2022A&A...668L...5S

Query : 2022A&A...668L...5S

2022A&A...668L...5S - Astronomy and Astrophysics, volume 668, L5 (2022/12-1)

The VLT-FLAMES Tarantula Survey Observational evidence for two distinct populations of massive runaway stars in 30 Doradus.

SANA H., RAMIREZ-AGUDELO O.H., HENAULT-BRUNET V., MAHY L., ALMEIDA L.A., DE KOTER A., BESTENLEHNER J.M., EVANS C.J., LANGER N., SCHNEIDER F.R.N., CROWTHER P.A., DE MINK S.E., HERRERO A., LENNON D.J., GIELES M., MAIZ APELLANIZ J., RENZO M., SABBI E., VAN LOON J.T. and VINK J.S.

Abstract (from CDS):

Context. The origin of massive runaway stars is an important unsolved problem in astrophysics. Two main scenarios have been proposed, namely: dynamical ejection or release from a binary at the first core collapse. However, their relative contribution remains heavily debated. Aims. Taking advantage of two large spectroscopic campaigns towards massive stars in 30 Doradus, we aim to provide observational constraints on the properties of the O-type runaway population in the most massive active star-forming region in the Local Group. Methods. We used radial velocity measurements of the O-type star populations in 30 Doradus obtained by the VLT-FLAMES Tarantula Survey and the Tarantula Massive Binary Monitoring to identify single and binary O-type runaways. Here, we discuss the rotational properties of the detected runaways and qualitatively compare the observations with expectations of ejection scenarios. Results. We identified 23 single and one binary O-type runaway objects, most of them located outside the main star-forming regions in 30 Doradus. We find an overabundance of rapid rotators (ve sin i > 200 km s–1) among the runaway population, thus providing an explanation for the observed overabundance of rapidly rotating stars in the 30 Doradus field. Considerations of the projected rotation rates and runaway line-of-sight velocities reveal a conspicuous absence of rapidly rotating (ve sin i > 210 km s–1), fast-moving (vlos > 60 km s–1) runaway stars in our sample, strongly suggesting the presence of two different populations of runaway stars: a population of rapidly spinning but slowly moving runaway stars and a population of fast-moving but slowly rotating ones. These are detected with a ratio close to 2:1 in our sample. Conclusions. We argue that slowly moving but rapidly spinning runaway stars result from binary ejections, while rapidly moving but slowly spinning runaways could result from dynamical ejections. Given that detection biases will more strongly impact the slow-moving runaway population, our results suggest that the binary evolution scenario dominates the current massive runaway star population in 30 Doradus.

Abstract Copyright: © H. Sana et al. 2022

Journal keyword(s): stars: early-type - stars: massive - binaries: spectroscopic - stars: rotation - stars: kinematics and dynamics - galaxies: star clusters: individual: 30 Dor

Simbad objects: 33

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Number of rows : 33
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 NAME SMC G 00 52 38.0 -72 48 01   2.79 2.2     ~ 11139 1
2 NAME LMC G 05 23 34.6 -69 45 22     0.4     ~ 17420 0
3 VFTS 12 * 05 37 05.6365126608 -69 09 12.434725692   15.98 15.83     O9.5IIIn 6 0
4 NAME 30 Dor 016 * 05 37 08.8778548584 -69 07 20.375080464 12.623 13.584 13.546   13.816 O2IIIf* 44 0
5 UCAC2 1803231 * 05 37 39.2300701008 -69 09 51.026810616 15.220 16.099 15.806 16.07 15.118 O9:Vnnne+ 27 0
6 VFTS 138 * 05 37 45.0373402296 -69 02 29.573819376   15.54 15.63     O9Vn 10 0
7 [M2002] LMC 169297 s*b 05 37 48.330 -69 09 15.22   13.79 13.8     O9.7Iab 7 0
8 VFTS 168 * 05 37 49.5088071792 -69 12 33.066475524   15.54 15.46     O8.5Vz 9 0
9 NGC 2060 SNR 05 37 51.4466169456 -69 10 23.947092084   9.69 9.59     ~ 360 2
10 VFTS 190 * 05 37 53.2935364584 -69 12 57.234700512   14.63 14.67     O7Vnn((f))p 7 0
11 NAME 30 Dor Region reg 05 38.0 -69 06           ~ 236 0
12 VFTS 226 * 05 38 00.9962944176 -69 14 21.675036768   15.89 15.92     O9.7III 11 0
13 VFTS 285 * 05 38 17.3293080024 -69 05 42.046651680   15.57 15.63     O7.5Vnnn 18 0
14 Cl* NGC 2070 MEL 80 * 05 38 19.2539956920 -69 06 00.530661852   14.11 14.08     O8.5II((f)) 13 0
15 VFTS 328 * 05 38 22.3263877824 -69 13 15.224179152   15.79 15.90     O9.5III(n) 12 0
16 2MASS J05382913-6857393 SB* 05 38 29.1463260480 -68 57 39.327666624   13.93 14.12     O4V((n))((fc))z 9 0
17 VFTS 356 * 05 38 29.2080602160 -69 09 13.771421856   16.03 15.87     O6:V(n)z 10 0
18 [P93] 222 * 05 38 30.740 -69 08 27.13   15.69 15.74     O9.7III 13 0
19 Cl* NGC 2070 MEL 55 * 05 38 33.9752868864 -69 04 21.233349732 13.198 14.245 14.274   13.858 O6Vnn 13 0
20 [P93] 473 * 05 38 35.7404391000 -69 08 19.741896312   16.33 16.12     O5V((n))((fc))z 10 0
21 NAME 30 Dor Nebula SFR 05 38 36.0 -69 05 11           ~ 1188 2
22 NGC 2070 Cl* 05 38 42 -69 06.0     7.25     ~ 378 1
23 OGLE LMC-ECL-21435 EB* 05 38 42.38 -69 04 43.1   16.01 15.94   15.889 O9.5(n) 15 0
24 RMC 136 Cl* 05 38 42.396 -69 06 03.36   5.81 5.40     ~ 2017 2
25 Cl* NGC 2070 SMB 218 * 05 38 47.330 -69 06 17.70   15.91 15.89   15.89 O9.5IIInn 13 0
26 OGLE LMC175.4 95 SB* 05 38 52.0517214552 -69 05 33.884155680   15.21 15.13   15.017 O6.5V(n)+O9.7:V: 15 0
27 VFTS 663 * 05 38 52.7115283344 -69 10 14.840478984   16.75 16.52     O8.5V 8 0
28 VFTS 722 * 05 39 02.7929333280 -68 57 07.870733460   14.91 15.04     O7Vnnz 11 0
29 VFTS 724 * 05 39 02.950 -69 15 00.08   17.23 16.80     O7Vnnz 9 0
30 SSTISAGEMC J053910.91-690613.2 * 05 39 10.9163642088 -69 06 13.739103756 14.314 15.101 15.011   14.676 O3Vn((f*)) 12 0
31 VFTS 761 * 05 39 12.7300824672 -68 58 47.423390556   15.22 15.35     O6.5V((n))((f))zNstr 10 0
32 VFTS 797 * 05 39 30.6375593832 -69 09 26.350501068   14.73 14.68     O3.5V((n))((fc)) 10 0
33 NAME Local Group GrG ~ ~           ~ 8382 0

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