Literature DB >> 27337338

The first gravitational-wave source from the isolated evolution of two stars in the 40-100 solar mass range.

Krzysztof Belczynski1, Daniel E Holz2, Tomasz Bulik1, Richard O'Shaughnessy3.   

Abstract

The merger of two massive (about 30 solar masses) black holes has been detected in gravitational waves. This discovery validates recent predictions that massive binary black holes would constitute the first detection. Previous calculations, however, have not sampled the relevant binary-black-hole progenitors--massive, low-metallicity binary stars--with sufficient accuracy nor included sufficiently realistic physics to enable robust predictions to better than several orders of magnitude. Here we report high-precision numerical simulations of the formation of binary black holes via the evolution of isolated binary stars, providing a framework within which to interpret the first gravitational-wave source, GW150914, and to predict the properties of subsequent binary-black-hole gravitational-wave events. Our models imply that these events form in an environment in which the metallicity is less than ten per cent of solar metallicity, and involve stars with initial masses of 40-100 solar masses that interact through mass transfer and a common-envelope phase. These progenitor stars probably formed either about 2 billion years or, with a smaller probability, 11 billion years after the Big Bang. Most binary black holes form without supernova explosions, and their spins are nearly unchanged since birth, but do not have to be parallel. The classical field formation of binary black holes we propose, with low natal kicks (the velocity of the black hole at birth) and restricted common-envelope evolution, produces approximately 40 times more binary-black-holes mergers than do dynamical formation channels involving globular clusters; our predicted detection rate of these mergers is comparable to that from homogeneous evolution channels. Our calculations predict detections of about 1,000 black-hole mergers per year with total masses of 20-80 solar masses once second-generation ground-based gravitational-wave observatories reach full sensitivity.

Year:  2016        PMID: 27337338     DOI: 10.1038/nature18322

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


  2 in total

1.  Binary interaction dominates the evolution of massive stars.

Authors:  H Sana; S E de Mink; A de Koter; N Langer; C J Evans; M Gieles; E Gosset; R G Izzard; J-B Le Bouquin; F R N Schneider
Journal:  Science       Date:  2012-07-27       Impact factor: 47.728

2.  Observation of Gravitational Waves from a Binary Black Hole Merger.

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Journal:  Phys Rev Lett       Date:  2016-02-11       Impact factor: 9.161
  2 in total
  9 in total

1.  Astrophysics: Recipe for a black-hole merger.

Authors:  J J Eldridge
Journal:  Nature       Date:  2016-06-23       Impact factor: 49.962

Review 2.  The mechanism(s) of core-collapse supernovae.

Authors:  Sean M Couch
Journal:  Philos Trans A Math Phys Eng Sci       Date:  2017-10-28       Impact factor: 4.226

3.  Gravitational waves: History of black holes revealed by their spin.

Authors:  Steinn Sigurðsson
Journal:  Nature       Date:  2017-08-23       Impact factor: 49.962

4.  Gravitational waves: Stellar palaeontology.

Authors:  Ilya Mandel; Alison Farmer
Journal:  Nature       Date:  2017-07-19       Impact factor: 49.962

5.  Parameter Estimation for Gravitational-wave Bursts with the BayesWave Pipeline.

Authors:  Bence Bécsy; Peter Raffai; Neil J Cornish; Reed Essick; Jonah Kanner; Erik Katsavounidis; Tyson B Littenberg; Margaret Millhouse; Salvatore Vitale
Journal:  Astrophys J       Date:  2017-04-07       Impact factor: 5.874

6.  Primordial black holes and the origin of the matter-antimatter asymmetry.

Authors:  Juan García-Bellido
Journal:  Philos Trans A Math Phys Eng Sci       Date:  2019-11-11       Impact factor: 4.226

7.  A wide star-black-hole binary system from radial-velocity measurements.

Authors:  Jifeng Liu; Haotong Zhang; Andrew W Howard; Zhongrui Bai; Youjun Lu; Roberto Soria; Stephen Justham; Xiangdong Li; Zheng Zheng; Tinggui Wang; Krzysztof Belczynski; Jorge Casares; Wei Zhang; Hailong Yuan; Yiqiao Dong; Yajuan Lei; Howard Isaacson; Song Wang; Yu Bai; Yong Shao; Qing Gao; Yilun Wang; Zexi Niu; Kaiming Cui; Chuanjie Zheng; Xiaoyong Mu; Lan Zhang; Wei Wang; Alexander Heger; Zhaoxiang Qi; Shilong Liao; Mario Lattanzi; Wei-Min Gu; Junfeng Wang; Jianfeng Wu; Lijing Shao; Rongfeng Shen; Xiaofeng Wang; Joel Bregman; Rosanne Di Stefano; Qingzhong Liu; Zhanwen Han; Tianmeng Zhang; Huijuan Wang; Juanjuan Ren; Junbo Zhang; Jujia Zhang; Xiaoli Wang; Antonio Cabrera-Lavers; Romano Corradi; Rafael Rebolo; Yongheng Zhao; Gang Zhao; Yaoquan Chu; Xiangqun Cui
Journal:  Nature       Date:  2019-11-27       Impact factor: 49.962

8.  Integrative biological simulation praxis: Considerations from physics, philosophy, and data/model curation practices.

Authors:  Gopal P Sarma; Victor Faundez
Journal:  Cell Logist       Date:  2017-11-29

9.  Formation of the first three gravitational-wave observations through isolated binary evolution.

Authors:  Simon Stevenson; Alejandro Vigna-Gómez; Ilya Mandel; Jim W Barrett; Coenraad J Neijssel; David Perkins; Selma E de Mink
Journal:  Nat Commun       Date:  2017-04-05       Impact factor: 14.919
  9 in total

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