Simulating a stochastic background of gravitational waves from neutron star formation at cosmological distances
We develop a temporal simulation of the potentially detectable gravitational wave background from neutron star formation at cosmological distances. By using a recent model for the evolving star formation rate, we investigate the statistical distribution of gravitational wave amplitudes due to supern...
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Published in | Monthly notices of the Royal Astronomical Society Vol. 329; no. 2; pp. 411 - 416 |
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Main Authors | , , |
Format | Journal Article |
Language | English |
Published |
Oxford, UK
Blackwell Science Ltd
11.01.2002
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Abstract | We develop a temporal simulation of the potentially detectable gravitational wave background from neutron star formation at cosmological distances. By using a recent model for the evolving star formation rate, we investigate the statistical distribution of gravitational wave amplitudes due to supernovae that result in neutron star formation in the Einstein–de Sitter cosmology. We find that the gravitational wave amplitude distribution in our frame is highly skewed, with skewness related to the distribution of sources, and that the potentially detectable gravitational wave strain is dominated by sources at a redshift of . Time traces of the simulation, using selected waveforms, are presented graphically and are also made available as web based audio files. The method developed can readily be extended to different cosmologies, as well as to incorporate other waveforms and source types. This type of simulation will be useful in testing and optimizing detection strategies for gravitational wave backgrounds due to various types of individually undetectable astrophysical sources. |
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AbstractList | Abstract
We develop a temporal simulation of the potentially detectable gravitational wave background from neutron star formation at cosmological distances. By using a recent model for the evolving star formation rate, we investigate the statistical distribution of gravitational wave amplitudes due to supernovae that result in neutron star formation in the Einstein-de Sitter cosmology. We find that the gravitational wave amplitude distribution in our frame is highly skewed, with skewness related to the distribution of sources, and that the potentially detectable gravitational wave strain is dominated by sources at a redshift of . Time traces of the simulation, using selected waveforms, are presented graphically and are also made available as web based audio files. The method developed can readily be extended to different cosmologies, as well as to incorporate other waveforms and source types. This type of simulation will be useful in testing and optimizing detection strategies for gravitational wave backgrounds due to various types of individually undetectable astrophysical sources. We develop a temporal simulation of the potentially detectable gravitational wave background from neutron star formation at cosmological distances. By using a recent model for the evolving star formation rate, we investigate the statistical distribution of gravitational wave amplitudes due to supernovae that result in neutron star formation in the Einstein–de Sitter cosmology. We find that the gravitational wave amplitude distribution in our frame is highly skewed, with skewness related to the distribution of sources, and that the potentially detectable gravitational wave strain is dominated by sources at a redshift of . Time traces of the simulation, using selected waveforms, are presented graphically and are also made available as web based audio files. The method developed can readily be extended to different cosmologies, as well as to incorporate other waveforms and source types. This type of simulation will be useful in testing and optimizing detection strategies for gravitational wave backgrounds due to various types of individually undetectable astrophysical sources. We develop a temporal simulation of the potentially detectable gravitational wave background from neutron star formation at cosmological distances. By using a recent model for the evolving star formation rate, we investigate the statistical distribution of gravitational wave amplitudes due to supernovae that result in neutron star formation in the Einstein-de Sitter cosmology. We find that the gravitational wave amplitude distribution in our frame is highly skewed, with skewness related to the distribution of sources, and that the potentially detectable gravitational wave strain is dominated by sources at a redshift of 2-3. Time traces of the simulation, using selected waveforms, are presented graphically and are also made available as web-based audio files. The method developed can readily be extended to different cosmologies, as well as to incorporate other waveforms and source types. This type of simulation will be useful in testing and optimizing detection strategies for gravitational wave backgrounds due to various types of individually undetectable astrophysical sources. (Author) |
Author | Blair, David G. Coward, David M. Burman, Ronald R. |
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Cites_doi | 10.1046/j.1365-8711.2001.04378.x 10.1103/PhysRevD.57.4535 10.1046/j.1365-8711.1999.02194.x 10.1086/308174 10.1093/mnras/283.2.648 10.1046/j.1365-8711.1998.01697.x 10.1103/PhysRevLett.76.352 10.1086/317299 10.1038/28328 10.1016/S0370-1573(99)00102-7 10.1086/310829 10.1086/309975 10.1103/PhysRevLett.55.891 |
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References | 2000; 528 1997; 317 2001 2000; 544 1980; 89 1999; 59 1997; 320 1997; 486 1996; 283 2000; 331 1996; 460 1985; 55 1998; 297 1999; 303 1998; 332 1996; 76 2001; 324 1998; 57 1998; 394 Coward ( key 20170715041527_bib6) 2001; 324 Maggiore ( key 20170715041527_bib14) 2000; 331 Flanagan ( key 20170715041527_bib10) 1998; 57 Zwerger ( key 20170715041527_bib19) 1997; 320 Coward ( key 20170715041527_bib7) 2001 Cuesta ( key 20170715041527_bib8) 2000; 544 Stark ( key 20170715041527_bib17) 1985; 55 Yungelson ( key 20170715041527_bib18) 2000; 528 Hughes ( key 20170715041527_bib11) 1998; 394 Carr ( key 20170715041527_bib4) 1980; 89 Blair ( key 20170715041527_bib2) 1996; 283 Madau ( key 20170715041527_bib13) 1998; 297 Ferrari ( key 20170715041527_bib9) 1999; 303 Rampp ( key 20170715041527_bib16) 1998; 332 Müller ( key 20170715041527_bib15) 1997; 317 Burrows ( key 20170715041527_bib3) 1996; 76 Connolly ( key 20170715041527_bib5) 1997; 486 Allen ( key 20170715041527_bib1) 1999; 59 Lilly ( key 20170715041527_bib12) 1996; 460 |
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Snippet | We develop a temporal simulation of the potentially detectable gravitational wave background from neutron star formation at cosmological distances. By using a... Abstract We develop a temporal simulation of the potentially detectable gravitational wave background from neutron star formation at cosmological distances. By... |
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Title | Simulating a stochastic background of gravitational waves from neutron star formation at cosmological distances |
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