A rigorous detection of interstellar CH3NCO: An important missing species in astrochemical networks

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Volume 587 (March 2016)

A&A, 587 (2016) L4

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Table A.1

Parameters of the linear rotor-type, J(J + 1) power series fitted to the assigned line sequences.

K^a	Name^b	I_rel^c	N_in^d	N_rej^e	s^f (MHz)	B^g (MHz)	D_J (kHz)	H_J (Hz)	L_J (mHz)	P_J (μHz)	P₁₂ (nHz)	P₁₄ (pHz)	P₁₆ (fHz)	P₁₈ (aHz)

ν_b = 0 , m = 0 (gs): E_vib = 0 cm ^-1
0	V093:	0.885	41	1	0.046	4335.6996 (13)	8.4815 (43)	0.1971 (58)	0.0728 (33)	–0.00909 (69)
1L	V126:	0.842	38	2	0.048	4297.6203 (10)	3.3744 (21)	0.1133 (16)	–0.00393 (41)
1U	V131:	0.819	38	2	0.062	4376.1857 (14)	4.2752 (30)	–0.0053 (24)	0.00245 (67)
2L	V089:	0.833	38	1	0.055	4339.69609 (82)	3.28715 (94)	0.03891 (31)
2U	V006:	0.901	38	1	0.052	4339.6811 (16)	–2.8764 (56)	–0.1690 (77)	–0.0676 (47)	0.0079 (10)
3L	V096:	0.727	35	4	0.063	4324.6816 (20)	5.1755 (65)	–0.2787 (86)	0.1698 (50)	–0.0156 (10)
3U	V097:	0.726	35	4	0.054	4324.6762 (18)	5.1686 (55)	–0.1769 (74)	0.1479 (43)	–0.01455 (89)

ν_b = 0, m = 1 E : E_vib = 8.4 cm ^-1
0a	V107:	0.808	22	0	0.051	4357.5774 (71)	132.34 (14)	86.4 (14)	226.1 (67)	–665. (17)	719. (21)	–298. (11)
0b	X107:	0.808	20	0	0.056	4348.7 (10)	116.2 (37)	146.2 (74)	–125.4 (87)	71.4 (65)	–25.9 (29)	5.39 (74)	–0.493 (81)
–1	V101:	0.836	39	1	0.050	4282.7615 (32)	–3.118 (26)	9.39 (10)	–10.67 (19)	6.64 (21)	–2.59 (13)	0.590 (44)	–0.0593 (59)
1	V098:	0.846	36	5	0.048	4284.5720 (42)	–35.940 (44)	–45.38 (21)	49.98 (57)	–45.27 (87)	29.62 (81)	–12.71 (44)	3.16 (12)	–0.342 (15)
–2	not assigned
2	V010:	0.660	31	2	0.042	4350.3415 (23)	–2.325 (15)	–0.065 (46)	–0.290 (64)	0.284 (43)	–0.109 (11)
–3	V005:	0.800	36	2	0.058	4343.3487 (25)	0.096 (11)	0.288 (25)	–0.381 (25)	0.202 (12)	–0.0848 (22)
3	V012:	0.642	34	3	0.049	4356.1489 (11)	1.6845 (24)	–0.0204 (19)	0.00189 (52)

ν_b = 0 , m = −2 E : E_vib = 36.8 cm ^-1

0	V119:	0.774	36	1	0.050	4356.2099 (29)	2.431 (15)	0.837 (33)	–2.676 (29)
–1	V008:	0.708	38	2	0.062	4353.2529 (11)	1.0831 (14)	0.0	0.00928 (84)	–0.00378 (31)
1	V180:	0.807	40	0	0.188	4350.771 (14)	–40.79 (16)	–39.36 (81)	–24.5 (22)	74.5 (34)	–69.5 (32)	34.7 (17)	–9.27 (54)	1.045 (69)
–2	not assigned
2	V100:	0.805	39	0	0.084	4276.5950 (66)	–51.195 (68)	–64.24 (33)	63.79 (84)	–50.5 (12)	29.3 (11)	–11.35 (59)	2.60 (17)	–0.262 (20)
–3	V024:	0.473	35	3	0.055	4366.9265 (12)	1.9129 (27)	–0.0098 (22)	0.00672 (61)
3a	V106:	0.523	21	0	0.043	4373.6038 (50)	110.306 (69)	93.71 (41)	–32.2 (12)	–11.7 (16)	10.81 (88)
3b	X106:	0.884	18	0	0.052	4370.20 (59)	103.8 (16)	95.6 (24)	–55.9 (22)	20.9 (11)	–4.49 (32)	0.438 (38)

ν_b = 0 , m = 3 L (K = 0,J = 0,1 = A₁,A₂) : E_vib = 80.3 cm ^-1

0	V017:	0.556	38	2	0.061	4361.0342 (19)	0.6664 (66)	0.0255 (94)	0.0843 (57)	–0.0269 (12)
–1	V137:	0.654	37	2	0.093	4376.0833 (78)	–11.011 (83)	3.34 (41)	–25.5 (11)	21.8 (17)	–17.3 (16)	11.56 (91)	–4.15 (27)	0.576 (34)
1	V082:	0.485	39	0	0.070	4362.15134 (58)	1.68176 (26)
–2	not assigned
2	V030:	0.399	35	3	0.067	4369.5669 (10)	1.9458 (12)	–0.00228 (41)
3	V040:	0.634	33	2	0.064	4378.65685 (60)	2.06406 (30)

ν_b = 0 , m = 3 U (K = 0,J = 1,0 = A₂,A₁) : E_vib = 79.7 cm ^-1

0	V018:	0.540	39	2	0.046	4361.4499 (14)	0.5247 (49)	0.0221 (69)	0.0949 (42)	–0.02898 (93)
1	V020:	0.491	36	3	0.044	4363.55034 (68)	1.72074 (80)	–0.00110 (27)
–1	not assigned
2	V029:	0.424	34	4	0.057	4369.57115 (94)	1.9779 (10)	0.00072 (36)
–2	not assigned
3	very strongly perturbed
ν_b = 0 , m = 4 E : E_vib = 140.6 cm^-1

0	V025:	0.416	37	3	0.052	4368.7341 (11)	1.5662 (25)	0.0039 (21)	0.00218 (57)

ν_b = 0 , m = −5 E : E_vib = 217.5 cm ^-1

0	V142:	0.297	38	1	0.049	4377.7029 (11)	1.8930 (23)	–0.0136 (19)	0.00256 (51)

ν_b = 1 , m = 0: E_vib = 182.2 cm ^-1

0	V094:	0.391	41	0	0.050	4335.3010 (15)	7.8017 (47)	0.2011 (63)	0.0443 (37)	–0.00561 (76)
1L	V127:	0.373	38	2	0.052	4297.1113 (11)	3.2544 (22)	0.0971 (17)	–0.00294 (44)
1U	V132:	0.365	36	3	0.048	4377.6225 (11)	4.2356 (24)	0.0116 (19)	0.00223 (53)

Notes.

^(a)

The value of the K_a or K quantum number following, where possible, the notation of Koput (1986) and described further in the text following Eq. (A.1).

^(b)

The identifier of the line sequence, identifiers Vnnn and Xnnn for the same “nnn” denote a two part sequence (Vnnn lower, Xnnn higher frequency part).

^(c)

Intensity of the sequence relative to the strongest sequence in the spectrum.

^(d)

The number of lines in the linear fit.

^(e)

The number of confidently assigned lines that were perturbed and were rejected from the fit.

^(f)

The standard deviation od the linear fit.

^(g)

The values of the parameters required in the linear fit.

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