Multiple star systems in the Orion nebula
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B. Lazareff | G. Perrin | C. Hummel | G. Rousset | R. Lenzen | R. Abuter | T. Henning | P. Haguenauer | W. Brandner | N. Hubin | S. Lacour | S. Hippler | J. Spyromilio | R. Brast | Y. Magnard | T. Moulin | D. Popovic | N. Schuhler | M. Suárez | G. Zins | P. Bourget | F. Gao | J. Kolb | S. Oberti | J. Woillez | H. Bonnet | J. Berger | I. Percheron | G. Duvert | M. Esselborn | L. Pasquini | A. Eckart | R. Genzel | J. Dexter | G. Finger | F. Eisenhauer | T. Paumard | T. D. Zeeuw | L. Jochum | K. Tristram | P. Kervella | U. Grozinger | A. Huber | J. Panduro | K. Perraut | M. Benisty | R. Grellmann | A. M'erand | J. Bouquin | S. Gillessen | T. Ott | S. Rabien | P. Garcia | E. Sturm | O. Pfuhl | F. Dérie | T. P. Duc | M. Kulas | F. Gao | M. Horrobin | L. Kern | M. Kiekebusch | P. F'edou | C. Collin | F. Chapron | P. Plewa | M. Habibi | G. Jakob | E. Wieprecht | E. Wiezorrek | M. Riquelme | Chien-Cheng Lin | M. Ebert | L. Mehrgan | M. Wittkowski | V. C. D. Foresto | L. Jocou | A. Amorim | X. Haubois | A. Kaufer | V. Lapeyrère | S. Scheithauer | O. Straub | C. Straubmeier | F. Vincent | I. Waisberg | F. Widmann | S. Yazici | Z. Hubert | N. Anugu | A. Buron | Y. Cl'enet | C. Deen | F. Delplancke-Strobele | R. Dembet | P. Gordo | M. Haug | F. Haussmann | A. Rosales | S. Kellner | P. L'ena | M. Lippa | E. Muller | U. Neumann | A. Ram'irez | J. Ramos | C. Rau | G. Rodr'iguez-Coira | R. Rohloff | J. Sanchez-Bermudez | M. Scholler | I. Wank | M. Wiest | D. Ziegler | M. Accardo | G. Ávila | W. D. Wit | C. G. Dabo | S. Guieu | O. Hans | S. L'eveque | F. Muller | L. Pallanca | A. Pfluger | N. Ventura | B. Wolff | R. Kohler | R. G. Lopez | R. Klein | A. C. O. Garatti | P. Guajardo | Gravity collaboration Martina Karl | Nicolas Bland | 'Eric Gandron | F. Gont'e | Sarah Kandrew | T. Zeeuw | Feng Gao | M. Suarez | J. L. Bouquin | T. Ott
[1] L. Szabados,et al. Gaia Data Release 2 , 2018, Astronomy & Astrophysics.
[2] T. A. Lister,et al. Gaia Data Release 2. Summary of the contents and survey properties , 2018, 1804.09365.
[3] Adrian M. Price-Whelan,et al. Binary Companions of Evolved Stars in APOGEE DR14: Search Method and Catalog of ∼5000 Companions , 2018, The Astronomical Journal.
[4] O. H. Ramírez-Agudelo,et al. An excess of massive stars in the local 30 Doradus starburst , 2018, Science.
[5] S. Bontemps,et al. High-Mass Star and Massive Cluster Formation in the Milky Way , 2017, Annual Review of Astronomy and Astrophysics.
[6] J. Monnier,et al. Linking Signatures of Accretion with Magnetic Field Measurements–Line Profiles are not Significantly Different in Magnetic and Non-magnetic Herbig Ae/Be Stars , 2017, 1711.04636.
[7] R. Genzel,et al. Twelve Years of Spectroscopic Monitoring in the Galactic Center: The Closest Look at S-stars near the Black Hole , 2017, 1708.06353.
[8] C. Hummel,et al. GRAVITY Spectro-interferometric Study of the Massive Multiple Stellar System HD 93206 A , 2017, 1707.04915.
[9] K. Mužić,et al. The low-mass content of the massive young star cluster RCW 38 , 2017, 1707.00277.
[10] Kaitlin M. Kratter,et al. Dynamical Formation of Close Binaries during the Pre-main-sequence Phase , 2017, 1706.09894.
[11] S. Rabien,et al. First light for GRAVITY: Phase referencing optical interferometry for the Very Large Telescope Interferometer , 2017, 1705.02345.
[12] H. Sana,et al. A dearth of short-period massive binaries in the young massive star forming region M 17 - Evidence for a large orbital separation at birth? , 2017, 1702.02153.
[13] the BinaMIcS collaboration,et al. BD-19 5044L: discovery of a short-period SB2 system with a magnetic Bp primary in the open cluster IC 4725 , 2017, 1701.06945.
[14] A. Ruelas-Mayorga,et al. On the dynamical evolution of the Orion Trapezium , 2017, 1701.03440.
[15] C. Neiner,et al. The MiMeS survey of Magnetism in Massive Stars : magnetic analysis of the O-type stars , 2016, 1610.07895.
[16] N. N. Kireeva,et al. General catalogue of variable stars: Version GCVS 5.1 , 2017 .
[17] M. Moe,et al. Mind Your Ps and Qs: The Interrelation between Period (P) and Mass-ratio (Q) Distributions of Binary Stars , 2016, 1606.05347.
[18] M. Haas,et al. The bimodal initial mass function in the Orion Nebula Cloud , 2016, 1605.03600.
[19] Olivier Chesneau,et al. Pseudomagnitudes and Differential Surface Brightness: Application to the apparent diameter of stars , 2016, 1604.07700.
[20] G. Lodato,et al. Gravitational Instabilities in Circumstellar Disks , 2016, 1603.01280.
[21] Jonathan C. Tan,et al. IN-SYNC. IV. THE YOUNG STELLAR POPULATION IN THE ORION A MOLECULAR CLOUD , 2015, 1511.04147.
[22] H. McAlister,et al. Robust high-contrast companion detection from interferometric observations - The CANDID algorithm and an application to six binary Cepheids , 2015, 1505.02715.
[23] M. Krumholz. The Formation of Very Massive Stars , 2014, 1403.3417.
[24] Y. Balega,et al. Physics and evolution of magnetic and related stars : proceedings of a conference held at special astrophysical ovservatory, Nizhny Arkhyz, Russia 25-31 August 2014 , 2015 .
[25] O. Absil,et al. SOUTHERN MASSIVE STARS AT HIGH ANGULAR RESOLUTION: OBSERVATIONAL CAMPAIGN AND COMPANION DETECTION , 2014, 1409.6304.
[26] M. Newville,et al. Lmfit: Non-Linear Least-Square Minimization and Curve-Fitting for Python , 2014 .
[27] N. Przybilla,et al. Fundamental properties of nearby single early B-type stars , 2014, 1412.1418.
[28] K. L. J. Rygl,et al. TRIGONOMETRIC PARALLAXES OF HIGH MASS STAR FORMING REGIONS: THE STRUCTURE AND KINEMATICS OF THE MILKY WAY , 2014, 1401.5377.
[29] S. Lafrasse,et al. ASPRO 2: Astronomical Software to PRepare Observations , 2013 .
[30] A. Sander,et al. One of the most massive stars in the Galaxy may have formed in isolation , 2013, 1309.7651.
[31] Prasanth H. Nair,et al. Astropy: A community Python package for astronomy , 2013, 1307.6212.
[32] Harvard-Smithsonian CfA,et al. Stellar Multiplicity , 2013, 1303.3028.
[33] Paul M. Brunet,et al. The Gaia mission , 2013, 1303.0303.
[34] S. Kraus,et al. The multiplicity of massive stars in the Orion Nebula Cluster as seen with long-baseline interferometry , 2013, 1301.3045.
[35] Bing Zhang,et al. A COMPREHENSIVE STUDY OF GAMMA-RAY BURST OPTICAL EMISSION. II. AFTERGLOW ONSET AND LATE RE-BRIGHTENING COMPONENTS , 2012, 1210.5142.
[36] G. Bruce Berriman,et al. Astrophysics Source Code Library , 2012, ArXiv.
[37] K. Cunha,et al. PROJECTED ROTATIONAL VELOCITIES AND STELLAR CHARACTERIZATION OF 350 B STARS IN THE NEARBY GALACTIC DISK , 2012, 1208.1674.
[38] C. Evans,et al. Binary Interaction Dominates the Evolution of Massive Stars , 2012, Science.
[39] H. Zinnecker,et al. A spectroscopic survey on the multiplicity of high-mass stars , 2012, 1205.5238.
[40] P. Young. O vi RECOMBINATION LINES IN ULTRAVIOLET AND VISIBLE SPECTRA OF RR TELESCOPII , 2012 .
[41] R. Klein,et al. RADIATION-HYDRODYNAMIC SIMULATIONS OF THE FORMATION OF ORION-LIKE STAR CLUSTERS. II. THE INITIAL MASS FUNCTION FROM WINDS, TURBULENCE, AND RADIATION , 2012, 1203.2620.
[42] T. Henning,et al. Massive binaries in the Cepheus OB2/3 region. Constraining the formation mechanism of massive stars , 2012 .
[43] Renyue Cen,et al. COINCIDENCES BETWEEN O vi AND O vii LINES: INSIGHTS FROM HIGH-RESOLUTION SIMULATIONS OF THE WARM-HOT INTERGALACTIC MEDIUM , 2011, 1112.4527.
[44] K. Stassun,et al. THE INITIAL MASS FUNCTION OF THE ORION NEBULA CLUSTER ACROSS THE H-BURNING LIMIT , 2011, 1112.2711.
[45] P. Kroupa,et al. The stellar and sub-stellar IMF of simple and composite populations , 2011, 1112.3340.
[46] Laurent Jocou,et al. Searching for faint companions with VLTI/PIONIER. I. Method and first results , 2011, 1110.1178.
[47] N. Morrell,et al. THE GALACTIC O-STAR SPECTROSCOPIC SURVEY. I. CLASSIFICATION SYSTEM AND BRIGHT NORTHERN STARS IN THE BLUE-VIOLET AT R ∼ 2500 , 2011, 1101.4002.
[48] C. Clarke,et al. Collisional formation of very massive stars in dense clusters , 2010, 1009.0283.
[49] N. D. Rio,et al. A MULTI-COLOR OPTICAL SURVEY OF THE ORION NEBULA CLUSTER. II. THE H-R DIAGRAM , 2010, 1008.1265.
[50] R. Diehl,et al. Probing the evolving massive star population in Orion with kinematic and radioactive tracers , 2010, 1005.3827.
[51] Θ 1 Orionis C - A triple system? , 2010 .
[52] Simon Portegies Zwart,et al. Young Massive Star Clusters , 2010, 1002.1961.
[53] Cambridge,et al. A Universal Stellar Initial Mass Function? A critical look at variations in extreme environments , 2010, 1001.2965.
[54] Zhi-Yun Li,et al. OUTFLOW FEEDBACK REGULATED MASSIVE STAR FORMATION IN PARSEC-SCALE CLUSTER-FORMING CLUMPS , 2009, 0908.4129.
[55] B. Skiff,et al. VizieR Online Data Catalog , 2009 .
[56] M. Schoeller,et al. Tracing the young massive high-eccentricity binary system Theta 1 Orionis C through periastron passage , 2009, 0902.0365.
[57] R. Klein,et al. The Formation of Massive Star Systems by Accretion , 2009, Science.
[58] L. Schanne,et al. Long-term monitoring of theta1 OriC: the spectroscopic orbit and an improved rotational period , 2008, 0805.0701.
[59] L. Observatory,et al. Optical Interferometric Observations of θ1 Orionis C from NPOI and Implications for the System Orbit , 2008, 0801.2584.
[60] Y. Balega,et al. Speckle interferometry of nearby multiple stars. IV. Measurements in 2004 and new orbits , 2007, 0712.2573.
[61] K. Menten,et al. The distance to the Orion Nebula , 2007, 0709.0485.
[62] E. Ostriker,et al. Theory of Star Formation , 2007, 0707.3514.
[63] H. Zinnecker,et al. Toward Understanding Massive Star Formation , 2007, 0707.1279.
[64] G. Weigelt,et al. Visual/infrared interferometry of Orion Trapezium stars: preliminary dynamical orbit and aperture synthesis imaging of the θ1 Orionis C system , 2007, astro-ph/0702462.
[65] E. Tatulli,et al. Interferometric data reduction with AMBER/VLTI. Principle, estimators, and illustration. , 2006, astro-ph/0603046.
[66] C. Matzner,et al. Fragmentation of massive protostellar discs , 2006, astro-ph/0609692.
[67] R. Griffin,et al. θ1 Orionis E as a Spectroscopic Binary , 2006 .
[68] H. Zinnecker,et al. Binary Stars in the Orion Nebula Cluster , 2006, Proceedings of the International Astronomical Union.
[69] N. Leister,et al. Spectroscopic analysis of southern B and Be stars , 2006, astro-ph/0606149.
[70] S. Cassisi,et al. Evolution of Stars and Stellar Populations: Salaris/Evolution of Stars and Stellar Populations , 2006 .
[71] Radiation Feedback and Fragmentation in Massive Protostellar Cores , 2006, astro-ph/0603026.
[72] G. Wade,et al. The magnetic field and confined wind of the O star theta^1 Orionis C , 2006, astro-ph/0601623.
[73] V. Tsymbal,et al. THE BM Ori system. IV. A new component of the system , 2006 .
[74] I. Bonnell,et al. Binary systems and stellar mergers in massive star formation , 2005, astro-ph/0506689.
[75] E. Feigelson,et al. X-Ray Emission from Early-Type Stars in the Orion Nebula Cluster , 2005, astro-ph/0505503.
[76] Philip Massey,et al. The effective temperature scale of galactic red supergiants : Cool, but not as cool as we thought , 2005 .
[77] F. Martins,et al. A new calibration of stellar parameters of Galactic O stars , 2005, astro-ph/0503346.
[78] L. Testi,et al. The origin of massive O-type field stars - II. Field O stars as runaways , 2005 .
[79] I. Bonnell. Competitive Accretion and the IMF , 2005, astro-ph/0501258.
[80] L. Testi,et al. The Origin of Massive O-type Field Stars. Part I: A Search for Clusters , 2004, astro-ph/0405348.
[81] L. Hillenbrand,et al. The Angular Momentum Evolution of 0.1-10 M☉ Stars from the Birth Line to the Main Sequence , 2003, astro-ph/0310280.
[82] P. Kroupa,et al. Galactic-Field Initial Mass Functions of Massive Stars , 2003 .
[83] P. Massey. Massive Stars in the Local Group: Implications for Stellar Evolution and Star Formation , 2003 .
[84] M. Lloyd-Hart,et al. HIGH-RESOLUTION IMAGES OF ORBITAL MOTION IN THE TRAPEZIUM CLUSTER: FIRST SCIENTIFIC RESULTS FROM THE MULTIPLE MIRROR TELESCOPE DEFORMABLE SECONDARY MIRROR ADAPTIVE OPTICS SYSTEM , 2003, astro-ph/0309003.
[85] Galactic-Field IMFs of Massive Stars , 2003, astro-ph/0308356.
[86] I. Bonnell,et al. The hierarchical formation of a stellar cluster , 2003, astro-ph/0305082.
[87] G. Chabrier. Galactic Stellar and Substellar Initial Mass Function , 2003, astro-ph/0304382.
[88] Gerd Weigelt,et al. Orbital motion of the massive multiple stars in the Orion Trapezium , 2003 .
[89] C. Lada,et al. Embedded Clusters in Molecular Clouds , 2003, astro-ph/0301540.
[90] A preliminary radial-velocity curve for the star θ1 Ori D , 2002 .
[91] I. Bonnell,et al. The formation of close binary systems by dynamical interactions and orbital decay , 2002, astro-ph/0212403.
[92] Tim J. Harries,et al. The magnetic field and wind confinement of θ1 Orionis C , 2002 .
[93] E. Vitrichenko. A study of the radial velocity of the star Θ1 Ori C , 2002 .
[94] G. Weigelt,et al. Speckle interferometry of nearby multiple stars. II. , 2002 .
[95] E. Feigelson,et al. X-Ray-emitting Young Stars in the Orion Nebula , 2002, astro-ph/0203316.
[96] U. Florida,et al. The Luminosity and Mass Function of the Trapezium Cluster: From B Stars to the Deuterium-burning Limit , 2002, astro-ph/0203122.
[97] C. McKee,et al. Massive star formation in 100,000 years from turbulent and pressurized molecular clouds , 2002, Nature.
[98] Pavel Kroupa. The Initial Mass Function of Stars: Evidence for Uniformity in Variable Systems , 2002, Science.
[99] H. Yorke,et al. On the Formation of Massive Stars , 2002, astro-ph/0201041.
[100] S. Plachinda,et al. Masses and radii of the components of 1016 Ori , 2001 .
[101] C. Clarke,et al. Competitive accretion in embedded stellar clusters , 2001, astro-ph/0102074.
[102] P. Kroupa. On the variation of the initial mass function , 2000, astro-ph/0009005.
[103] E. Vitrichenko,et al. Solving wolf’s uvbyRI light curves for the star BM Ori , 2000 .
[104] G. Weigelt,et al. Multiplicity of the massive stars in the Orion Nebula cluster 1 1 Based on data collected at the SAO , 1999 .
[105] A. Lagrange,et al. A search for spectroscopic binaries among Herbig Ae/Be stars , 1999 .
[106] Laird M. Close,et al. Adaptive Optics Imaging of the Orion Trapezium Cluster , 1999 .
[107] STAR FORMATION IN GALAXIES ALONG THE HUBBLE SEQUENCE , 1998, astro-ph/9807187.
[108] Andrea Richichi,et al. Binary Stars in the Orion Trapezium Cluster Core , 1998 .
[109] B. Mason,et al. ICCD Speckle Observations of Binary Stars. XIX. An Astrometric/Spectroscopic Survey of O Stars , 1998 .
[110] L. Hillenbrand,et al. A Preliminary Study of the Orion Nebula Cluster Structure and Dynamics , 1998 .
[111] J. Doye,et al. Global Optimization by Basin-Hopping and the Lowest Energy Structures of Lennard-Jones Clusters Containing up to 110 Atoms , 1997, cond-mat/9803344.
[112] L. Hillenbrand. On the Stellar Population and Star-Forming History of the Orion Nebula Cluster , 1997 .
[113] C. Clarke,et al. Accretion and the stellar mass spectrum in small clusters , 1997 .
[114] C. O’Dell,et al. Hubble Space Telescope Mapping of the Orion Nebula. I. A Survey of Stars and Compact Objects , 1996 .
[115] Alan P. Boss,et al. Formation of Binary Stars , 1993 .
[116] H. Levato,et al. Spectroscopic binaries in the Orion OB1 association , 1991 .
[117] H. Abt,et al. Spectroscopic binaries in the Orion Nebula cluster , 1991 .
[118] J. Stutzki,et al. The Orion Molecular Cloud and Star-Forming Region , 1988 .
[119] F. Adams,et al. Star Formation in Molecular Clouds: Observation and Theory , 1987 .
[120] M. Simon,et al. High-Resolution X-ray Observations of the Orion Nebula , 1982, Science.
[121] R. Broucke. Orbital motion , 1980 .
[122] D. Popper,et al. BM orionis: The enigmatic eclipsing binary in the trapezium , 1976 .
[123] H. Levato,et al. SPECTRAL TYPES IN THE ORION NEBULA CLUSTER. , 1976 .
[124] E. Salpeter. The Luminosity function and stellar evolution , 1955 .
[125] G. Herbig. Spectra of Variable Stars in the Orion Nebula. , 1950 .
[126] H. Schneller. BM Orionis, ein Bedeckungsveränderlicher , 1948 .