2010A&A...522A..39F

Query : 2010A&A...522A..39F

2010A&A...522A..39F - Astronomy and Astrophysics, volume 522, A39-39 (2010/11-1)

Constraints on rotational mixing from surface evolution of light elements in massive stars.

FRISCHKNECHT U., HIRSCHI R., MEYNET G., EKSTROEM S., GEORGY C., RAUSCHER T., WINTELER C. and THIELEMANN F.-K.

Abstract (from CDS):

Light elements and nitrogen surface abundances together can constrain the mixing efficiencies in massive stars on the main sequence, because moderate mixing in the surface layers leads to depletion of light elements but only later to enrichment in nitrogen. We want to test the rotational mixing prescriptions included in the Geneva stellar evolution code (GENEC) by following the evolution of surface abundances of light isotopes in massive stars. The GENEC is a 1D code containing sophisticated prescriptions for rotational mixing. We implemented an extended reaction network into this code including the light elements Li, Be, and B, which allowed us to perform calculations testing the rotation-induced mixing. We followed 9, 12, and 15M models with rotation from the zero age main sequence up to the end of He burning. The calculations show the expected behaviour with faster depletion of light isotopes for faster rotating stars and more massive stars. We find that the mixing prescriptions used in the present rotating models for massive single stars can account for most of the observations; however, the uncertainties are quite large, making it hard to draw a firm conclusion on the mixing scenario.

Abstract Copyright:

Journal keyword(s): stars: abundances - stars: massive - stars: rotation

Simbad objects: 43

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Number of rows : 43
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 * zet Cas bC? 00 36 58.2844874846 +53 53 48.877599163 2.58 3.47 3.66 3.74 3.95 B2IV 453 0
3 NAME SMC G 00 52 38.0 -72 48 01   2.79 2.2     ~ 11145 1
4 Ass Per OB 1 As* 02 21 +57.6           ~ 174 1
5 V* V621 Per EB* 02 22 09.7108878600 +57 07 02.305907292 9.14 9.68 9.4000   7.9369 B1.5I 75 0
6 NGC 884 OpC 02 22 20.2 +57 08 56           ~ 486 0
7 * del Cet bC* 02 39 28.9568473856 +00 19 42.631195332 2.97 3.85 4.07     B2IV 380 0
8 * o Per * 03 42 22.6459308614 +33 57 54.093701142 4.13 4.912 4.972     B0.5V 299 0
9 NAME Cas-Tau As* 04 16 +27.6           ~ 79 1
10 * nu. Eri bC* 04 36 19.1419185396 -03 21 08.857744927 2.82 3.737 3.928     B2III 390 0
11 * pi.04 Ori SB* 04 51 12.3657730111 +05 36 18.373859886 2.700 3.500 3.680 3.74 3.90 B2III 308 0
12 * lam Lep * 05 19 34.5223081894 -13 10 36.369844928 3.03 4.04 4.29 4.41 4.69 B0.5V 302 0
13 * o Ori SB* 05 21 45.7473567408 -00 22 56.880734196 3.79 4.58 4.74 4.79 4.97 B2IV 235 0
14 * 8 Lep SB* 05 23 30.1560451200 -13 55 38.470509624   5.026 5.229     B2IV 81 0
15 HD 35299 Pu* 05 23 42.3086240496 -00 09 35.347024692 4.610 5.490 5.700 5.77 5.96 B2III 201 0
16 * gam Ori V* 05 25 07.86325 +06 20 58.9318 0.54 1.42 1.64 1.73 1.95 B2V 523 1
17 HD 36285 * 05 30 20.7537108216 -07 26 05.338118076 5.29 6.130 6.313     B2III 117 0
18 * n01 Ori ** 05 31 14.53183 +03 17 31.6729 4.47 5.29 5.46 5.51 5.72 B3II/III 136 0
19 HD 36430 * 05 31 20.8933113744 -06 42 30.168166680 5.29 6.041 6.208     B3V 130 0
20 HD 36591 V* 05 32 41.3510096736 -01 35 30.595447356 4.240 5.15 5.34     B1IV 242 0
21 HD 36629 Y*O 05 32 57.0824474232 -04 33 59.339585016 7.01 7.67 7.65 7.53 7.53 B2V 190 0
22 Ass Ori OB 1b As* 05 34.0 -01 30           ~ 266 0
23 HD 36959 Y*O 05 35 01.0070120496 -06 00 33.366713364 4.52 5.33 5.53     B1V 210 0
24 HD 36960 * 05 35 02.6823091513 -06 00 07.308349203 3.52 4.50 4.72     B0.5V 268 0
25 Ass Ori OB 1c As* 05 35 21 -05 20.5           ~ 137 1
26 HD 37209A bC? 05 36 35.6933463600 -06 03 53.102455123 4.61 5.535 5.750     B2IV 134 0
27 HD 37356 V* 05 37 53.3851682160 -04 48 50.525298828 5.42 6.14 6.18 6.11 6.11 B3V 140 0
28 NAME Ori I As* 05 38 -02.8           ~ 615 0
29 HD 37481 bC? 05 38 37.9735682376 -06 34 26.246963640 4.82 5.73 5.96     B1.5IV 128 0
30 HD 37744 V* 05 40 37.2968503824 -02 49 30.852237396 5.14 6.02 6.22     B2IV 148 0
31 * bet CMa bC* 06 22 41.9853527 -17 57 21.307352 0.77 1.73 1.97 2.11 2.35 B1II-III 715 0
32 * ksi01 CMa bC* 06 31 51.3662820799 -23 25 06.319934859 3.10 4.09 4.33 4.45 4.72 B0.7IV 322 0
33 * 15 CMa bC* 06 53 32.9069226414 -20 13 27.309395177 3.66 4.62 4.83 4.95 5.17 B1IV 209 0
34 Cl Collinder 121 OpC 06 56 20 -24 43.8   3.02 2.6     ~ 148 0
35 * eps CMa * 06 58 37.54876 -28 58 19.5102 0.36 1.29 1.50 1.59 1.80 B1.5II 488 0
36 * bet Cru bC* 12 47 43.26877 -59 41 19.5792 0.03 1.02 1.25 1.38 1.64 B1IV 342 1
37 NAME Upper Sco-Cen As* 16 15 -24.2           ~ 1330 1
38 * bet Cep bC* 21 28 39.5968513 +70 33 38.574681 2.05 3.01 3.23 3.33 3.55 B0.5IIIs 725 0
39 Ass Cep OB 1 As* 22 29 +56.6           ~ 87 0
40 NAME I Lac As* 22 41 +38.5           ~ 151 0
41 * 12 Lac bC* 22 41 28.6495065456 +40 13 31.609736580 4.24 5.080 5.229     B2III 357 0
42 * 16 Lac bC* 22 56 23.6299283136 +41 36 13.948480440 4.61 5.436 5.587     B2IV 313 0
43 Ass Ori OB 1a As* ~ ~           ~ 230 0

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