± 7.3 5.54 0.45 IRAM 30 m 28.5 2
1400 ± 200 1126 ± 9 196 ± 20 7 1 NRO 45 m 18.7 3
1900 1111 234 9 4.1 NRO 45 m 18.7 4
1282.3 ± 33.5 1109.3 ± 2.7 215.6 ± 6.5 ... ... IRAM 30 m 28.5 5
400 1066.3 166.4 2.4 ... IRAM 30 m 28.5 6
780 ± 80 1088.4 ± 11.2 180 4.03 ... IRAM 30 m 28.5 7
1400 ± 200 ... ... 7 1 NRO 45 m 18.7 8
1556 ± 617 ... 230 ± 33 ... ... IRAM 30 m 28.5 9
HCO (10, 1 − 00, 0) 86670.8 376.9 ± 107.6 1186.4 ± 38.7 293.8 ± 86.4 1.21 0.37 IRAM 30 m 28.4 2
200 1100 240 0.6 ... IRAM 30 m 28.4 6
490 ± 120 1100 240 1.08 ... IRAM 30 m 28.4 7
H13CO+ (1 − 0) 86754.3 758.2 ± 38.7 1127.8 ± 6.9 275.5 ± 16.0 2.60 0.31 IRAM 30 m 28.4 2
< 150 ... ... ... ... NRO 45 m 18.7 3
734.4 ± 38.27 1124.9 ± 6.9 270.5 ± 15.8 ... ... IRAM 30 m 28.4 5
500 1100 240.0 1.9 ... IRAM 30 m 28.4 6
741 ± 617 ... 230 ± 33 ... ... IRAM 30 m 28.4 9
570 ± 70 1128 ± 13 254 ± 38 2.1 ... IRAM 30 m 28.4 10
SiO (2 − 1) 86847.0 878.9 ± 64.5 1101.1 ± 7.8 248.5 ± 21.5 3.32 0.37 IRAM 30 m 28.3 2
800 ± 200 1092 ± 19 176 ± 46 5 1 NRO 45 m 18.7 3
600 1100 259.1 2.2 ... IRAM 30 m 28.3 6
600 ± 70 1100 240 2.36 ... IRAM 30 m 28.3 7
800 ± 200 ... ... 5 1 NRO 45 m 18.7 8
988 ± 617 ... 230 ± 33 ... ... IRAM 30 m 28.3 9
560 ± 50 1111 ± 10 189 ± 22 2.8 ... IRAM 30 m 28.3 10
HC17O+ (1 − 0) 87057.3 < 144(2σ) ... ... ... ... IRAM 30 m 28.3 5
HN13C (1 − 0) 87091.0 251.5 ± 24.1 1126.9 ± 12.2 243.6 ± 24.6 0.97 0.29 IRAM 30 m 28.2 2
204.2 ± 28.5 1117.5 ± 16.2 216.3 ± 30.8 ... ... IRAM 30 m 28.2 5
200 ± 300 1075.7 ± 124.4 151.8 ± 235.9 1.1 ... IRAM 30 m 28.2 6
190 ± 50 1100 150 1.20 ... IRAM 30 m 28.2 7
C2H (1 − 0) 87316.9 7940.2 ± 53.0 1073.8 ± 1.4 445.0 ± 3.4 16.83 0.46 IRAM 30 m 28.2 2
4400 ± 300 1117 ± 11 187 ± 24 20 2 NRO 45 m 19.0 3 (b)
2600 ± 300 1110 ± 31 313 ± 80 9 1
6900 1139 209 19 3.3 NRO 45 m 19.0 4
3100 1098.4 240.0 12.0 ... IRAM 30 m 28.2 6
7800 ± 100 1106.4 ± 2.6 239.8 ± 5.3 18.51 ... IRAM 30 m 28.2 7
10 000 ± 2200 ... 471 ± 33 ... ... IRAM 30 m 28.2 9
HNCO (40, 4 − 30, 3) 87925.2 674.8 ± 44.6 1148.0 ± 9.0 272.9 ± 20.6 2.32 0.27 IRAM 30 m 28.0 2
1600 ± 200 1134 ± 57 250 ± 134 6 3 NRO 45 m 19.1 3
100 1100 230 0.4 ... IRAM 30 m 28.0 6
570 ± 890 1100 240 2.20 ... IRAM 30 m 28.0 7
1600 ± 200 ... ... 6 3 NRO 45 m 19.1 8
HCN (1 − 0) 88631.8 20754.0 ± 28.8 1155.6 ± 0.2 250.3 ± 0.4 77.91 0.44 IRAM 30 m 28.0 2
26 400 ± 600 1117 ± 3 233 ± 6 108 2 NRO 45 m 19.1 3
35 000 1117 336 128 19.1 NRO 45 m 19.1 4
20 578.6 ± 44.9 1150.8 ± 0.2 249.3 ± 0.5 ... ... IRAM 30 m 28.0 5
11 100 1120.1 238.5 43.0 ... IRAM 30 m 28.0 6
23 550 ± 280 1112.8 ± 1.6 215.9 ± 3.4 77.84 ... IRAM 30 m 28.0 7
26 400 ± 600 ... ... 108 2 NRO 45 m 19.1 8
27 000 ± 500 ... 241 ± 33 ... ... IRAM 30 m 28.0 9
24 500 ± 900 ... 220 ± 10 ... ... IRAM 30 m 28.0 11
H15NC (1 − 0) 88865.7 < 112(2σ) ... ... ... ... IRAM 30 m 27.7 5
HCO+ (1 − 0) 89188.5 14519.0 ± 56.0 1167.6 ± 0.5 245.0 ± 1.0 55.66 0.89 IRAM 30 m 27.6 2
13 300 ± 700 1132 ± 5 236 ± 11 55 2 NRO 45 m 19.1 3
14 430.9 ± 66.5 1167.7 ± 0.6 244.1 ± 1.2 ... ... IRAM 30 m 27.6 5
13 800 ± 300 1122.6 ± 1.2 230.9 ± 1.5 55.9 ... IRAM 30 m 27.6 6
14 360 ± 170 1113.7 ± 1900 219.3 ± 4.2 56.30 ... IRAM 30 m 27.6 7
13 300 ± 700 ... ... 55 2 NRO 45 m 19.1 8
18 148 ± 493 ... 232 ± 33 ... ... IRAM 30 m 27.6 9
14 600 ± 200 ... 234 ± 4 ... ... IRAM 30 m 27.6 11
HOC+ (1 − 0) 89487.4 248.1 ± 31.9 1154.2 ± 13.5 192.8 ± 26.8 1.21 0.30 IRAM 30 m 27.5 2
200 ± 100 1173.3 ± 17.5 128.2 ± 51.6 1.8 ... IRAM 30 m 27.5 6
310 ± 60 1110 234.1 ± 73.4 1.23 ... IRAM 30 m 27.5 7
HNC (1 − 0) 90663.6 7835.6 ± 35.0 1185.9 ± 0.6 244.3 ± 1.2 30.10 0.39 IRAM 30 m 27.1 2
5600 ± 400 1138 ± 7 200 ± 17 28 2 NRO 45 m 19.1 3
7781.6 ± 35.5 1186.0 ± 0.6 243.5 ± 30.0 ... ... IRAM 30 m 27.1 5
7500 ± 600 1141.3 ± 0.3 235.9 ± 3.2 30.8 ... IRAM 30 m 27.1 6
7780 ± 100 1112.2 ± 1.9 225.1 ± 4.4 31.12 ... IRAM 30 m 27.1 7
5600 ± 400 ... ... 28 2 NRO 45 m 19.1 8
11 000 ± 500 ... 238 ± 33 ... ... IRAM 30 m 27.1 9
4324 ± 676 1073 ± 13 114 ± 30 13.1 2.4 SEST 15 m 55 12 (b)
1268 ± 20 170 ± 62 9.1 2.0
11 400 ± 700 1137 ± 7 232 ± 17 46 ... IRAM 30 m 25 13
HC3N (10 − 9) 90979.0 928.5 ± 35.5 1167.6 ± 4.1 213.2 ± 9.3 4.09 0.31 IRAM 30 m 27.0 2
4700 ± 1000 1078 ± 33 254 ± 77 16 4 NRO 45 m 19.1 3
1100 ± 100 1142.6 ± 10.0 263.7 ± 24.9 3.8 ... IRAM 30 m 27.0 6
710 ± 30 1091.0 ± 5.6 190 3.52 ... IRAM 30 m 27.0 7
4700 ± 1000 ... ... 16 4 NRO 45 m 19.1 8
1200 ± 450 ... 251 ± 33 ... ... IRAM 30 m 27.0 9
CH3OCH3 (32, 2 − 31, 3) 91476.6 305.7 ± 129.0 1083.2 ± 110.8 565.3 ± 181.6 0.54 0.23 IRAM 30 m 26.9 1, A
224.8 ± 52.2 1060.6 ± 49.7 410.3 ± 100.1 0.52 0.33 IRAM 30 m 26.9 2
CH3CN (5k − 4k) 91987.1 427.4 ± 48.6 1205.2 ± 11.1 218.7 ± 33.6 1.84 0.35 IRAM 30 m 26.7 1, C
395.3 ± 43.8 1196.7 ± 10.2 203.5 ± 29.6 1.82 0.35 IRAM 30 m 26.7 2
100 1100 150.0 0.6 ... IRAM 30 m 26.7 6
590 ± 420 1100 240 2.30 ... IRAM 30 m 26.7 7
N2H+ (1 − 0) 93173.4 1407.0 ± 229.3 1137.3 ± 17.1 204.7 ± 35.8 6.46 1.91 IRAM 30 m 26.4 1, P
2100 ± 400 1112 ± 16 245 ± 37 8 1 NRO 45 m 19.1 3
1000 1164.1 233.5 4.0 ... IRAM 30 m 26.4 6
1990 ± 80 1100.6 ± 5.4 240 7.62 ... IRAM 30 m 26.4 7
C34S (2 − 1) 96412.9 700 ± 100 1091.2 ± 15.7 249.0 ± 29.5 2.7 ... IRAM 30 m 25.5 6
680 ± 80 1100 240 2.64 ... IRAM 30 m 25.5 7
< 330 ... ... ... ... NRO 45 m 19 8
CH3OH (2k − 1k) 96741.4 1613.3 ± 271.4 1104.2 ± 20.0 225.9 ± 42.1 6.71 1.92 IRAM 30 m 25.4 1, P
1100 ± 200 1104 ± 16 225 ± 40 5 1 NRO 45 m 19.0 3
1500 1104 235 7 3.8 NRO 45 m 19.0 4
900 1117.5 247.2 3.3 ... IRAM 30 m 25.4 6
1550 ± 90 1100 240 5.93 ... IRAM 30 m 25.4 7
1100 ± 200 ... ... 5 1 NRO 45 m 19.0 8
CS (2 − 1) 97981.0 5700.7 ± 239.0 1121.9 ± 5.4 254.1 ± 11.7 21.08 1.95 IRAM 30 m 25.1 1, P
5400 ± 200 1123 ± 5 242 ± 12 22 1 NRO 45 m 19.0 3
6400 1174 312 30 4.8 NRO 45 m 19.0 4
3950 ± 90 1092.8 ± 3.3 212.2 ± 7.6 17.14 ... IRAM 30 m 25.1 7
5400 ± 200 ... ... 22 1 NRO 45 m 19.0 8
SO (23 − 12) 99299.9 800 ± 200 1194 ± 26 219 ± 62 4 1 NRO 45 m 16.5 3
400 ± 100 1111.1 ± 7.5 136.0 ± 17.0 3.1 ... IRAM 30 m 24.8 6
470 ± 60 1065.1 ± 12.4 139.7 ± 29.0 3.13 ... IRAM 30 m 24.8 7
800 ± 200 ... ... 4 1 NRO 45 m 16.5 8
SO (54 − 44) 100029.6 200 ± 100 1111.1 136.0 1.6 ... IRAM 30 m 24.6 6
< 400 ... ... ... ... NRO 45 m 16.5 8
HC3N (11 − 10) 100076.4 1600 ± 300 1094 ± 19 171 ± 46 9 2 NRO 45 m 16.5 3
500 1142.6 263.0 2.0 ... IRAM 30 m 24.6 6
800 ± 40 1091.0 ± 5.6 190 3.95 ... IRAM 30 m 24.6 7
1600 ± 300 ... ... 9 2 NRO 45 m 16.5 8
13CN (11, 0 − 01, 1) 108426.9 100 1104 257.2 0.2 ... IRAM 30 m 22.7 6
13CN (11/2 − 01/2) 108651.3 400 ± 100 1076 ± 21 191 ± 50 2 1 NRO 45 m 16.5 3
200 1104 257.2 0.6 ... IRAM 30 m 22.6 6
13CN (13/2 − 01/2) 108780.2 500 ± 100 1099 ± 21 197 ± 50 3 1 NRO 45 m 16.5 3
HC3N (12 − 11) 109173.6 1300 ± 100 1103 ± 16 229 ± 36 5 1 NRO 45 m 16.5 3
700 1142.6 263.0 2.6 ... IRAM 30 m 22.5 6
850 ± 40 1091.0 ± 5.6 190 4.19 ... IRAM 30 m 22.5 7
1300 ± 100 ... ... 5 1 NRO 45 m 16.5 8
SO (32 − 21) 109252.2 200 ± 100 1111.1 136.0 1.3 ... IRAM 30 m 22.5 6
< 250 .. ... ... ... NRO 45 m 16.5 8
HNCO (51, 5 − 41, 4) 109496.0 40 1100 230.0 0.2 ... IRAM 30 m 22.5 6
C18O (1 − 0) 109782.2 3300 ± 200 1127 ± 10 320 ± 24 11 1 NRO 45 m 16.5 3
3600 ± 200 1142.2 ± 6.1 230.0 13.0 ... IRAM 30 m 22.4 6
3900 ± 90 1100.5 ± 4.0 258.0 ± 9.4 14.02 ... IRAM 30 m 22.4 7
3300 ± 200 ... ... 11 1 NRO 45 m 16.5 8
4450 ± 120 1102 ± 4 264 ± 8 15.8 0.8 IRAM 30 m 22.4 14
HNCO (50, 5 − 40, 4) 109905.8 900 ± 100 1133 ± 15 209 ± 48 4 1 NRO 45 m 16.5 3
300 1100 230.0 1.3 ... IRAM 30 m 22.4 6
900 ± 100 ... ... 4 1 NRO 45 m 16.5 8
860 ± 90 1086 ± 11 210 ± 20 3.9 0.8 IRAM 30 m 22.4 14
13CO (1 − 0) 110201.4 8900 ± 200 1143 ± 5 241 ± 11 36 1 NRO 45 m 16.5 3
12 800 ± 700 1105.2 ± 3.6 252.1 ± 4.9 45.8 ... IRAM 30 m 22.3 6
13 100 ± 240 1100.8 ± 2.9 237.6 ± 5.8 49.36 ... IRAM 30 m 22.3 7
8900 ± 200 ... ... 36 1 NRO 45 m 16.5 8
15 200 ± 1800 ... ... 51 ... IRAM 30 m 21 15
HNCO (51, 4 − 41, 3) 110298.1 200 1100 230 0.7 ... IRAM 30 m 22.3 6
CH3CN (6k − 5k) 110383.5 1000 ± 200 1123 ± 31 287 ± 73 3 1 NRO 45 m 16.5 3
100 1100.0 150.0 0.8 ... IRAM 30 m 22.3 6
700 ± 490 1100 240 2.71 ... IRAM 30 m 22.3 7
1000 ± 200 ... ... 3 1 NRO 45 m 16.5 8
C17O (1 − 0) 112359.0 ... ... ... ∼5 ... NRO 45 m 15.2 3
CN (11/2, 3/2 − 01/2, 3/2) 113191.3 18 500 ± 300 1191 ± 3 275 ± 7 63 1 NRO 45 m 15.2 3
4500 1152.8 247.4 17.3 ... IRAM 30 m 21.7 6
13 150 ± 100 1114.0 ± 1.0 224.4 ± 2.5 43.20 ... IRAM 30 m 21.7 7
... ... 136 ± 54 22.0 13.4 SEST 15 m 45 12 (b)
154 11.7 ...
CN (13/2, 5/2 − 01/2, 3/2) 113491.0 27 600 ± 400 1191 ± 2 239 ± 5 110 2 NRO 45 m 15.2 3
12 100 1152.8 247.4 46.0 ... IRAM 30 m 21.7 6
25 790 ± 190 1110.4 ± 1.0 224.4 ± 2.5 87.19 ... IRAM 30 m 21.7 7
46 100 ± 500 ... ... 110 2 NRO 45 m 15.2 8
... ... 94 ± 42 18.0 18.6 SEST 15 m 45 12 (b)
154 27.3 6.6
C34S (3 − 2) 114617.1 530 ± 120 1070 ± 30 230 ± 60 2.2 1.0 IRAM 30 m 21.5 14
NS (31 − 21) 115153.9 400 1100 140 2.8 ... IRAM 30 m 21.4 6
CO (1 − 0) 115271.2 155000 ± 1000 1143 ± 3 237 ± 7 638 16 NRO 45 m 15.2 3
172 200 ± 4500 1168.3 ± 0.3 251.5 ± 0.4 618.0 ... IRAM 30 m 21.3 6
81 300 ± 1010 1168.1 ± 10.2 122.5 ± 10.8 624.39 ... IRAM 30 m 21.3 7
155 000 ± 1000 .. ... 638 16 NRO 45 m 15.2 8
177 000 ± 21000 ... ... ... ... IRAM 30 m 21 15
162 429 ± 16285 1007 ± 1 58 ± 3 321.7 21.3 SEST 15 m 44 12 (c)
1100 ± 3 156 ± 11 378.7 5.4
1234 ± 2 96 ± 4 37.6 15.4
NS (31 − 21) 115556.2 400 1100 140 2.8 ... IRAM 30 m 21.3 6
SiO (3 − 2) 130268.7 600 ± 60 1101 ± 10 190 ± 19 3.0 ... IRAM 30 m 18.9 10
HNCO (61, 6 − 51, 5) 131885.7 560 ± 70 1114 ± 13 210 ± 30 2.5 0.6 IRAM 30 m 18.7 14
CS (3 − 2) 146969.0 9100 ± 1500 1100 245 30.0 10.0 IRAM 30 m 16.7 16
HC3N (18 − 17) 163753.4 578.9 ± 49.2 1086.8 ± 6.5 164.9 ± 18.1 3.30 0.54 IRAM 30 m 15.0 1, C
CH3OH (J1, J − 1 − J0, J)E (d) 165061.2 551.5 ± 47.0 1137.0 225.9 2.29 0.59 IRAM 30 m 14.9 1, C
SO2 (52, 4 − 51, 5) (d) 165144.6 145.9 ± 43.2 1097.9 191.1 0.72 0.59 IRAM 30 m 14.9 1, C
CH3CN (9k − 8k) 165569.1 213.6 ± 63.0 1145.2 ± 26.4 169.6 ± 35.3 1.18 0.63 IRAM 30 m 14.9 1, C
13CCH (2 − 1) 168274.5 300.6 ± 70.0 1089.7 ± 36.2 287.6 ± 62.1 0.98 0.58 IRAM 30 m 14.6 1, P
HCN (2 − 1) 177238.7 23609.0 ± 173.0 1072.4 ± 0.8 232.7 ± 2.0 95.32 2.05 IRAM 30 m 13.9 1, P
20 000 ± 400 ... 220 ± 10 ... ... IRAM 30 m 13.9 11
HCO+ (2 − 1) 178375.1 12976.0 ± 183.6 1116.1 ± 1.7 233.5 ± 3.7 52.21 2.14 IRAM 30 m 13.8 1, P
HOC+ (2 − 1) 178972.0 823.9 ± 151.7 1135.3 ± 16.5 181.1 ± 38.7 4.27 1.42 IRAM 30 m 13.7 1, P
HNC (2 − 1) 181324.7 3678.3 ± 613.2 1115.1 ± 10.1 117.9 ± 20.7 29.30 9.88 IRAM 30 m 13.6 1, P
C34S (4 − 3) 192818.5 < 920 ... ... ... ... CSO 10 m ... 17
CS (4 − 3) 195954.2 2053 ± 566 ... ... ... ... CSO 10 m 37.1 17
SO (55 − 44) 215220.8 553.1 ± 82.9 1135.1 ± 16.7 210.5 ± 34.6 2.47 0.79 IRAM 30 m 11.4 2
SiO (5 − 4) 217105.0 479.9 ± 81.1 1117.4 ± 11.1 137.8 ± 27.7 3.27 0.94 IRAM 30 m 11.3 2
HC3N (24 − 23) 218324.7 2030 ± 180 1102 ± 13 257.3 ± 24.0 6.2 1.2 SMT 10 m 33 18
C18O (2 − 1) 219560.4 3438.3 ± 350.0 1105.4 ± 5.1 173.2 ± 13.8 18.70 1.80 IRAM 30 m 11.2 2
2000 ± 200 1067 ± 12 210 ± 30 9.0 1.9 IRAM 30 m 11.2 14
6842 ± 412 ... ... ... ... CSO 10 m ... 17
SO (56 − 45) (e) 219949.4 < 5070.6 ± 364.1 1217.2 ± 20.9 571.6 ± 43.7 8.33 1.80 IRAM 30 m 11.2 2
HNCO (100, 10 − 90, 9) 219798.3 < 400 ± 70 ... 210 < 2.1 ... IRAM 30 m 11.2 14
13CO (2 − 1) 220398.7 13314.0 ± 126.7 1134.8 ± 1.1 224.8 ± 2.3 55.60 1.80 IRAM 30 m 11.2 2
15 000 ± 1800 ... ... 56 ... IRAM 30 m 12 15
17 100 ± 2000 ... ... 46 ... JCMT 15 m 21 15
20 790 ± 382 ... ... ... ... CSO 10 m ... 17
CH3CN (120 − 110) (e) 220747.3 < 2084.2 ± 385.8 1132.1 ± 36.7 377.9 ± 70.1 5.18 1.80 IRAM 30 m 11.1 2
C17O (2 − 1) 224714.4 921 ± 307 ... ... ... ... CSO 10 m ... 17
H2CO (31, 2 − 21, 1) 225697.8 1190.0 ± 170.6 1161.7 ± 14.8 208.3 ± 33.5 5.37 2.13 IRAM 30 m 10.9 2
SO2 (143, 11 − 142, 12) 226300.0 2947.8 ± 175.5 1097.9 ± 5.8 191.1 ± 12.2 14.49 2.50 IRAM 30 m 10.9 2
CN (23/2, 5/2 − 11/2, 3/2) 226659.5 10231.0 ± 372.6 1150.3 ± 3.9 233.1 ± 8.9 41.24 2.50 IRAM 30 m 10.9 2
2808 ± 831 1159 ± 42 265 10.6 3.1 JCMT 15 m 21 19
... ... 154 12.2 1.8 SEST 15 m 23 12 (f)
CN (25/2, 7/2 − 13/2, 5/2) 226874.8 16479.0 ± 342.2 1144.7 ± 2.3 226.5 ± 4.9 68.36 2.50 IRAM 30 m 10.8 2
8464 ± 672 1151 ± 15 265 ± 35 31.9 2.5 JCMT 15 m 21 19
... ... 154 ± 66 20.4 1.8 SEST 15 m 23 12 (f)
14342 ± 265 ... ... ... ... CSO 10 m ... 17
CO (2 − 1) 230538.0 266 000 ± 32000 ... ... 1080 ... IRAM 30 m 12 15
220 000 ± 26 000 ... ... 690 ... JCMT 15 m 21 15
203 600 ± 20 500 1007 ± 2 63 ± 9 313.3 49.2 JCMT 15 m 21 12 (c)
112 ± 4 179 ± 16 802.0 13.3
1245 ± 3 81 ± 10 337.4 57.3
241711 ± 554 ... ... ... ... CSO 10 m ... 17
CH3CCH (14k − 13k) 239252.3 1355.4 ± 265.3 1170.5 ± 35.7 344.2 ± 70.4 3.70 1.73 IRAM 30 m 10.3 2 (g)
C34S (5 − 4) 241016.1 1184 ± 312 ... ... ... ... CSO 10 m ... 17
HNCO (110, 11 − 100, 10) 241774.0 1602.4 ± 194.7 1121.7 ± 14.8 236.4 ± 30.6 6.37 1.66 IRAM 30 m 10.2 2
CS (5 − 4) 244935.6 2703.2 ± 187.4 1148.8 ± 6.7 189.8 ± 13.9 13.38 1.88 IRAM 30 m 10.0 2
3300 ± 300 1125 ± 9 180 ± 20 17.6 3 IRAM 30 m 10.0 14
1618 ± 303 ... ... ... ... CSO 10 m 30.8 17
HC15N (3 − 2) 258157.0 < 460(2σ) ... ... ... ... APEX 12m 23. 5 5
H13CN (3 − 2) 259011.8 < 460(2σ) ... ... ... ... APEX 12m 23. 5 5
H13CO+ (3 − 2) 260255.3 < 570(2σ) ... ... ... ... APEX 12m 23. 5 5
HN13C (3 − 2) 261263.4 < 450(2σ) ... ... ... ... APEX 12m 23. 5 5
C2H (3 − 2) 262 250 1579 ± 259 ... ... ... ... CSO 10 m ... 17
HCN (3 − 2) 265886.2 19 000 ± 600 ... 220 ± 10 ... ... IRAM 30 m 9.3 11
22 700 ± 2500 1103 ± 7 275 ± 17 81.2 4.0 JCMT 15 m 18 12
11 184 ± 342 ... ... ... ... CSO 10 m 29 17
4000 ± 600 1145 85 32 7 CSO 10 m 27 20
HCO+ (3 − 2) 267557.6 7600 ± 800 ... 234 ± 4 ... ... IRAM 30 m 9.2 11
7342 ± 461 ... ... ... ... CSO 10 m 29 17
HOC+ (3 − 2) 268451.1 < 526 ... ... ... ... CSO 10 m ... 17
HNC (3 − 2) 271981.1 3500 ± 600 1071 ± 9 134 ± 23 21.5 3.0 JCMT 15 m 18 12 (b)
1250 ± 24 70 ± 58 6.2 4.2
2829 ± 276 ... ... ... ... CSO 10 m 28 17
Unidentified 290020 2500 ± 417 ... ... ... ... CSO 10 m ... 17
CS (6 − 5) 293912.1 1539 ± 513 ... ... ... ... CSO 10 m 26.3 17
CO (3 − 2) 345796.0 166 000 ± 20 000 ... ... 630 ... JCMT 15 m 14 15
13CO (3 − 2) 330588.0 10700 ± 1300 ... ... 43 ... JCMT 15 m 14 15
CN (35/2, 5/2 − 25/2, 5/2) 339475.9 461 ± 168 1216 ± 33 132 3.5 1.3 JCMT 15 m 15 19
CN (35/2, 7/2 − 25/2, 7/2) 339516.7 1048 ± 189 1076 ± 14 132 ± 34 7.9 1.4 JCMT 15 m 15 19
CS (7 − 6) 342882.9 1400 ± 500 1125.4 ± 49.0 279.0 ± 99.3 4.8 8.1 JCMT 15 m 14 21
HCN (4 − 3) 354505.5 13 900 ± 1600 1123 ± 6 202 ± 14 65.9 3.8 JCMT 15 m 14 21
9000 ± 500 ... ... ... ... JCMT 15 m 14 22
HCO+ (4 − 3) 356734.1 3800 ± 500 1112 ± 8 166 ± 19 23.7 2.2 JCMT 15 m 14 19
3400 ± 800 ... ... ... ... JCMT 15 m 14 22
HNC (4 − 3) 362630.3 2700 ± 300 1116 ± 18 218 ± 47 10.6 1.7 JCMT 15 m 14 19
CO (4 − 3) 461040.8 290 000 ± 35 000 ... ... 1060 ... JCMT 15 m 11 15

Notes. The fluxes are in Tmb scale. We do not give the uncertainties, which cannot be found in the corresponding literature.

(a)

We fit a Gaussian profile with the velocity and width fixed to the velocity of the HC3N (10 − 9) transition.

(b)

Two velocity components are included for the Gaussian fitting. The total flux of the CN (1 − 0) transition is 9400 ± 1000 mK km s−1.

(c)

Three velocity components are included for the Gaussian fitting.

(d)

CH3OH (J1, J − 1 − J0, J)E and SO2 (52, 4 − 51, 5) are blended. We fit their profiles with velocities and widths fixed to those of the CH3OH (2k − 1k) and SO2 (143, 11 − 142, 12) transitions, respectively.

(e)

CH3CN (120 − 110), 13CO (2 − 1), SO (56 − 45) and C18O (2 − 1) are blended. The integrated intensities of SO (56 − 45) and CH3CN (120 − 110) are upper limits.

(f)

The total flux of the CN (2 − 1) transition is 6100 ± 700 mK km s−1.

(g)

This transition was newly discovered in the spectra of Qiu et al. (2017).

Reference. (1) This work; (2) Qiu et al. (2017); (3) Takano et al. (2019); (4) Nakajima et al. (2011); (5) Wang et al. (2014); (6) Aladro et al. (2013); (7) Aladro et al. (2015); (8) Nakajima et al. (2018); (9) Costagliola et al. (2011); (10) Usero et al. (2004); (11) Krips et al. (2008); (12) Pérez-Beaupuits et al. (2007); (13) Huettemeister et al. (1995); (14) Martín et al. (2009b); (15) Israel (2009); (16) Mauersberger et al. (1989); (17) Kamenetzky et al. (2011); (18) Jiang et al. (2017); (19) Pérez-Beaupuits et al. (2009); (20) Paglione et al. (1997); (21) Bayet et al. (2009); (22) Tan et al. (2018).

Remarks. (P) measurements based on the present observations; (A) measurements based on the co-added spectra of the present observations and those of Qiu et al. (2017) and Aladro et al. (2013); (C) measurements based on the coadded spectra of our observations and those of Qiu et al. (2017).

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