4.7 Article

Search for gravitational waves from binary black hole inspiral, merger, and ringdown

PHYSICAL REVIEW D (2011)

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Journal

PHYSICAL REVIEW D
Volume 83, Issue 12, Pages -

Publisher

AMER PHYSICAL SOC
DOI: 10.1103/PhysRevD.83.122005

Keywords

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Categories

Astronomy & Astrophysics Physics, Particles & Fields

Funding

  1. United States National Science Foundation
  2. Science and Technology Facilities Council of the United Kingdom
  3. Max-Planck-Society
  4. State of Niedersachsen/Germany
  5. Australian Research Council
  6. Council of Scientific and Industrial Research of India
  7. Istituto Nazionale di Fisica Nucleare of Italy
  8. Spanish Ministerio de Educacion y Ciencia
  9. Conselleria d'Economia Hisenda i Innovacio of the Govern de les Illes Balears
  10. Foundation for Fundamental Research on Matter
  11. Netherlands Organisation for Scientific Research
  12. Polish Ministry of Science and Higher Education
  13. Foundation for Polish Science
  14. Royal Society
  15. Scottish Funding Council
  16. Scottish Universities Physics Alliance
  17. National Aeronautics and Space Administration
  18. Carnegie Trust
  19. Leverhulme Trust
  20. David and Lucile Packard Foundation
  21. Research Corporation
  22. Alfred P. Sloan Foundation
  23. Grants-in-Aid for Scientific Research [10J02592] Funding Source: KAKEN
  24. Division Of Physics
  25. Direct For Mathematical & Physical Scien [0757058, 0757957] Funding Source: National Science Foundation
  26. STFC [ST/I006242/1, ST/I001085/1, ST/I001026/1, PP/F001118/1, ST/I000887/1, ST/I006285/1, PP/F00110X/1, Gravitational Waves, ST/F01032X/1] Funding Source: UKRI
  27. Science and Technology Facilities Council [ST/I001026/1 Gravitational Waves, ST/I000887/1, ST/I006285/1, ST/I001085/1, ST/F01032X/1, PP/F00110X/1, ST/I000887/1 Gravitational Waves, PP/F001118/1, ST/I006242/1, ST/I001026/1, Gravitational Waves, ST/I006242/1 Gravitational Waves] Funding Source: researchfish

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We present the first modeled search for gravitational waves using the complete binary black-hole gravitational waveform from inspiral through the merger and ringdown for binaries with negligible component spin. We searched approximately 2 years of LIGO data, taken between November 2005 and September 2007, for systems with component masses of 1-99M(circle dot) and total masses of 25-100M(circle dot). We did not detect any plausible gravitational-wave signals but we do place upper limits on the merger rate of binary black holes as a function of the component masses in this range. We constrain the rate of mergers for 19M(circle dot) <= m(1), m(2) <= 28M(circle dot) binary black-hole systems with negligible spin to be no more than 2.0 Mpc(-3) Myr(-1) at 90% confidence.

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