Free Access
Table A.1
Line identifications.
Freq. (MHz) | Molecular lines1 | Comments2 |
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218 132 | EE−(CH3)2CO 202,18–193,17, 203,18–193,17, 202,18–192,17, 203,18–192,17, | |
aGg’-(CH2OH)2, HCOOH | ||
218 143 | U | |
218 157 | U | |
218 163 | AA−(CH3)2CO 202,18–193,17,CH2OHCHO | |
218 181 | aGg’-(CH2OH)2 184,0–183,1, 185,0–184,1 | |
218 199 | O13CS 18–17 | |
218 222 | p-H2CO 30,3–20,2 | |
218 238 | aGg’-(CH2OH)2 2217,5–2117,4, 2217,6–2117,5 | |
218 259 | A-CH3OCHO 319,23–318,24, CH2OHCHO | |
218 282 | E-CH3OCHO 17−3,14–16−3,13 | |
218 298 | A-CH3OCHO 173,13–163,13 | |
218 316 | CH2DOH 52,4–51,5 | |
218 324 | HC3N 24–23, CH2OHCHO | |
218 336 | U | |
218 371 | aGg’-(CH2OH)2 224,19–214,18 | |
218 380 | aGg’-(CH2OH)2 2215,7–2115,6, 2215,8–2115,7 | |
218 389 | CH3CH2CN 243,21–233,20, CH3OCOD | |
218 404 | A-CH2DOCOH 185,14–175,13, S-CH2DOCOH, CH3OCOD | |
218 440 | E-CH3OH 42–31 | |
218 460 | NH2CHO 101,9–91,8, T-CH3CH2OH | |
218 475 | p-H2CO 32,2–22,1 | |
218 493 | CH3OCH3 233,21–232,22 | |
218 519 | E-CH3OCOD 186,13–176,12 | |
218 526 | A-CH3OCOD 186,13–176,12 | |
218 541 | HCOOD 103,7–93,6 | |
218 554 | T-CH3CH2OH 215,16–214,17 | |
218 576 | aGg’-(CH2OH)2 2213,10–2113,9, 2213,9–2113,8 | |
218 585 | A-CH3OCHO 369,28–368,29 | |
218 594 | A-CH3OCHO 277,21–275,22 | |
218 611 | U | |
218 632 | EE−(CH3)2CO 129,4–118,3, CH3OCHO 277,21–27−5,22 | |
218 655 | T-CH3CH2OH 72,5–61,6, CH3OCHO νt = 1 | |
218 672 | A-CH3CHO νt = 1 287,22–285,23 | |
218 681 | E-CH3CHO νt = 1 33−9,25–33−8,26 | |
218 688 | CH2DOH 174,13–165,12 | |
218 696 | CH2DOH 174,14–165,11 | |
218 707 | aGg’-(CH2OH)2 2212,10–2112,9, 2212,11–2112,10 | |
218 730 | S-CH2DOCOH 194,16–184,15, wing of C3H2 60,6–51,5? | |
218 738 | CH3CH2CN ν13 = 1 /ν21 = 1 243,22–233,21, 243,21–233,20, CH3CHO νt = 1 | |
218 760 | p-H2CO 32,1–22,0 | |
218 774 | AE−(CH3)2CO 129,4–118,3 | |
218 782 | U | |
218 796 | CH2DOH 201,20–192,17, G-CH3CH2OH, CH3OCOD | |
218 815 | E-CH3OH νt = 2 16-8–15-9, AA−(CH3)2CO | |
218 830 | E-CH3OCHO νt = 1 1813,5–1713,4 | |
218 850 | U | |
218 860 | HC3N ν7 = 1 24-1–23-1 | |
218 873 | aGg’-(CH2OH)2 2211,12–2111,11, 2211,11–2111,10 | |
218 903 | OCS 18–17 | |
218 914 | U | |
218 922 | U | |
218 938 | HCOOH 81,8–70,7 | |
218 955 | A-13CH3OCHO 408,33–399,30 | |
218 967 | E-CH3OCHO νt = 1 1812,6–1712,5, CH2OHCHO, CH2DOCOH, | |
13CH3OCHO | ||
218 980 | HNCO 101,10–91,9, HN13CO | |
219 007 | S-CH2DOCOH 329,23–328,24 | |
219 019 | S-CH2DCH2CN 271,27–261,26 | |
219 037 | CH2OHCHO 3910,30–399,31 | |
219 067 | CH2OHCHO 272,25–272,26, 272,25–271,26, CH3OCHO νt = 1, 13CH3OCHO, | |
CH2DCH2CN | ||
219 078 | E-CH3OCHO νt = 1 283,25–282,26, AE-(CH3)2CO, EA-(CH3)2CO | |
219 090 | aGg’-(CH2OH)2 2210,13–2110,12, 2210,12–2110,11,CH3OCHO | |
219 098 | A-CH2DOCOH 186,12–176,11, 13CH3OCHO, CH2OHCHO, HCOOH | |
219 108 | A-CH3OCHO 347,28–345,29 | |
219 115 | U | |
219 123 | CH2OHCHO 293,26–292,27 | |
219 132 | S-CH2DOCOH 198,12–188,11, 198,11–188,10 | |
219 143 | U | |
219 154 | A-CH3OCHO νt = 1 1811,7–1711,6, 104,6–93,6 | |
219 171 | OCS ν2 = 1 18-1–17-1 , T-CH3CH2OH, HC3N ν7 = 1 | |
219 188 | EE−(CH3)2CO 55,1–54,1 | |
219 196 | U | |
219 204 | CH2DOH 205,16–196,13, 205,15–196,14 | |
219 220 | AE-(CH3)2CO 211,20–202,19, 212,20–201,19, EA-(CH3)2CO, | |
CH3CH2CN ν13/ν21 = 1 | ||
219 228 | CH2OHCHO 315,27–313,28 | |
219 242 | A-CH3OCOD 210,21–201,20, 211,21–201,20, 210,21–200,20, 211,21–200,20 , EE-(CH3)2CO | |
219 264 | AA-(CH3)2CO 211,20–202,19, 212,20–201,19, CH3OCHO | |
219 276 | SO2 227,15–236,18 | |
219 295 | S-CH2DCH2CN 263,24–253,23, CH3CHO | |
219 305 | CH3OCH3 316,26–307,23, CH2OHCHO | |
219 311 | AA-(CH3)2CO 129,4–118,3 | |
219 321 | CH3CH2CN ν13 = 1/ν21 = 1 251,25–241,24, 252,25–242,23, CH3OCHO νt = 1 | |
219 330 | E-CH3OCHO νt = 1 18−15,4–17−15,3 | |
219 341 | H13COOH 100,10–90,9 | |
219 355 | 34SO2 111,10–100,10 | |
219 370 | S-CH2DCH2CN 2612,14–2512,13, 2612,15–2512,14 | |
219 386 | aGg’-(CH2OH)2 229,14–219,13, 229,13–219,12 | |
219 389 | U | |
219 398 | OCS ν2 = 1 18–17 | |
219 411 | E-CH3OCHO νt = 1 180,8–170,7 | |
219 441 | U | |
219 467 | CH3OCH3 285,24–276,21, CH3CH2CN, AE-(CH3)2CO, EA-(CH3)2CO | |
219 479 | CH3OCHO νt = 1 18−14,5–17−14,4,CH3OCHO | |
219 490 | DC3N 26–25 | |
219 506 | CH3CH2CN 242,22–232,21 | |
219 512 | U | |
219 541 | aGg’-(CH2OH)2 222,21–212,20 | |
219 550 | HNCO 104,6–94,5, 104,7–94,6, CH3OH | Partially overlapped with C18O |
219 560 | C18O 2–1 | |
219 570 | A-CH3OCHO νt = 1 1815,4–1715,3, 1815,3–1715,2, 1816,2–1716,1, 1816,3–1716,2 | Partially overlapped with C18O |
219 580 | aGg’-(CH2OH)2 221,21–211,20, CH3OCHO | |
219 584 | A-CH3OCHO νt = 1 1813,6–1713,5, 1813,5–1713,4, CH3OCHO | |
219 593 | E-CH3OCHO 28−9,19–28−8,20, CH3OCOD,CH2OHCHO | |
219 600 | E-CH3OCHO 309,22–308,23 | |
219 607 | E-CH3OCHO 305,26–30−3,27, EE-(CH3)2CO | |
219 622 | A-CH3OCHO νt = 1 1812,6–1712,5, 1812,7–1712,6 | |
219 642 | E-CH3OCHO νt = 1 18−13,6–17−13,5 | |
219 657 | HNCO 103,7–93,6, HN13CO | |
219 674 | A-CH3OCHO 305,26–303,27 | |
219 696 | A-CH3OCHO νt = 1 1811,8–1711,7, 1811,7–1711,6 | |
219 705 | A-CH3OCHO νt = 1 184,15–174,14 | |
219 720 | E-CH3OCHO νt = 1 32−9,24–32−8,25, 28−4,25–282,26 | |
219 735 | HNCO 102,9–92,8, 102,8–92,7, HN13CO | |
219 751 | AA-(CH3)2CO 338,25–333,26, 339,25–337,26 | |
219 764 | E-CH3OCHO νt = 1 189,9–179,8, aGg’-(CH2OH)2 204,16–194,15 | |
219 780 | A-CH3CHO νt = 2 111,10–101,9, CH3OCHO νt = 1 | |
219 798 | HNCO 101,10–90,9 | |
219 804 | aGg’-(CH2OH)2 228,15–218,14, HN13CO | |
219 823 | A-CH3OCHO νt = 1 1810,9–1710,8, 1810,8–1710,7 , AE-(CH3)2CO, EA-(CH3)2CO, | |
CH3CHO | ||
219 863 | U | |
219 876 | U | |
219 894 | U | |
219 900 | U | CH2CHCN 102,9–91,8 |
219 908 | o-H213CO 31,2–21,1 | |
219 916 | U | E-CD3CN 145–135 |
219 949 | SO 56–45 | |
219 965 | U | A-CD3CN 143–133 |
219 980 | U | E-CD3CN 142–132 |
219 991 | U | A-CD3CN 140–130 |
220 030 | CH3OCHO νt = 1 189,10–179,9, 189,9–179,8 | |
220 037 | HCOOH 100,10–90,9, CH3OCHO νt = 1 | |
220 054 | CH2OHCHO 3510,26–359,27, | |
220 077 | E-CH3OH 80,8–71,6, CH2DOH | |
220 094 | aGg’-(CH2OH)2 2411,13–2410,15, 2411,14–2410,14 | |
220 140 | U | |
220 155 | T-CH3CH2OH 243,22–242,23 | |
220 167 | E-CH3OCHO 17−4,13–16−4,12, AA-(CH3)2CO | |
220 178 | o-H2CCO 111,11–101,10 | |
220 190 | A-CH3OCHO 174,13–164,12 | |
220 196 | CH2OHCHO 76,2–65,1, 76,1–65,2 | |
220 203 | CH2OHCHO 114,7–103,8 | |
220 225 | U | |
220 235 | E-CH3CN 1211–1111 | |
220 243 | U | |
220 258 | E-CH3OCHO νt = 1 188,10–178,9, CH2DOCOH | |
220 270 | U | |
220 279 | U | |
220 300 | A-CH2DOCOH 201,19–191,18, CH313CN | |
220 307 | E-CH3OCHO νt = 1 18−10,9–17−10,8 | |
220 321 | A-13CH3OH 177,11–186,12, 177,10–186,13, CH3CN | |
220 332 | U | |
220 345 | U | CH2CHCN 94,5–103,8, G+CH3CH2OH |
CH2DOCOH | ||
220 355 | AE-(CH3)2CO 221,22–211,21, 220,22–210,21, EA-(CH3)2CO | |
220 361 | EE-(CH3)2CO 220,22–211,21, 221,22–211,21, 221,22–210,21, 220,22–210,21 | |
220 368 | A-CH3OCHO νt = 1 188,11–178,10, 188,10–178,9, AA-(CH3)2CO, EA-(CH3)2CO | |
220 390 | H13CC2N 25-24 | Partially blended with 13CO |
220 398 | 13CO 2-1, CH3OH | |
220 403 | A-CH3CN 129–119, aGg’-(CH2OH)2 | Partially blended with 13CO |
220 409 | E-CH3OCHO νt = 1 18−4,15–17−4,14 | Partially blended with 13CO |
220 417 | A-CH3OCHO νt = 1 183,16–172,15 | |
220 427 | U | |
220 446 | A-CH3CHO 214,18–221,21 | |
220 466 | CH2OHCHO 202,18–193,17, AE-(CH3)2CO | |
220 476 | E-CH3CN 128–118 | |
220 486 | A-CH313CN 126–116 | |
220 498 | aGg’-(CH2OH)2 227,15–217,14 | |
220 504 | 33SO2 271–2728, 271–2727 | |
220 525 | A-CH3OCHO νt = 1 104,6–93,7 | |
220 532 | E-CH313CN 125–115 | |
220 540 | E-CH3CN 127–117 | |
220 551 | CH2DOH 171,16–170,17 | |
220 570 | E-CH313CN 214,18–221,21 | |
220 585 | HNCO 101,9–91,8 | |
220 595 | A-CH3CN 126–116 | |
220 602 | T-CH3CH2OH 131,13–120,12 | |
220 606 | E-CH3OCHO ν=1 18−3,16–172,15 | |
220 622 | E-CH313CN 122–112 | |
220 640 | E-CH3CN 125–115 | |
220 647 | E-CH3OCHO νt = 1 18−9,10–17−9,9 | |
220 662 | CH3CH2CN 252,24–242,23, EE- (CH3)2CO | |
220 679 | E-CH3CN 124–114 | |
220 695 | AE-(CH3)2CO 295,25–294,26, 294,25–293,26 | CH2CHCN ν=1 103,7–102,8 |
220 701 | CH2OHCHO 409,32–408,33 | |
220 709 | A-CH3CN 123–113 | |
220 730 | E-CH3CN 122–112 | |
220 745 | A-CH3CN 120–110, E-CH3CN 121–111 | |
220 764 | EE-(CH3)2CO 1111,9–1010,0 | |
220 785 | E-CH3OCHO 28−3,25–283,26, CH3OCHO νt = 1 | |
220 793 | U | |
220 814 | E-CH3OCHO 28−3,25–28−2,26 | |
220 847 | CH3OCH3 244,20–235,19 | |
220 857 | U | |
220 866 | CH3OCHO νt = 1 192,17–183,16, CH3OCHO, G-CH3CH2OH, CH3CHO νt = 1 | |
220 887 | A-CH3OCHO 1817,1–1717,0, 1817,2–1717,1 | |
220 892 | CH3OCH3 234,20–233,21, CH3OCHO | |
220 901 | E-CH3OCHO 18−17,1–17−17,0 | |
220 913 | CH3OCHO νt = 1 187,12–177,11, CH3OCHO | |
220 926 | A-CH3OCHO 1816,3–1716,2, 1816,2–1716,1,CH2DOCOH, | |
AE-(CH3)2CO, EA-(CH3)2CO | ||
220 936 | E-CH3OCHO 18−16,2–17−16,1 | |
220 946 | A-CH3OCHO ν = 1 187,11–177,10, CH3OCHO | |
220 961 | AA-(CH3)2CO 1111,1–1010,0, 1111,0–1010,1,CH3OCHO,CH3NC | |
220 978 | A-CH3OCHO 1815,4–1715,3, 1815,3–1715,2,CH3CN ν8=1,EE-(CH3)2CO | |
220 985 | E-CH3OCHO νt = 1 187,11–177,10,CH3OCHO | |
220 989 | S-CH2DOCOH 196,13–186,12 | |
220 999 | G-CH3CH2OH 130,13–120,12,CH3OCHO | |
221 008 | aGg’-(CH2OH)2 214,18–204,17,CH2OHCHO | |
221 013 | E-CH3NC 115–105 | |
221 026 | A-CH3OCHO 366,30–365,31 | |
221 038 | aGg’-(CH2OH)2 226,17–216,16 | |
221 049 | A-CH3OCHO 1814,5–1714,4, 1814,4–1714,3 | |
221 059 | CH3CN ν8 = 1 128,1–118,1,CH3NC | |
221 066 | E-CH3OCHO 379,29–378,30 | |
221 077 | A-CH3OCHO 299,21–298,22, CH3CN ν8=1 | |
221 087 | E-CH3OCHO 299,21–298,22 | |
221 092 | A-CH3NC 113–103 | |
221 100 | aGg’-(CH2OH)2 225,18–215,17 | |
221 112 | E-CH3OCHO νt = 1 18−8,11–17−8,10, 34SO2 | |
221 119 | E-CH3NC 112–102 | |
221 132 | E-CH3NC 111–101,CH3CN ν8=1, CH3OCHO νt = 1 | |
221 138 | A-CH3NC 110–100 | |
221 141 | A-CH3OCHO 1813,6–1713,5, 1813,5–1713,4, E-CH3OCHO 18−13,5–17−13,4 | |
221 157 | E-CH3OCHO 1813,6–1713,5, CH2DOH, CH3OCOD | |
221 165 | A-CH3OCHO ν=1 378,30–377,31 | |
221 178 | CH2DOH 62,5-61,6, HDCS 71,6-61,5 | |
221 191 | p-D2CO 41,4–31,3 | |
221 198 | CH3OCH3 275,22–274,23,CH3CN ν8=1 | |
221 210 | CH3CN ν8=1 128,2–118,2 | |
221 216 | E-CH3CHO νt=2 112,10–102,9 | |
221 222 | A-CH3CHO νt = 1 221,21–220,22 | |
221 253 | CH3CN ν8=1 125,1–115,1 | |
221 266 | A-CH3OCHO 1812,7–1712,6, 1812,6–1712,5,CH3CN ν8=1 127,2–117,2 | |
221 273 | CH2DOH 51,5–41,4 | |
221 285 | E-13CH3OH 8−1,8-70,7, CH3OCHO | |
221 298 | A-CH3CHO 133,10–132,11, CH3CN ν8=1 124,1–114,1, CH3OCHO | |
221 312 | CH3CN ν8 = 1 126,2–116,2, NH2CHO | |
221 326 | U | |
221 338 | aGg’-(CH2OH)2 233,21–223,20,CH3CN ν8=1 123,1–113,1, aGg’-(CH2OH)2 | |
221 350 | CH3CN ν8 = 1 125,2–115,2 | |
221 367 | CH3CN ν8 = 1 122,1–112,1 | |
221 382 | CH3CN ν8 = 1 124,2–114,2 | |
221 392 | CH2DOH 101,10-90,9,CH3CN ν8=1 121,1–111,1 | |
221 404 | CH3CN ν8=1 123,2–113,2, CH2DOCOH,CH3OCHO | |
221 423 | A-13CH3OH νt = 1 61,6 - 72,5, CH3OCHO, CH3CN ν8 = 1 | |
221 433 | A-CH3OCHO 1811,8–1711,7, 1811,7–1711,6, CH3CH2CN ν13/ν21 = 1 | |
221 445 | E-CH3OCHO 1811,8–1711,7, CH3CH2CN ν13/ν21 = 1 | |
221 465 | CH2OHCHO 3410,25–349,26 | |
221 480 | E-CH3CHO νt = 1 238,15–247,17, CH3CHO νt = 2 | |
221 494 | aGg’-(CH2OH)2 125,8–114,8 | |
221 500 | EE-(CH3)2CO 272,25–272,26, 272,25–271,26, 273,25–272,26, 273,25–271,26 | |
221 519 | U | |
221 526 | EA-(CH3)2CO 3120,11–3117,14 | |
221 534 | U | |
221 547 | U | |
221 560 | A-CH2DOCOH 76,2–65,1, 76,1–65,2, S-CH2DOCOH 213,18–204,17, 509,41–508,42 | |
221 566 | U | |
221 582 | aGg’-(CH2OH)2 184,15–173,14 | |
221 597 | U | |
221 605 | U | |
221 627 | CH3CN ν8 = 1 121,2–11−1,2 | |
221 649 | E-CH3OCHO 18−10,8–17−10,7 | |
221 660 | A-CH3OCHO 1810,9–1710,8, 1810,8–1710,7, E-CH3OCHO 184,15–174,14 |
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