2005A&A...434..691M

Query : 2005A&A...434..691M

2005A&A...434..691M - Astronomy and Astrophysics, volume 434, 691-706 (2005/5-1)

Three-micron spectra of AGB stars and supergiants in nearby galaxies.

MATSUURA M., ZIJLSTRA A.A., VAN LOON J.T., YAMAMURA I., MARKWICK A.J., WHITELOCK P.A., WOODS P.M., MARSHALL J.R., FEAST M.W. and WATERS L.B.F.M.

Abstract (from CDS):

The dependence of stellar molecular bands on the metallicity is studied using infrared L-band spectra of AGB stars (both carbon-rich and oxygen-rich) and M-type supergiants in the Large and Small Magellanic Clouds (LMC and SMC) and in the Sagittarius Dwarf Spheroidal Galaxy. The spectra cover SiO bands for oxygen-rich stars, and acetylene (C2H2), CH and HCN bands for carbon-rich AGB stars. The equivalent width of acetylene is found to be high even at low metallicity. The high C2H2 abundance can be explained with a high carbon-to-oxygen (C/O) ratio for lower metallicity carbon stars. In contrast, the HCN equivalent width is low: fewer than half of the extra-galactic carbon stars show the 3.5µm HCN band, and only a few LMC stars show high HCN equivalent width. HCN abundances are limited by both nitrogen and carbon elemental abundances. The amount of synthesized nitrogen depends on the initial mass, and stars with high luminosity (i.e. high initial mass) could have a high HCN abundance. CH bands are found in both the extra-galactic and Galactic carbon stars. One SMC post-AGB star, SMC-S2, shows the 3.3µm PAH band. This first detection of a PAH band from an SMC post-AGB star confirms PAHs can form in these low-metallicity stars. None of the oxygen-rich LMC stars show SiO bands, except one possible detection in a low quality spectrum. The limits on the equivalent widths of the SiO bands are below the expectation of up to 30Å for LMC metallicity. Several possible explanations are discussed, mostly based on the effect of pulsation and circumstellar dust. The observations imply that LMC and SMC carbon stars could reach mass-loss rates as high as their Galactic counterparts, because there are more carbon atoms available and more carbonaceous dust can be formed. On the other hand, the lack of SiO suggests less dust and lower mass-loss rates in low-metallicity oxygen-rich stars. The effect on the ISM dust enrichment is discussed.

Abstract Copyright:

Journal keyword(s): stars: AGB and post-AGB - infrared: stars - galaxies: stellar content - stars: atmospheres

Simbad objects: 77

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Number of rows : 77
N Identifier Otype ICRS (J2000)
RA 		ICRS (J2000)
DEC 		Mag U Mag B Mag V Mag R Mag I Sp type #ref
1850 - 2024 		#notes
1 V* WZ Cas C* 00 01 15.8567946264 +60 21 19.025920224 8.77 9.47 7.13     C-N7III: 315 0
2 V* VX And C* 00 19 54.0161311920 +44 42 33.895984824   12.23 7.80     C-J4.5 159 0
3 IRAS 00350-7436 C* 00 36 59.5591952376 -74 19 50.255251536 16.88 15.81 14.47 14.25 12.92 C3,2e 28 0
4 NAME SMC G 00 52 38.0 -72 48 01   2.79 2.2     ~ 11145 1
5 IRAS F01210-7125 C* 01 22 28.2875562888 -71 09 26.022141432           C 7 0
6 V* R Scl C* 01 26 58.0939182720 -32 32 35.439234828 17.26 9.59 5.72 3.69 2.30 C-N5+ 332 0
7 V* KK Per s*r 02 10 15.7846748496 +56 33 32.663347416 12.32 9.96 7.74 5.86 4.29 M2Iab-Ib 105 0
8 V* R For C* 02 29 15.3077617632 -26 05 55.646585700   12.94 7.50 8.01   C4,3e 196 0
9 HD 16891 * 02 39 31.7269875648 -64 16 54.180378948   6.465 6.532     B9V 41 0
10 NAME Magellanic Clouds GrG 03 00 -71.0           ~ 7062 0
11 * rho Per LP* 03 05 10.59385 +38 50 24.9943 6.83 5.04 3.39 1.59 -0.03 M4+IIIa 318 0
12 LEE 259 C* 03 26 29.5037418864 +47 31 48.551540844       10.70   N 174 0
13 HD 22252 Pu* 03 30 51.7078870944 -66 29 22.962633936   5.746 5.800     B8IV 60 0
14 V* CT Hyi a2* 03 45 23.7356758848 -71 39 29.274503652   6.137 6.255     ApSi 53 0
15 IRAS 04286-6937 C* 04 28 30.19 -69 30 50.3           C 17 0
16 IRAS 04407-7000 Mi* 04 40 28.4943291936 -69 55 13.708329168       15.973 14.829 M7.5 30 0
17 * mu. Men Ro* 04 43 03.9642436128 -70 55 51.694470264 4.96 5.391 5.511     B8II/III(pSi) 65 0
18 IRAS 04496-6958 C* 04 49 18.4933717920 -69 53 14.430196680 20.060 20.027 18.791 15.087 15.060 C 49 0
19 IRAS 04539-6821 C* 04 53 46.32 -68 16 14.3 18.262 18.585 18.611   18.553 C 18 0
20 WOH G 64 Mi* 04 55 10.5236094912 -68 20 30.019011036     18.46 15.69 12.795 M7.5(I)e 97 0
21 IRAS 04557-6753 C* 04 55 38.98 -67 49 10.7 20.078 19.746 19.511   18.865 C 18 1
22 SV* HV 888 s*r 05 04 14.1159675000 -67 16 14.402052984 15.876 13.949 11.861 9.60   M4Ia 58 0
23 V* W Ori C* 05 05 23.7190712856 +01 10 39.454639032 16.36 9.52 6.10 3.83 2.35 C-N5 287 0
24 IRAS 05112-6755 C* 05 11 10.474 -67 52 10.53 20.764 20.375 19.149   18.113 C 29 0
25 IRAS 05128-6455 AB* 05 13 04.5777078792 -64 51 40.224371256           M9 25 0
26 SV* HV 916 s*r 05 14 49.7383603560 -67 27 19.785018240 16.672 14.468 12.296   9.675 M3I 42 0
27 [L71] C2 C* 05 20 46.7408693736 -69 01 23.805779052     16.16 14.96 13.635 CSeLi: 30 0
28 NAME LMC G 05 23 34.6 -69 45 22     0.4     ~ 17428 0
29 HD 37066 * 05 31 36.0879621672 -61 32 28.051981080   7.076 7.179     B8V 14 0
30 V* V1187 Ori C* 05 39 42.6258029448 -08 09 08.616635532     12 10.18   C 38 0
31 V* TU Tau C* 05 45 13.7252280696 +24 25 12.448555140 12.69 11.33 8.46     C-N4+ 121 0
32 * eps Dor V* 05 49 53.5294723780 -66 54 04.313513558 4.48 4.97 5.11     B6V 70 0
33 * alf Ori s*r 05 55 10.30536 +07 24 25.4304 4.38 2.27 0.42 -1.17 -2.45 M1-M2Ia-Iab 1670 0
34 IRAS 05558-7000 Mi* 05 55 21.0477562008 -70 00 03.118162644       17.411 16.771 ~ 31 0
35 IRAS 06025-6712 C* 06 02 31.06 -67 12 47.0           C 22 0
36 * nu. Dor PM* 06 08 44.2617842848 -68 50 36.282383871   4.975 5.038     B8V 79 0
37 HD 44533 Be* 06 14 41.9418058464 -73 37 35.434849728   6.56 6.59     B8IVe 23 0
38 HD 44247 EB* 06 15 39.4728960552 -66 17 32.161261704 6.83 7.229 7.302     B9IV 21 0
39 V* V636 Mon C* 06 25 01.4305200360 -09 07 15.963301164       11.78 8.83 C-N5 57 0
40 RAFGL 940 C* 06 26 37.2725351496 +09 02 15.215521632         14.751 C 31 0
41 V* VY CMa s*r 07 22 58.3261352189 -25 46 03.194390594 12.01 10.068 8.691 7.938   M5Iae 1103 0
42 CGCS 2178 S* 08 22 53.4361938240 -15 18 28.007425800       12.19   SCe 12 0
43 BM IV 96 C* 09 05 44.4165757920 -47 14 59.232347340     10.9     C 15 1
44 IRC +10216 C* 09 47 57.40632 +13 16 43.5648           C9,5e 2342 0
45 V* SS Vir C* 12 25 14.3948245008 +00 46 10.946740368 15.84 10.79 6.60     C-N4.5: 204 1
46 V* Y CVn C* 12 45 07.8260815656 +45 26 24.926308404 14.03 7.41 4.87 3.12 1.74 C-N5 477 0
47 V* RU Vir C* 12 47 18.4090087128 +04 08 41.356415148   14.75 9.00     C8,1e 178 0
48 V* RY Dra C* 12 56 25.9112361600 +65 59 39.811665876 15.56 9.44 6.34 4.34 2.91 C-N3III: 238 0
49 V* SW Vir AB* 13 14 04.3830437280 -02 48 25.130666916 9.24 8.52 6.85     M7III: 262 0
50 V* V CrB C* 15 49 31.3121978280 +39 34 17.892629256     6.90 7.23   C6,2e_MS3 262 0
51 * g Her AB* 16 28 38.5495839988 +41 52 54.044914927 7.70 6.53 5.01 2.49 0.26 M6-III 377 0
52 V* SZ Sgr C* 17 44 56.4759363195 -18 39 26.321230341 15.08 11.27 8.52 8.631 7.90 C-N5.5 87 0
53 V* T Dra C* 17 56 23.3288487384 +58 13 06.783372804   18.08 7.20 9.39   C6,2e 190 0
54 V* VX Sgr s*r 18 08 04.0442790744 -22 13 26.600899044 11.72 9.41 6.52 3.90 2.11 M8.5Ia 596 0
55 V* VY Sgr cC* 18 12 04.5659242512 -20 42 14.462412336   12.70 11.36     F6 74 0
56 RAFGL 2155 C* 18 26 05.83560 +23 28 46.6932         17.63 C-rich 80 0
57 Case 176 C* 18 42 24.8730446016 -02 17 27.088299816   16.56 13.49 15.53 10.79 C 73 0
58 [IGI95] C1 C* 18 46 24.0618565176 -30 15 10.455371712       15.13   ~ 8 0
59 [WIC96] UKST 3 C* 18 46 39.1238845392 -30 45 52.709943600           ~ 6 0
60 V* S Sct C* 18 50 20.0367791256 -07 54 27.429169356 13.93 9.89 6.80     C-N5 209 0
61 [IGI95] C3 C* 18 52 50.3119139280 -29 56 31.733543400   17.34   14.33 13.09 C 14 0
62 NAME SDG G 18 55 19.0 -30 32 43   4.5 3.6     ~ 2186 2
63 [WIC96] UKST 15 C* 18 56 55.8443563680 -31 24 40.962926376           ~ 5 0
64 * zet CrA PM* 19 03 06.8768335825 -42 05 42.380397917   4.701 4.725   4.76 B9.5Vann 73 0
65 V* V Aql C* 19 04 24.1544971752 -05 41 05.444321424   11.09 6.90     C-N5 215 0
66 V* R Aql OH* 19 06 22.2510922392 +08 13 48.012661776 8.06 7.69 6.09     M6.5-9e 564 2
67 IRAS 19068+0544 C* 19 09 15.7350591120 +05 49 09.601840056           C-rich 24 0
68 V* V1421 Aql C* 19 27 14.7581047608 +07 04 12.671205564     14.30 14.69   C7,3e 48 0
69 V* Z Cyg Mi* 20 01 27.5075704056 +50 02 32.634937212   11.12 7.10 8.79   M5.5-6.5e 162 0
70 V* RS Cyg C* 20 13 23.6616874008 +38 43 44.470030872 13.26 9.36 6.50 4.38 2.82 C-N5.5 181 0
71 V* V Cyg C* 20 41 18.2676815496 +48 08 28.810980420   14.05 7.70 6.67   C7,4eJ 306 0
72 V* S Cep C* 21 35 12.8233100592 +78 37 28.185141792   12.13 7.40     C7,3e 261 0
73 V* V460 Cyg C* 21 42 01.0830893088 +35 30 36.719916552 12.97 8.32 5.84 4.10 2.71 C-N5 212 1
74 LEE 338 C* 21 44 28.7966422416 +73 38 04.892089668   13.27 9.82 8.47   C6-,3e 60 0
75 V* RZ Peg Mi* 22 05 52.9706535288 +33 30 24.810555528   11.40 7.60 7.89   SC5-9/9-e 159 0
76 IRC +40540 C* 23 34 27.5185864392 +43 33 01.323347256     15.12     C8,3.5eJ 179 0
77 * 19 Psc C* 23 46 23.5164473376 +03 29 12.519049272 10.95 7.62 5.02 3.19 1.82 C-N6 450 0

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