DOI:10.1103/PhysRevD.89.042002

Corpus ID: 493813

Template banks for binary black hole searches with numerical relativity waveforms

@article{Kumar2014TemplateBF,
  title={Template banks for binary black hole searches with numerical relativity waveforms},
  author={P. Kumar and I. Macdonald and D. Brown and H. Pfeiffer and K. Cannon and M. Boyle and L. Kidder and Abdul H. Mrou'e and M. Scheel and B. Szil{\'a}gyi and Anil Zenginoglu},
  journal={Physical Review D},
  year={2014},
  volume={89},
  pages={042002}
}

P. Kumar, I. Macdonald, +8 authors Anil Zenginoglu

Published 2014

Physics

Physical Review D

Gravitational waves from coalescing stellar-mass black hole binaries (BBHs) are expected to be detected by the Advanced Laser Interferometer gravitational-wave observatory and Advanced Virgo. Detection searches operate by matched filtering the detector data using a bank of waveform templates. Traditionally, template banks for BBHs are constructed from intermediary analytical waveform models which are calibrated against numerical relativity simulations and which can be evaluated for any choice… CONTINUE READING

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References

SHOWING 1-10 OF 104 REFERENCES

SORT BY

Gravitational-Wave Physics and Astronomy: An Introduction to Theory, Experiment and Data Analysis

104
PDF

G.G. Stokes
1890

228,279

What are “ A ” and “ B ” ?

A. News, E. Lu, +73 authors James

66,048
PDF

Information Theory

L. Goddard
Nature
1962

2,747
PDF

P ? ? ? ? ? ? ? % ? ? ? ?

Lesterol IN Pregnancy
1991

133,697
PDF

Ericka Stricklin-Parker, B. A. Schneider
2005

59,321

Phys

Rev. D 87, 082004
2013

L

E. Kidder, et al., Phys.Rev. D84, 124052
2011

Phys

Rev. D 84, 124052
2011

LIGO Scientific Collaboration), Class.Quant.Grav

2010

‹
1
2
3
4
5
›