The VLT-FLAMES Tarantula Survey ⋆⋆⋆⋆⋆⋆

The VLT-FLAMES Tarantula Survey ⋆⋆⋆⋆⋆⋆

UvA-DARE (Digital Academic Repository) The VLT-FLAMES Tarantula Survey. XI. A census of the hot luminous stars and their feedback in 30 Doradus Doran, E.I.; Crowther, P.A.; de Koter, A.; Evans, C.J.; McEvoy, C.; Walborn, N.R.; Bastian, N.; Bestenlehner, J.M.; Gräfener, G.; Herrero, A.; Köhler, K.; Maíz Apellániz, J.; Najarro, F.; Puls, J.; Sana, H.; Schneider, F.R.N.; Taylor, W.D.; van Loon, J.Th.; Vink, J.S. DOI 10.1051/0004-6361/201321824 Publication date 2013 Document Version Final published version Published in Astronomy & Astrophysics Link to publication Citation for published version (APA): Doran, E. I., Crowther, P. A., de Koter, A., Evans, C. J., McEvoy, C., Walborn, N. R., Bastian, N., Bestenlehner, J. M., Gräfener, G., Herrero, A., Köhler, K., Maíz Apellániz, J., Najarro, F., Puls, J., Sana, H., Schneider, F. R. N., Taylor, W. D., van Loon, J. T., & Vink, J. S. (2013). The VLT-FLAMES Tarantula Survey. XI. A census of the hot luminous stars and their feedback in 30 Doradus. Astronomy & Astrophysics, 558, A134. https://doi.org/10.1051/0004- 6361/201321824 General rights It is not permitted to download or to forward/distribute the text or part of it without the consent of the author(s) and/or copyright holder(s), other than for strictly personal, individual use, unless the work is under an open content license (like Creative Commons). Disclaimer/Complaints regulations If you believe that digital publication of certain material infringes any of your rights or (privacy) interests, please let the Library know, stating your reasons. In case of a legitimate complaint, the Library will make the material inaccessible and/or remove it from the website. Please Ask the Library: https://uba.uva.nl/en/contact, or a letter to: Library of the University of Amsterdam, Secretariat, Singel 425, 1012 WP Amsterdam, The Netherlands. You willUvA-DARE be contacted is a service as provided soon as by possible.the library of the University of Amsterdam (https://dare.uva.nl) Download date:07 Oct 2021 A&A 558, A134 (2013) Astronomy DOI: 10.1051/0004-6361/201321824 & c ESO 2013 Astrophysics The VLT-FLAMES Tarantula Survey?;??;??? XI. A census of the hot luminous stars and their feedback in 30 Doradus E. I. Doran1, P. A. Crowther1, A. de Koter2;3;4, C. J. Evans5, C. McEvoy6, N. R. Walborn7, N. Bastian8, J. M. Bestenlehner9, G. Gräfener9, A. Herrero10;11, K. Köhler10, J. Maíz Apellániz13, F. Najarro14, J. Puls15, H. Sana2, F. R. N. Schneider12, W. D. Taylor5, J. Th. van Loon16, and J. S. Vink9 1 Department of Physics and Astronomy, University of Sheffield, Sheffield S3 7RH, UK e-mail: [email protected] 2 Astronomical Institute Anton Pannekoek, Amsterdam University, Science Park 904, 1098 XH, Amsterdam, The Netherlands 3 Instituut voor Sterrenkunde, Universiteit Leuven, Celestijnenlaan 200 D, 3001 Leuven, Belgium 4 Utrecht University, Princetonplein 5, 3584 CC Utrecht, The Netherlands 5 UK Astronomy Technology Centre, Royal Observatory Edinburgh, Blackford Hill, Edinburgh, EH9 3HJ, UK 6 Department of Physics & Astronomy, Queen’s University Belfast, Belfast BT7 1NN, Northern Ireland, UK 7 Space Telescope Science Institute, 3700 San Martin Drive, Baltimore, MD 21218, USA 8 Astrophysics Research Institute, Liverpool John Moores University, Egerton Wharf, Birkenhead, CH41 1LD, UK 9 Armagh Observatory, College Hill, Armagh, BT61 9DG, Northern Ireland, UK 10 Departamento de Astrofísica, Universidad de La Laguna, 38205 La Laguna, Tenerife, Spain 11 Instituto de Astrofísica de Canarias, 38200 La Laguna, Tenerife, Spain 12 Argelander-Institut für Astronomie der Universität Bonn, Auf dem Hügel 71, 53121 Bonn, Germany 13 Instituto de Astrofísica de Andalucía-CSIC, Glorieta de la Astronomía s/n, 18008 Granada, Spain 14 Centro de Astrobiología (CSIC-INTA), Ctra. de Torrejón a Ajalvir km-4, 28850 Torrejón de Ardoz, Madrid, Spain 15 Universitäts-Sternwarte, Scheinerstrasse 1, 81679 Munchen, Germany 16 Astrophysics Group, School of Physical & Geographical Sciences, Keele University, Staffordshire, ST5 5BG, UK Received 2 May 2013 / Accepted 5 August 2013 ABSTRACT Context. The VLT-FLAMES Tarantula Survey has an extensive view of the copious number of massive stars in the 30 Doradus (30 Dor) star forming region of the Large Magellanic Cloud. These stars play a crucial role in our understanding of the stellar feedback in more distant, unresolved star forming regions. Aims. The first comprehensive census of hot luminous stars in 30 Dor is compiled within a 10 arcmin (150 pc) radius of its central cluster, R136. We investigate the stellar content and spectroscopic completeness of the early type stars. Estimates were made for both the integrated ionising luminosity and stellar wind luminosity. These values were used to re-assess the star formation rate (SFR) of the region and determine the ionising photon escape fraction. Methods. Stars were selected photometrically and combined with the latest spectral classifications. Spectral types were estimated for stars lacking spectroscopy and corrections were made for binary systems, where possible. Stellar calibrations were applied to obtain their physical parameters and wind properties. Their integrated properties were then compared to global observations from ultraviolet (UV) to far-infrared (FIR) imaging as well as the population synthesis code, Starburst99. Results. Our census identified 1145 candidate hot luminous stars within 150 pc of R136 of which >700 were considered to be genuine early type stars and contribute to feedback. We assess the survey to be spectroscopically complete to 85% in the outer regions (>5 pc) but only 35% complete in the region of the R136 cluster, giving a total of 500 hot luminous stars in the census which had spectroscopy. Only 31 were found to be Wolf-Rayet (W-R) or Of/WN stars, but their contribution to the integrated ionising luminosity and wind luminosity was ∼40% and ∼50%, respectively. Similarly, stars with Minit > 100 M (mostly H-rich WN stars) also showed high contributions to the global feedback, ∼25% in both cases. Such massive stars are not accounted for by the current Starburst99 code, which was found to underestimate the integrated ionising luminosity of R136 by a factor ∼2 and the wind luminosity by a factor −1 ∼9. The census inferred a SFR for 30 Dor of 0:073 ± 0:04 M yr . This was generally higher than that obtained from some popular SFR calibrations but still showed good consistency with the far-UV luminosity tracer as well as the combined Hα and mid-infrared tracer, but only after correcting for Hα extinction. The global ionising output was also found to exceed that measured from the +55 associated gas and dust, suggesting that ∼6−6 % of the ionising photons escape the region. Conclusions. When studying the most luminous star forming regions, it is essential to include their most massive stars if one is to determine a reliable energy budget. Photon leakage becomes more likely after including their large contributions to the ionising output. If 30 Dor is typical of other massive star forming regions, estimates of the SFR will be underpredicted if this escape fraction is not accounted for. Key words. stars: early-type – stars: Wolf-Rayet – open clusters and associations: individual: 30 Doradus – stars: massive – galaxies: star clusters: general – galaxies: star formation ? Based on observations collected at the European Southern Observatory under programme ID 182.D-0222. ?? Appendices are available in electronic form at http://www.aanda.org ??? Full Tables D1 and D2 are only available at the CDS via anonymous ftp to cdsarc.u-strasbg.fr (130.79.128.5) or via http://cdsarc.u-strasbg.fr/viz-bin/qcat?J/A+A/558/A134 Article published by EDP Sciences A134, page 1 of 30 A&A 558, A134 (2013) 1. Introduction using the inferred Q0, but an accurate SFR relies on the knowl- edge of the fraction of escaping ionising photons. The Tarantula nebula (NGC 2070, 30 Doradus – hereafter A similar approach to the present study has been carried out “30 Dor”) in the Large Magellanic Cloud (LMC) is optically the for the Carina nebula. Smith(2006) and Smith & Brooks(2007) brightest H ii region in the Local Group (Kennicutt 1984). It has found the integrated radio continuum flux to provide ∼75% of been subject to numerous ground-based photometric and spec- the Q0 determined from the stellar content, suggesting a signif- troscopic studies, displaying an abundance of hot massive stars icant fraction of the photons were escaping, or were absorbed (Melnick 1985; Schild & Testor 1992; Parker 1993; Walborn by dust. Their Q0 determined from the Hα luminosity was even & Blades 1997). Hubble Space Telescope observations later re- smaller, only a third of the stellar output. This was thought to vealed their high concentration in the more crowded central clus- arise from a large non-uniform dust extinction that had been ter, R136 (Hunter et al. 1995; Massey & Hunter 1998), also be- unaccounted for. Lower luminosity H ii regions have also been lieved to be the home of stars with masses >150 M (Crowther studied in the LMC (Oey & Kennicutt 1997). Initial compar- et al. 2010). Roughly a third of the LMC Wolf-Rayet (W-R) isons to the Hα luminosity suggested 0–51% of ionising photons stars compiled in Breysacher et al.(1999) are contained within escape their regions and could potentially go on to ionise the the 30 Dor nebular region of N157 (Henize 1956), with several diffuse warm ionised medium (WIM). However, these H ii re- found within R136 itself. The stellar population of 30 Dor spans gions were later revisited by Voges et al.(2008) with updated at- multiple ages; from areas of ongoing star formation (Brandner mospheric models, indicating a reduced photon escape fraction, et al. 2001; Walborn et al. 2013) to older (∼20–25 Myr) super- with radiation being bound to the regions in all but 20–30% of giants in the Hodge 301 cluster (Grebel & Chu 2000).

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