Deuteration around the ultracompact HII region Monoceros R2

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Volume 569 (September 2014)

A&A, 569 (2014) A19

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Table A.2

Gaussian fit parameters of the deuterated molecules at the IF and MP2 positions.

IF
Species	Trans	Freq	HPBW	Area	V	Width	T _MB
		(MHz)	(′′)	(K km s^-1)	(km s^-1)	(km s^-1)	(K)

C₂D	N = 2–1, J = 5 / 2–3 / 2, F = 5 / 2–3 / 2	144 243.05	16	0.045 ± 0.008^a	9.518 ± 0.050	7.3–11
	N = 2–1, J = 3 / 2–1 / 2, F = 5 / 2–3 / 2	144 296.72	16	< 0.024^b	rms^c = 8	W^d = 1	N ^c ^h = 2.5
	N = 3–2, J = 7 / 2–5 / 2, F = 7 / 2–5 / 2	216 373.32	16^∗	< 0.147^b	rms^c = 56	W^d = 1	N ^c ^g = 4
	N = 3–2, J = 5 / 2–3 / 2, F = 3 / 2–3 / 2	216 430.34	16^∗	< 0.225^b	rms^c = 56	W^d = 1	N ^c ^g = 4
DCN	J = 2–1, F = 1–0	144 826.82	16	0.072 ± 0.009	11.256 ± 0.053	0.784 ± 0.092	0.087
	J = 2–1, F = 1–0			0.179 ± 0.012	12.470 ± 0.043	1.342 ± 0.110	0.125
	J = 2–1, F = 2–1	144 828.00	16	0.692 ± 0.021	10.818 ± 0.024	1.758 ± 0.064	0.367
	J = 2–1, F = 2–1			0.435 ± 0.010	12.434 ± 0.015	1.344 ± 0.038	0.304
	J = 2–1, F = 1–1	144 830.33	16	0.054 ± 0.021	10.806 ± 0.200	1.133 ± 0.530	0.045
	J = 2–1, F = 1–1			0.078 ± 0.022	12.389 ± 0.108	0.986 ± 0.361	0.074
	J = 3–2, F = 2–1	217 238.30	16^∗	1.730 ± 0.134	10.876 ± 0.048	1.677 ± 0.170	0.969
	J = 3–2, F = 2–1			0.382 ± 0.062	12.215 ± 0.069	0.874 ± 0.197	0.411
DNC	J = 2–1	152 609.74	16	0.029 ± 0.012	10.596 ± 0.148	1.145 ± 0.241	0.024
	J = 2–1			0.206 ± 0.010	12.136 ± 0.024	1.122 ± 0.056	0.173
	J = 3–2	228 910.48	16^∗	0.086 ± 0.013	10.634 ± 0.073	0.963 ± 0.169	0.085
	J = 3–2			0.413 ± 0.016	12.106 ± 0.016	0.889 ± 0.044	0.437
DCO⁺	J = 2–1	144 077.28	16	0.149 ± 0.015	10.623 ± 0.066	1.528 ± 0.225	0.092
	J = 2–1			0.269 ± 0.029	12.343 ± 0.76	5.829 ± 0.859	0.044
	J = 3–2	216 112.58	16^∗	0.392 ± 0.052	10.745 ± 0.074	1.164 ± 0.173	0.316
D₂CO	2(1,2)–1(1,1)	110 837.83	29	< 0.530^b	rms^c = 143	W^d = 1.5	N ^c ^e = 4.6
	2(1,2)–1(1,1)			< 0.335^b	rms^c = 143	W^d = 1.5	N ^c ^e = 1.9
HDCO	2(1,1)–1(1,0)	134 284.83	16	0.029 ± 0.003	9.859 ± 0.088	1.115 ± 0.206	0.0207
	2(1,1)–1(1,0)			0.035 ± 0.003	11.852 ± 0.081	1.493 ± 0.195	0.0223
	4(0,4)–3(0,3)	256 585.53	9	< 0.148^b	rms^c = 16	W^d = 1	N ^c ^g = 4
	4(0,4)–3(0,3)			< 0.375^b	rms^c = 16	W^d = 1	N ^c ^g = 4
	4(1,3)–3(1,2)	268 292.56	9	0.146 ± 0.026	11.076 ± 0.245	2.681 ± .527	0.0513
NH₂D	1(1,1)0s-1(0,1)0a, F = 2–1	85 926.27	29	0.030 ± 0.005	10.080 ± 0.194	1.491 ± 0.287	0.0191
N₂D⁺	J = 2–1	154 217.00	16	0.017 ± 0.009	7.881 ± 0.296	1.306 ± 0.517	0.0121
	J = 2–1			0.054 ± 0.013	10.568 ± 0.220	2.673 ± 0.900	0.0191
	J = 3–2	231 321.82	9	< 0.059^b	rms^c = 29	W^d = 1	N ^c ^f = 6

MP2
Species	Trans	Freq	HPBW	Area	V	Width	T _MB
		(MHz)	(′′)	(K km s^-1)	(km s^-1)	(km s^-1)	(K)

C₂D	N = 2–1, J = 5 / 2–3 / 2, F = 5 / 2–3 / 2	144 243.05	16	0.132 ± 0.023	8.557 ± 0.044	1.116 ± 0.118	0.112
	N = 2–1, J = 5 / 2–3 / 2, F = 5 / 2–3 / 2	144 241.93	16	0.147 ± 0.012	8.488 ± 0.042	1.198 ± 0.140	0.118
	N = 2–1, J = 5 / 2–3 / 2, F = 5 / 2–3 / 2			0.040 ± 0.009	10.201 ± 0.118	1.051 ± 0.240	0.036
	N = 2–1, J = 3 / 2–1 / 2, F = 5 / 2–3 / 2	144 297.66	16	0.048 ± 0.005	8.517 ± 0.038	1.027 ± 0.181	0.057
	N = 3–2, J = 7 / 2–5 / 2, F = 7 / 2–5 / 2	216 373.32	16^∗	0.392 ± 0.073	8.838 ± 0.147	1.699 ± 0.398	0.217
	N = 3–2, J = 5 / 2–3 / 2, F = 3 / 2–1 / 2	216 428.76	16^∗	0.575 ± 0.090	9.108 ± 0.260	3.287 ± 0.487	0.164
DCN	J = 2–1, F = 1–0	144 826.82	16	0.261 ± 0.019	8.591 ± 0.404	1.471 ± 0.063	0.183
	J = 2–1, F = 1–0			0.187 ± 0.026	10.069 ± 0.189	2.713 ± 0.202	0.065
	J = 2–1, F = 2–1	144 828.00	16	0.743 ± 0.008	8.537 ± 0.005	1.238 ± 0.017	0.564
	J = 2–1, F = 2–1			0.176 ± 0.006	9.965 ± 0.014	0.905 ± 0.028	0.182
	J = 2–1, F = 1–1	144 830.33	16	0.092 ± 0.010	8.664 ± 0.049	0.985 ± 0.084	0.087
	J = 2–1, F = 1–1			0.044 ± 0.012	1.100 ± 0.140	1.267 ± 0.236	0.033
	J = 3–2, F = 2–1	217 238.30	16^∗	0.974 ± 0.064	8.466 ± 0.037	1.151 ± 0.089	0.794
	J = 3–2, F = 2–1			0.401 ± 0.069	10.390 ± 0.117	1.418 ± 0.293	0.266
DNC	J = 2–1	152 609.74	16	0.484 ± 0.009	8.442 ± 0.008	0.936 ± 0.033	0.486
	J = 2–1			0.099 ± 0.012	10.016 ± 0.127	1.716 ± 0.367	0.055
	J = 2–1			0.043 ± 0.007	12.352 ± 0.071	0.990 ± 0.200	0.041
	J = 3–2	228 910.48	16^∗	0.451 ± 0.017	8.436 ± 0.015	0.806 ± 0.037	0.526
DCO⁺	J = 2–1	144 077.28	16	0.291 ± 0.016	8.575 ± 0.023	0.899 ± 0.061	0.304
	J = 2–1			0.140 ± 0.012	10.102 ± 0.056	1.305 ± 0.140	0.100
	J = 3–2	216 112.58	16^∗	0.467 ± 0.051	8.360 ± 0.053	0.976 ± 0.120	0.453
	J = 3–2			0.135 ± 0.046	10.047 ± 0.125	0.756 ± 0.280	0.168
D₂CO	2(1,2)–1(1,1)	110 837.83	29	0.056 ± 0.042	9.290 ± 0.950	3.193 ± 2.280	0.016
				0.044 ± 0.035	11.430 ± 0.334	1.250 ± 0.684	0.033
HDCO	2(1,1)–1(1,0)	134 284.83	16	0.103 ± 0.009	8.300 ± 0.020	0.918 ± 0.052	0.106
	2(1,1)–1(1,0)			0.015 ± 0.005	9.615 ± 0.097	0.759 ± 0.177	0.192
	4(0,4)–3(0,3)	256 585.53	9	0.402 ± 0.011	8.362 ± 0.077	0.741 ± 0.026	0.510
	4(2,3)–3(2,2)	257 748.70	9	0.105 ± 0.010	8.558 ± 0.034	0.676 ± 0.071	0.146
	4(1,3)–3(1,2)	268 290.56	9	0.450 ± 0.050	7.855 ± 0.049	0.874 ± 0.053	0.484
NH₂D	1(1,1)0s-1(0,1)0a, F = 2–1	85 926.27	29	0.067 ± 0.005	8.704 ± 0.083	1.812 ± 0.179	0.035
	1(1,1)0s-1(0,1)0a, F = 2–1			0.027 ± 0.005	11.108 ± 0.145	1.200 ± 0.562	0.022
N₂D⁺	J = 2–1	154 217.00	16	< 0.011^b	rms^c = 50	W^d = 1	N ^c ^f = 2.6
	J = 2–1			< 0.011^b	rms^c = 50	W^d = 1	N ^c ^f = 2.6
	J = 3–2	231 321.82	9	< 0.977^b	rmsc = 50	W^d = 1	N ^c ^g = 6

Notes.

^(a)

Area calculated between two velocities.

^(b)

Upper limit of the area, assuming a Gaussian profile.

^(c)

Noise in mK.

^(d)

Assumed width from the detected isotopologs.

^(e)

Number of channels assuming a spectral resolution of D_v = 0.54.

^(f)

Number of channels assuming a spectral resolution of D_v = 0.38.

^(g)

Number of channels assuming a spectral resolution of D_v = 0.25.

^(h)

Number of channels assuming a spectral resolution of D_v = 0.40.

^(*)

Spectrum obtained by convolving the map with a Gaussian to obtain the same spatial resolution of the lower-frequency transition.

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