2002A&A...391.1053O

Query : 2002A&A...391.1053O

2002A&A...391.1053O - Astronomy and Astrophysics, volume 391, 1053-1067 (2002/9-1)

Mass loss rates of a sample of irregular and semiregular M-type AGB-variables.

OLOFSSON H., GONZALEZ-DELGADO D., KERSCHBAUM F. and SCHOEIER F.L.

Abstract (from CDS):

We have determined mass loss rates and gas expansion velocities for a sample of 69 M-type irregular (IRV; 22 objects) and semiregular (SRV; 47 objects) AGB-variables using a radiative transfer code to model their circumstellar CO radio line emission. We believe that this sample is representative for the mass losing stars of this type. The (molecular hydrogen) mass loss rate distribution has a median value of 2.0x10^–7M_☉/yr, and a minimum of 2.0x10^–8M_☉/yr and a maximum of 8x10^–7M_☉/yr. M-type IRVs and SRVs with a mass loss rate in excess of 5x10^–7M_☉/yr must be very rare, and among these mass losing stars the number of sources with mass loss rates below a few 10^–8M_☉/yr must be small. We find no significant difference between the IRVs and the SRVs in terms of their mass loss characteristics. Among the SRVs the mass loss rate shows no dependence on the period. Likewise the mass loss rate shows no correlation with the stellar temperature. The gas expansion velocity distribution has a median of 7.0km/s, and a minimum of 2.2km/s and a maximum of 14.4km/s. No doubt, these objects sample the low gas expansion velocity end of AGB winds. The fraction of objects with low gas expansion velocities is very high, about 30% have velocities lower than 5km/s, and there are objects with velocities lower than 3km/s: V584 Aql, T Ari, BI Car, RX Lac, and L2 Pup. The mass loss rate and the gas expansion velocity correlate well, a result in line with theoretical predictions for an optically thin, dust-driven wind. In general, the model produces line profiles which acceptably fit the observed ones. An exceptional case is R Dor, where the high-quality, observed line profiles are essentially flat-topped, while the model ones are sharply double-peaked. The sample contains four sources with distinctly double-component CO line profiles, i.e., a narrow feature centered on a broader feature: EP Aqr, RV Boo, X Her, and SV Psc. We have modelled the two components separately for each star and derive mass loss rates and gas expansion velocities. We have compared the results of this M-star sample with a similar C-star sample analysed in the same way. The mass loss rate characteristics are very similar for the two samples. On the contrary, the gas expansion velocity distributions are clearly different. In particular, the number of low-velocity sources is much higher in the M-star sample. We found no example of the sharply double-peaked CO line profile, which is evidence of a large, detached CO-shell, among the M-stars. About 10% of the C-stars show this phenomenon.

Abstract Copyright: ∼

Journal keyword(s): stars: AGB and post-AGB - mass loss - circumstellar matter - late-type - radio lines: stars

CDS comments: In table 1 IRAS 18243-0352 is a misprint for IRAS 18243+0352.

Simbad objects: 80

Full paper

View the references in ADS

Number of rows : 80

N	Identifier	Otype	ICRS (J2000) RA	ICRS (J2000) DEC	Mag U	Mag B	Mag V	Mag R	Mag I	Sp type	#ref 1850 - 2023	#notes
1	V* UY Cet	AB*	00 27 06.4486825704	-06 36 16.881958296		10.61	9.32			M7	47	0
2	V* CE And	LP*	01 29 33.2705595168	+46 39 33.032270376		11.65	10.13			M5	24	0
3	V* SV Psc	LP*	01 46 35.3435781336	+19 05 04.537113684		10.02	8.773	8.41		M5	41	0
4	V* UX And	LP*	02 33 28.7579365008	+45 39 16.182851256		10.03	8.69			M6IIIv	41	0
5	V* T Ari	Mi*	02 48 19.7402010816	+17 30 33.774327288		10.29	7.50			M6-8+e	116	0
6	V* CX Cas	Mi*	02 51 20.3693761392	+63 25 29.306772696		12.72	10.87			~	8	0
7	V* SS Cep	LP*	03 49 30.0153276840	+80 19 20.902460520		8.37	7.16			M5III	57	0
8	V* U Men	OH*	04 09 35.5833357218	-81 51 17.682061033						M3e	59	0
9	V* RV Cam	LP*	04 30 41.6803544040	+57 24 42.284271780		9.65	8.20			M4II-III	61	0
10	V* R Dor	AB*	04 36 45.59127	-62 04 37.7974	7.84	6.98	5.40	2.71	-0.44	M8III:e	334	0
11	V* RX Lep	AB*	05 11 22.8716317615	-11 50 56.713575585	8.37	7.14	5.68			M6III	101	0
12	V* EX Ori	LP*	05 24 28.8521590104	-06 08 49.823290896		11.19	9.98			M7III:	34	1
13	V* RW Lep	Mi*	05 38 52.7354017584	-14 02 26.836474524		11.78	10.65			M8	37	0
14	V* DP Ori	LP*	06 01 39.8187530880	+10 54 39.621520404		11.19	10.18	8.27		M0	31	0
15	V* V352 Ori	LP*	06 01 46.9216393272	-02 21 13.548749112		9.384	8.970	7.529		M6III	30	0
16	* L02 Pup	AB*	07 13 32.3185436236	-44 38 22.951891964	7.90	6.66	5.10	2.49	0.07	M5IIIe	213	0
17	V* FZ Hya	LP*	08 21 33.3029607696	+04 57 30.246288984		10.01	9.078	8.799		M	27	0
18	V* OT Pup	LP*	08 22 11.1335867256	-25 37 54.592461696		10.12	8.54			M5/6III	20	0
19	V* Z Cnc	LP*	08 22 25.2910564920	+14 59 31.899972372		9.83	8.55			M6III	64	0
20	V* FK Hya	LP*	08 24 27.8559201312	-08 31 12.644608908		8.93	7.63			M6III	38	0
21	V* AK Hya	LP*	08 39 53.5421610192	-17 18 10.730602800		8.00	6.67			M6III	75	0
22	V* EY Hya	Mi*	08 46 21.2058337320	+01 37 56.041768380		10.73	9.37			M7	42	0
23	V* RT Cnc	LP*	08 58 15.9993994296	+10 50 42.676559520	10.04	8.97	7.52			M5III	57	1
24	V* CW Cnc	LP*	09 08 26.5433288712	+13 13 13.597473180		10.23	9.15			M6	53	0
25	IRC +10216	C*	09 47 57.40632	+13 16 43.5648						C9,5e	2285	0
26	V* BI Car	OH*	10 43 30.6592905216	-63 29 02.802099444			12.90			M7	17	0
27	V* R Crt	AB*	11 00 33.8525664720	-18 19 29.582708520		10.33	9.80			M7/8III	208	0
28	V* SX Leo	LP*	11 03 38.1784421640	-03 12 15.542805708		10.46	9.18			M5III	14	0
29	V* CS Dra	LP*	11 15 55.9095407256	+75 08 34.579113936		12.19	10.62			M5	29	0
30	V* AF Leo	LP*	11 27 53.1460967640	+15 08 48.408024084		10.80	9.61			M5	35	0
31	V* RT Vir	AB*	13 02 37.9814644272	+05 11 08.362884984	10.07	9.07	7.41			M8III	313	0
32	V* SW Vir	AB*	13 14 04.3830437280	-02 48 25.130666916	9.24	8.52	6.85			M7III:	259	0
33	V* V744 Cen	LP*	13 39 59.8072612685	-49 56 59.855085294	8.65	7.50	6.00			M6III	76	0
34	V* W Hya	Mi*	13 49 02.0018313132	-28 22 03.532006894		8.97	7.70			M7.5-9e	632	0
35	V* AY Vir	LP*	13 51 51.6585788736	-03 40 34.029469092		11.070	9.703	9.844		M4/5Vp	33	0
36	* tet Aps	LP*	14 05 19.8809399288	-76 47 48.342695604	8.10	7.05	5.50			M6.5III:	121	0
37	V* RX Boo	AB*	14 24 11.6253191184	+25 42 13.394221596		9.23	8.60			M7.5-M8	435	0
38	V* RV Boo	AB*	14 39 15.8615969712	+32 32 22.250745204		9.50	7.90			M5-6IIIe	93	0
39	* tau04 Ser	LP*	15 36 28.1826518520	+15 06 05.239977444	8.64	7.64	6.25			M5IIIa	102	0
40	V* X Her	AB*	16 02 39.1730141112	+47 14 25.265335956		7.64	6.58			M6III	234	0
41	V* RY CrB	LP*	16 23 05.1060105576	+30 51 00.603973152		10.81	9.57			M8+III	44	0
42	* g Her	AB*	16 28 38.5485851	+41 52 54.040593	7.70	6.53	5.01	2.49	0.26	M6-III	375	0
43	V* S Dra	AB*	16 42 55.8783578376	+54 54 13.611256020		10.06	8.83			M6III	63	0
44	V* AH Dra	LP*	16 48 16.6345015488	+57 48 49.347717084		8.91	7.69			M5	51	0
45	V* CX Her	LP*	17 10 37.0677176976	+27 35 30.205563468		11.07	9.78			M7	30	0
46	V* TY Dra	LP*	17 37 00.1116207432	+57 44 25.309145436		10.61	9.30			M8	52	0
47	V* IQ Her	LP*	18 17 54.8439222408	+17 58 52.728716928	9.790	8.520	6.910			M3	40	0
48	V* TU Lyr	LP*	18 20 30.2775855816	+31 45 21.245761908		11.38	10.13			M6-7e	29	0
49	V* V988 Oph	LP*	18 26 52.8363330600	+03 54 49.217099256		9.45	7.93			M5/6III	25	0
50	V* V585 Oph	LP*	18 27 09.1249538712	+07 31 27.757722360		11.71	10.47			M6e	15	0
51	V* CZ Ser	LP*	18 37 20.9853608496	-02 39 14.835790260		12.59	10.49			M6	21	0
52	V* SY Lyr	LP*	18 41 27.5191158576	+28 48 51.929737236		11.64	10.42			~	20	0
53	V* MZ Her	LP*	18 48 16.8160272384	+19 06 49.529070612		11.28	9.850			M6	15	0
54	V* UX Sgr	LP*	18 54 54.4757206800	-16 31 31.435169988		9.19	7.66			M5/6III	26	0
55	V* SU Sgr	AB*	19 03 43.7527408032	-22 42 43.004284632		9.75	8.42			M7III	56	0
56	V* SZ Dra	LP*	19 10 02.3380219488	+66 06 09.977499936		9.87	8.51			M5III	34	0
57	V* V Tel	LP*	19 18 14.6109450720	-50 26 48.360983388		10.93	10.30			M6/8	30	0
58	V* V858 Aql	LP*	19 29 12.3160230696	+03 51 41.808133296		11.84	10.36			M5	14	0
59	V* AF Cyg	LP*	19 30 12.8536070904	+46 08 52.085413212		8.50	7.18			M5III	92	0
60	V* S Pav	Mi*	19 55 13.9680387696	-59 11 44.333160288		9.25	8.21			M8III	88	0
61	V* V1172 Cyg	LP*	19 58 12.3798828192	+33 12 29.325657636		12.12	11.09			M6	7	0
62	V* V1943 Sgr	AB*	20 06 55.2441583872	-27 13 29.766501516		9.25	8.04			M7/8III	76	0
63	V* V584 Aql	LP*	20 10 29.8266386760	-01 37 40.821495780		10.55	9.19			M4(III)	28	0
64	V* UU Dra	AB*	20 24 03.5560473408	+75 15 13.586874948		10.59	9.32			M8III	43	0
65	V* T Mic	AB*	20 27 55.1897976672	-28 15 39.797839548		8.33	6.74			M7/8III	92	0
66	V* TZ Aql	LP*	20 30 18.4683740184	-04 45 16.658885304		10.06	8.70			M6III	33	0
67	V* U Del	LP*	20 45 28.2357324504	+18 05 24.138355308	9.30	8.06	6.38			M4-6II-III	125	0
68	V* V590 Cyg	LP*	21 17 21.2561553072	+45 42 28.941369768		11.16	9.55			M8	12	0
69	V* W Cyg	LP*	21 36 02.4974143922	+45 22 28.523281074	8.21	6.97	5.38	3.03	0.89	M4e-M6eIII	179	0
70	V* V655 Cyg	Mi*	21 43 52.7729122176	+48 00 36.817567560			13.20			M7	9	0
71	V* EP Aqr	AB*	21 46 31.8494911920	-02 12 45.928582560		7.93	6.78			M7-III:	236	0
72	V* TW Peg	AB*	22 03 59.5129191840	+28 20 54.251069136		8.66	7.50			M6-7III	130	0
73	V* SV Peg	AB*	22 05 42.0835861728	+35 20 54.562625016		10.06	9.20			M7	132	0
74	V* AB Aqr	LP*	22 38 34.6193737921	-14 02 14.421085011		10.50	9.23			M7	29	0
75	V* RX Lac	S*	22 49 56.8993161696	+41 03 04.307827176		10.11	8.62			S7.5/1e	51	0
76	V* V PsA	AB*	22 55 19.6832667720	-29 36 44.521985340		10.18	9.30			M7/8III	50	0
77	V* BC And	LP*	23 00 53.0743339320	+46 30 38.117782080		10.52	9.11			M7III:	18	0
78	V* Y Scl	LP*	23 09 05.5614039600	-30 08 02.146350516		9.86	8.70			M6III	51	0
79	V* SV Aqr	LP*	23 22 45.3630843744	-10 49 00.064750908		10.91	9.83			M8	33	0
80	V* RS And	Mi*	23 55 21.7432777176	+48 38 17.747392848		9.65	8.38			~	43	0

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