2006MNRAS.367.1181B

Query : 2006MNRAS.367.1181B

2006MNRAS.367.1181B - Mon. Not. R. Astron. Soc., 367, 1181-1193 (2006/April-2)

The origin and chemical evolution of carbon in the Galactic thin and thick discs.

BENSBY T. and FELTZING S.

Abstract (from CDS):

In order to trace the origin and evolution of carbon in the Galactic disc, we have determined carbon abundances in 51 nearby F and G dwarf stars. The sample is divided into two kinematically distinct subsamples with 35 and 16 stars that are representative of the Galactic thin and thick discs, respectively. The analysis is based on spectral synthesis of the forbidden [Ci] line at 872.7nm using spectra of very high resolution (R~ 220000) and high signal-to-noise ratio (S/N ≳ 300) that were obtained with the Coudé Echelle Spectrograph (CES) spectrograph by the European Southern Observatory (ESO) 3.6-m telescope at La Silla in Chile. We find that [C/Fe] versus [Fe/H] trends for the thin and thick discs are totally merged and flat for subsolar metallicities. The thin disc that extends to higher metallicities than the thick disc shows a shallow decline in [C/Fe] from [Fe/H]~ 0 and up to [Fe/H]~+0.4. The [C/O] versus [O/H] trends are well separated between the two discs (due to differences in the oxygen abundances) and bear a great resemblance to the [Fe/O] versus [O/H] trends. Our interpretation of our abundance trends is that the sources that are responsible for the carbon enrichment in the Galactic thin and thick discs have operated on a time-scale very similar to those that are responsible for the Fe and Y enrichment [i.e. SNIa and asymptotic giant branch (AGB) stars, respectively]. We further note that there exist other observational data in the literature that favour massive stars as the main sources for carbon. In order to match our carbon trends, we believe that the carbon yields from massive stars then must be very dependent on metallicity for the C, Fe and Y trends to be so finely tuned in the two disc populations. Such metallicity-dependent yields are no longer supported by the new stellar models in the recent literature. For the Galaxy, we hence conclude that the carbon enrichment at metallicities typical of the disc is mainly due to low- and intermediate-mass stars, while massive stars are still the main carbon contributor at low metallicities (halo and metal-poor thick disc).

Abstract Copyright: 2006 The Authors. Journal compilation © 2006 RAS

Journal keyword(s): stars: abundances - stars: kinematics - Galaxy: abundances - Galaxy: disc - Galaxy: evolution

Simbad objects: 60

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Number of rows : 60
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 * 6 Cet PM* 00 11 15.8580395472 -15 28 04.720468404 5.35 5.38 4.89     F8VFe-0.8CH-0.5 314 0
2 HD 2454 SB* 00 28 20.0424818616 +10 11 23.297664120   6.47   5.8   F5VSr 178 0
3 * 14 Cet PM* 00 35 32.8334053776 -00 30 20.198722752   6.368 5.936     F5V 137 0
4 HD 3628 PM* 00 39 13.2642083565 +03 08 02.129163830   7.969 7.339 6.9   G3V 125 0
5 HD 3735 PM* 00 39 57.8234302713 -33 57 41.218831187   7.18 6.69     F7V 79 0
6 HD 3795 PM* 00 40 32.7939851012 -23 48 17.728718238   6.84 6.14     K0VFe-1.5CH-1.3 212 0
7 HD 4308 PM* 00 44 39.2672095011 -65 38 58.277728125 7.31 7.193 6.552     G6VFe-0.9 247 1
8 * phi02 Cet PM* 00 50 07.5889624710 -10 38 39.583852438   5.69 5.19     F7V 268 0
9 * 29 Cet PM* 01 07 59.6638945208 +01 59 34.981418276   7.31   5.9   G8IV/V 157 0
10 * nu. Phe PM* 01 15 11.1214282378 -45 31 53.992580679 5.65 5.54 4.96 4.47 4.11 F9VFe+0.4 258 0
11 HD 9562 PM* 01 33 42.8357181696 -07 01 31.238801760 6.61 6.40 5.76     G1V 265 0
12 HD 12042 PM* 01 56 59.9847437632 -51 45 58.485059294   6.58 6.10     F8.5Fe-0.7 96 0
13 * eta Ari PM* 02 12 48.0856782200 +21 12 39.577562642       5.0   F5V 190 0
14 HD 14412 PM* 02 18 58.5047816166 -25 56 44.473793228   7.07 6.34     G8V 222 0
15 HD 17006 PM* 02 42 08.4437861136 -46 31 27.989231952   6.985 6.094     K1III 56 0
16 * iot Hor PM* 02 42 33.4666679022 -50 48 01.055138166   5.97 5.40     F8V 397 1
17 * eps For PM* 03 01 37.6288785045 -28 05 29.373792325   6.68 5.85     G9:V 186 0
18 * 94 Cet PM* 03 12 46.4365677072 -01 11 45.955808988   5.631 5.070     F8.5V 453 1
19 HD 20407 PM* 03 15 06.3902054760 -45 39 53.360466948 7.326 7.334 6.756 6.426 6.103 G5VFe-1.2CH-1 120 0
20 * e Eri PM* 03 19 55.6509122226 -43 04 11.215188426 5.20 4.98 4.27 3.65 3.25 G6V 452 1
21 HD 22879 Pe* 03 40 22.0652879951 -03 13 01.124265616 7.146 7.222 6.667 6.346 6.016 G0VmF2 498 0
22 * del Eri PM* 03 43 14.9005379551 -09 45 48.210955899 5.13 4.46 3.54 2.82 2.32 K0+IV 602 0
23 HD 24616 PM* 03 53 59.4642188174 -23 08 13.471094216   7.52 6.71     G8IV/V 110 0
24 * 68 Eri PM* 05 08 43.6987121400 -04 27 22.349830176   5.546 5.119     F5.5VkF4mF2 229 0
25 * zet Pic PM* 05 19 22.1350114344 -50 36 21.481796808   5.96 5.45     F6IV 89 0
26 * alf Men PM* 06 10 14.4725823672 -74 45 10.958331816   5.798 5.069     G7V 279 0
27 HD 130551 PM* 14 51 31.7225624616 -60 55 50.851034904   9.068 8.751     F5V 102 0
28 * nu.02 Lup PM* 15 21 48.1499105161 -48 19 03.469906910 6.35 6.30 5.65     G3/5V 297 1
29 HD 144585 PM* 16 07 03.3696573456 -14 04 16.671141984 7.22 6.98 6.32     G2V 193 0
30 HD 145148 PM* 16 09 11.2150771435 +06 22 43.289900623   6.97   5.3   K1.5IV 177 0
31 HD 147513 PM* 16 24 01.2911377368 -39 11 34.729913940 6.17 6.02 5.376     G5V 354 1
32 * zet TrA SB* 16 28 28.1422653048 -70 05 03.824909916   5.446 4.899     F9V 206 0
33 HD 149612 PM* 16 39 04.1417975517 -58 15 29.528870106 7.674 7.644 7.034 6.679 6.334 G5VFe-1.2CH-0.9 80 0
34 HD 152391 PM* 16 52 58.8025159848 -00 01 35.118396116   7.40 6.64     G8.5Vk: 375 0
35 HD 156098 PM* 17 17 03.6458542704 -32 39 46.220745528   6.021 5.526     F6V 118 0
36 HD 156365 PM* 17 18 07.1354998272 -24 04 22.881440568   7.27 6.59     G3V 88 0
37 * mu. Ara PM* 17 44 08.7031414872 -51 50 02.591603160   5.85 5.15     G3IV-V 534 2
38 NAME Galactic Center reg 17 45 39.60213 -29 00 22.0000           ~ 14510 0
39 HD 162396 PM* 17 52 52.5830170920 -41 59 47.486766588   6.74 6.20     F9VFe-0.7CH-0.4 133 0
40 HD 165401 PM* 18 05 37.4541846601 +04 39 25.797083469 7.443 7.399 6.786 6.432 6.09 G2V 224 0
41 HD 169830 * 18 27 49.4849984976 -29 49 00.700831380   6.406 5.902 7.01   F7V 282 1
42 HD 172051 ** 18 38 53.4010594968 -21 03 06.750986472   6.518 5.860     G6V 198 1
43 HD 183877 PM* 19 32 40.3321897451 -28 01 11.310045098   7.83 7.15     G8VFe-1CH-0.5 102 0
44 * del Pav PM* 20 08 43.6088716052 -66 10 55.442769229 4.78 4.32 3.56 2.95 2.61 G8IV 393 0
45 HD 197214 SB* 20 43 15.9995447169 -29 25 26.058051892 7.778 7.635 6.960 6.583 6.229 G6V 88 0
46 HD 199288 PM* 20 57 40.0687221764 -44 07 45.733001992   7.11 6.52     G2VFe-1.0 197 0
47 * 11 Aqr PM* 21 00 33.8408325744 -04 43 48.934668864   6.819 6.192     G1V 213 0
48 * gam Pav PM* 21 26 26.6049826473 -65 21 58.313057521 4.57 4.70 4.22 3.75 3.45 F9VFe-1.4CH-0.7 414 0
49 * 15 Peg PM* 21 52 29.9168018496 +28 47 36.750679764 5.82 5.95 5.53     F2V 240 0
50 HD 208998 PM* 22 01 36.5232180120 -53 05 36.882266969   7.68 7.14     G0V 105 0
51 HD 210277 PM* 22 09 29.8657847411 -07 32 55.162082226   8.85 8.57 7.36   G8V 343 1
52 HD 210483 PM* 22 10 26.1624191757 +18 47 49.580722188   8.16   7.2   G4 75 0
53 HD 210918 PM* 22 14 38.6528791223 -41 22 53.994495360 7.02 6.88 6.23     G2V 204 0
54 HD 211976 * 22 20 55.7972067264 +08 11 12.271519068   6.621 6.163     F5V 101 0
55 * rho Ind PM* 22 54 39.4819393536 -70 04 25.352060772 6.95 6.71 6.05     G1VFe+0.3 192 1
56 * 51 Peg PM* 22 57 27.9804852576 +20 46 07.797040104 6.39 6.16 5.46 4.97 4.61 G2IV 1163 1
57 HD 217107 ** 22 58 15.5408995872 -02 23 43.383234768   6.919 6.163     G8IV/V 371 1
58 HD 224022 PM* 23 54 38.6211470319 -40 18 00.221877716   6.60 6.03     G0V 92 0
59 HD 224383 PM* 23 57 33.5181718097 -09 38 51.070746906   8.51 7.88     G3V 121 0
60 NAME Hercules Stream MGr ~ ~           ~ 239 0

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