Short- and long-term evolution of a stellar disc around a massive black hole: the role of the cusp, stellar evolution and binaries
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In this article, the role of two-body relaxation, mass segregation, stellar evolution and binary heating in the dynamical evolution of a stellar disk orbiting a massive black hole is explored.Abstract:
We study the dynamical evolution of a stellar disk orbiting a massive black hole. We explore the role of two-body relaxation, mass segregation, stellar evolution and binary heating in affecting the disk evolution, and consider the impact of the nuclear cluster structure and the stellar-disk mass-function. We use analytic arguments and numerical calculations, and apply them to study the evolution of a stellar disk (similar to that observed in the Galactic center; GC), both on the short (few Myr) and longer (100 Myr) evolutionary timescales. We find the dominant processes affecting the disk evolution are two-body relaxation and mass segregation where as binary heating have only a little contribution. Massive stars play a dominant role in kinematically heating low mass stars, and driving them to high eccentricities/inclinations. Multi-mass models with realistic mass-functions for the disk stars show the disk structure to be mass stratified, with the most massive stars residing in thinner structures. Stellar evolution plays an important role in decreasing the number of massive stars with time, thereby leading to slower relaxation, where the remnant compact objects of these stars are excited to higher eccentricities/inclinations. At these later evolutionary stages dynamical heating by the nuclear cluster plays a progressively more important role. We conclude that the high eccentricities of the disk-stars in the Galactic Center suggest that the disk formed with initially high eccentricities, or that collective or secular processes dominate the disk evolution. Finally, we find that the disk structure is expected to keep a thin structure even after 100 Myrs. It therefore suggests earlier disks now containing only older, lower mass stars might still be observed in the Galactic center, unless destroyed/smeared by other non-two-body relaxation processes.read more
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TL;DR: In this paper, the authors investigate the possibility that the young binaries originated from a thin eccentric disk, similar to the one currently observed in the Galactic center, and follow the dynamical evolution of an initially thin and eccentric disk of stars with a 100% binary fraction orbiting around the supermassive black hole (SMBH).
Stellar Dynamical Evidence against a Cold Disk Origin for Stars in the Galactic Center
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TL;DR: In this paper, the authors investigate the possibility that the young binaries originated from a thin eccentric disc, similar to the one observed in the Galactic center nowadays, and follow the dynamical evolution of an initially thin and eccentric disc of stars with a 100% binary fraction orbiting around the supermassive black hole (SMBH).
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Mass Segregation in Eccentric Nuclear Disks: Enhanced Tidal Disruption Event Rates for High Mass Stars
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References
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Journal ArticleDOI
The Luminosity function and stellar evolution
TL;DR: In this paper, the evolutionary significance of the observed luminosity function for main-sequence stars in the solar neighborhood is discussed and it is shown that stars move off the main sequence after burning about 10 per cent of their hydrogen mass and that stars have been created at a uniform rate in a solar neighborhood for the last five billion years.
Journal ArticleDOI
Binary Interaction Dominates the Evolution of Massive Stars
Hugues Sana,S. E. de Mink,S. E. de Mink,A. de Koter,A. de Koter,Norbert Langer,Chris Evans,Mark Gieles,Eric Gosset,Robert G. Izzard,J.-B. Le Bouquin,Fabian Schneider +11 more
TL;DR: More than 70% of all massive stars will exchange mass with a companion, leading to a binary merger in one-third of the cases, greatly exceed previous estimates and imply that binary interaction dominates the evolution of massive stars, with implications for populations ofmassive stars and their supernovae.
Journal ArticleDOI
The Initial Mass Function of Stars: Evidence for Uniformity in Variable Systems
TL;DR: Combining IMF estimates for different populations in which the stars can be observed individually unveils an extraordinary uniformity of the IMF, which appears to hold for populations including present-day star formation in small molecular clouds.
Journal ArticleDOI
A statistical study of 233 pulsar proper motions
TL;DR: In this article, a catalogue of 233 pulsars with proper motion measurements is presented and analyzed, which contains a wide variety of pulsars including recycled objects and those associated with globular clusters or supernova remnants.