2022A&A...661A.120B

Query : 2022A&A...661A.120B

2022A&A...661A.120B - Astronomy and Astrophysics, volume 661A, 120-120 (2022/5-1)

The Gaia-ESO Survey: The analysis of the hot-star spectra.

BLOMME R., DAFLON S., GEBRAN M., HERRERO A., LOBEL A., MAHY L., MARTINS F., MOREL T., BERLANAS S.R., BLAZERE A., FREMAT Y., GOSSET E., MAIZ APELLANIZ J., SANTOS W., SEMAAN T., SIMON-DIAZ S., VOLPI D., HOLGADO G., JIMENEZ-ESTEBAN F., NIEVA M.F., PRZYBILLA N., GILMORE G., RANDICH S., NEGUERUELA I., PRUSTI T., VALLENARI A., ALFARO E.J., BENSBY T., BRAGAGLIA A., FLACCOMIO E., FRANCOIS P., KORN A.J., LANZAFAME A., PANCINO E., SMILJANIC R., BERGEMANN M., CARRARO G., FRANCIOSINI E., GONNEAU A., HEITER U., HOURIHANE A., JOFRE P., MAGRINI L., MORBIDELLI L., SACCO G.G., WORLEY C.C. and ZAGGIA S.

Abstract (from CDS):


Context. The Gaia-ESO Survey (GES) is a large public spectroscopic survey that has collected, over a period of six years, spectra of ∼105 stars. This survey provides not only the reduced spectra, but also the stellar parameters and abundances resulting from the analysis of the spectra.
Aims. The GES dataflow is organised in 19 working groups. Working group 13 (WG13) is responsible for the spectral analysis of the hottest stars (O, B, and A type, with a formal cutoff of Teff > 7000 K) that were observed as part of GES. We present the procedures and techniques that have been applied to the reduced spectra in order to determine the stellar parameters and abundances of these stars.
Methods. The procedure used was similar to that of other working groups in GES. A number of groups (called Nodes) each independently analyse the spectra via state-of-the-art techniques and codes. Specific for the analysis in WG13 was the large temperature range covered (Teff ~= 7000-50 000 K), requiring the use of different analysis codes. Most Nodes could therefore only handle part of the data. Quality checks were applied to the results of these Nodes by comparing them to benchmark stars, and by comparing them to one another. For each star the Node values were then homogenised into a single result: the recommended parameters and abundances.
Results. Eight Nodes each analysed part of the data. In total 17 693 spectra of 6462 stars were analysed, most of them in 37 open star clusters. The homogenisation led to stellar parameters for 5584 stars. Abundances were determined for a more limited number of stars. The elements studied are He, C, N, O, Ne, Mg, Al, Si, and Sc. Abundances for at least one of these elements were determined for 292 stars.
Conclusions. The hot-star data analysed here, as well as the GES data in general, will be of considerable use in future studies of stellar evolution and open clusters.

Abstract Copyright: © ESO 2022

Journal keyword(s): surveys - catalogs - stars: fundamental parameters - stars: abundances - stars: early-type - techniques: spectroscopic

Simbad objects: 65

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Number of rows : 65
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 * gam Peg bC* 00 13 14.1523490172 +15 11 00.954346538 1.75 2.61 2.84 2.94 3.13 B2IV 693 0
2 NAME SMC G 00 52 38.0 -72 48 01   2.79 2.2     ~ 11146 1
3 Cl Melotte 22 OpC 03 46 24.2 +24 06 50           ~ 3435 0
4 * del03 Tau a2* 04 25 29.3847186643 +17 55 40.463442784   4.369 4.298 6.18 4.24 A2IV-Vs 407 0
5 NAME LMC G 05 23 34.6 -69 45 22     0.4     ~ 17431 0
6 * psi01 Ori Be* 05 24 44.8273848312 +01 50 47.201915688 3.83 4.76 4.96 5.04 5.26 B1Vn 353 0
7 HD 35912 * 05 28 01.4701489584 +01 17 53.700185940 5.52 6.212 6.380     B2V 148 0
8 * 134 Tau * 05 49 32.9303335271 +12 39 04.760685507 4.68 4.811 4.875     B9IV 198 0
9 HD 46202 bC* 06 32 10.4706981304 +04 57 59.764912343 7.60 8.332 8.269 7.98 7.86 O9.2V 285 0
10 NGC 2244 OpC 06 32 10.8 +04 54 50           ~ 634 1
11 Cl Berkeley 25 OpC 06 41 16.1 -16 29 13           ~ 60 0
12 * 32 Gem V* 06 45 54.1991233128 +12 41 36.828178944 7.080 6.800 6.470     A9III 54 0
13 Cl Berkeley 30 OpC 06 57 45.1 +03 13 44           ~ 46 0
14 Cl Berkeley 32 OpC 06 58 07.2 +06 25 59           ~ 145 0
15 HD 56613 Pu* 07 17 31.6047921912 -05 49 21.500169240   7.12 7.21     B8V 20 0
16 Cl Haffner 10 OpC 07 28 37.4 -15 21 50   12.60 11.5     ~ 41 0
17 * alf CMi SB* 07 39 18.11950 +05 13 29.9552 0.82 0.79 0.37 -0.05 -0.28 F5IV-V+DQZ 1864 0
18 NGC 2451A OpC 07 42 56.6 -38 15 50           ~ 129 0
19 NGC 2451B OpC 07 44 30.7 -37 57 14           ~ 96 0
20 * bet Gem PM* 07 45 18.94987 +28 01 34.3160 3.00 2.14 1.14 0.39 -0.11 K0IIIb 1101 2
21 NGC 2451 Cl* 07 45.4 -37 58           ~ 158 1
22 NGC 2516 OpC 07 58 06.5 -60 48 00           ~ 713 0
23 NGC 2547 OpC 08 09 52.360 -49 10 35.01           ~ 400 0
24 HD 68450 * 08 11 01.6832319648 -37 17 32.549289720 5.58 6.42 6.44 7.43   O9.7II 135 0
25 IC 2391 OpC 08 41 10.1 -52 59 28           ~ 822 0
26 ESO 313-13 OpC 08 44 48.5 -41 16 48   7.01 6.7     ~ 78 0
27 Cl Alessi 43 OpC 08 50 31.4 -41 44 17           ~ 43 0
28 NGC 2682 OpC 08 51 23.0 +11 48 50           ~ 2342 0
29 Cl Pismis 15 OpC 09 34 44.2 -48 02 24           ~ 34 0
30 NGC 3293 OpC 10 35 52.8 -58 13 52           ~ 312 0
31 IC 2602 OpC 10 42 27.1 -64 25 34           ~ 675 0
32 * tet Car SB* 10 42 57.4019674 -64 23 40.020796 1.53 2.54 2.76 2.87 3.10 B0Vp 340 0
33 HD 93128 SB* 10 43 54.3957741024 -59 32 57.497266716 8.82 8.97 8.77 9.40 8.71 O3.5V((fc))z 103 1
34 Cl Trumpler 14 OpC 10 43 56.6 -59 33 11   5.70 5.5     ~ 509 0
35 Cl* Trumpler 14 MJ 190 Y*? 10 43 59.5011585048 -59 32 22.862582808 11.336 11.874 11.603   11.088 ~ 10 0
36 Cl Collinder 228 OpC 10 44 00 -60 05.2           ~ 207 0
37 Cl Trumpler 16 124 Y*? 10 44 05.8192228848 -59 35 11.699371680 10.711 11.349 11.092   10.598 B1V 32 1
38 Cl Trumpler 15 OpC 10 44 42.5 -59 22 08           ~ 215 0
39 Cl Trumpler 16 OpC 10 45 00.7 -59 42 00           ~ 484 0
40 NGC 3372 HII 10 45 02.23 -59 41 59.8           ~ 1014 2
41 NGC 3532 OpC 11 05 40.1 -58 42 25           ~ 350 0
42 NGC 3766 OpC 11 36 14.6 -61 36 58   5.66 5.3     ~ 213 0
43 Cl Trumpler 20 OpC 12 39 31.7 -60 38 13           ~ 112 0
44 NGC 4815 OpC 12 57 59.8 -64 57 36   9.61 8.6     ~ 98 0
45 Cl Pismis 18 OpC 13 36 54.5 -62 05 28   10.30 9.7     ~ 57 0
46 NGC 6005 OpC 15 55 49.2 -57 26 20   11.90 10.7     ~ 59 0
47 Cl Trumpler 23 OpC 16 00 52.3 -53 32 20     11.2     ~ 51 0
48 NGC 6067 OpC 16 13 11.8 -54 13 37           ~ 211 0
49 * tau Sco * 16 35 52.9528530 -28 12 57.661515 1.55 2.56 2.81 2.93 3.18 B0.2V 920 0
50 HD 152235 s*b 16 53 58.8528412848 -41 59 39.577848180 6.47 6.92 6.38 5.84 5.42 B0.5Ia 192 0
51 NGC 6253 OpC 16 59 06.7 -52 42 43     10.2     ~ 186 0
52 NGC 6259 OpC 17 00 46.8 -44 40 41   8.85 8.0     ~ 80 0
53 NGC 6281 OpC 17 04 43.0 -37 56 53           ~ 137 0
54 HD 319699 * 17 19 30.4178180256 -35 42 36.122104260 10.17 10.31 9.63 9.81 8.91 O5V((fc)) 65 0
55 NGC 6405 OpC 17 40 16.6 -32 14 31           ~ 200 0
56 HD 163758 s*b 17 59 28.3669369416 -36 01 15.589420824 6.46 7.35 7.32 8.38   O6.5Iafp 155 0
57 * 67 Oph s*b 18 00 38.7157893000 +02 55 53.633402904 3.34 3.96 3.93 3.84 3.81 B5Ib 407 0
58 NGC 6530 OpC 18 04 31 -24 21.5           ~ 417 0
59 NGC 6633 OpC 18 27 22.8 +06 36 54           ~ 385 0
60 NGC 6649 OpC 18 33 26.2 -10 23 56   10.35 8.9     ~ 134 0
61 NGC 6705 OpC 18 51 03.8 -06 16 19   6.32 5.8     ~ 411 0
62 NGC 6709 OpC 18 51 20.6 +10 20 02   7.18 6.7     ~ 126 0
63 Cl Berkeley 81 OpC 19 01 40.6 -00 27 14           ~ 82 0
64 NGC 6802 OpC 19 30 36.2 +20 15 43   10.07 8.8     ~ 104 0
65 * omi Peg * 22 41 45.4041684504 +29 18 27.631023336 4.77 4.78 4.79 4.75 4.77 A1IV 283 0

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