Limits on Anisotropy in the Nanohertz Stochastic Gravitational Wave Background

Open Access
Authors
  • S.R. Taylor
  • C.M.F. Mingarelli
  • J.R. Gair
  • A. Sesana
  • G. Theureau
  • S. Babak
  • C.G. Bassa
  • P. Brem
  • M. Burgay
  • R.N. Caballero
  • D.J. Champion
  • I. Cognard
  • G. Desvignes
  • L. Guillemot
  • J.W.T. Hessels
  • G.H. Janssen
  • R. Karuppusamy
  • M. Kramer
  • A. Lassus
  • P. Lazarus
  • L. Lentati
  • K. Liu
  • S. Osłowski
  • D. Perrodin
  • A. Possenti
  • M.B. Purver
  • P.A. Rosado
  • S.A. Sanidas
  • R. Smits
  • B. Stappers
  • C. Tiburzi
  • R. van Haasteren
  • A. Vecchio
  • J.P.W. Verbiest
Publication date 2015
Journal Physical Review Letters
Article number 041101
Volume | Issue number 115 | 4
Number of pages 6
Organisations
  • Faculty of Science (FNWI) - Anton Pannekoek Institute for Astronomy (API)
Abstract
The paucity of observed supermassive black hole binaries (SMBHBs) may imply that the gravitational wave background (GWB) from this population is anisotropic, rendering existing analyses suboptimal. We present the first constraints on the angular distribution of a nanohertz stochastic GWB from circular, inspiral-driven SMBHBs using the 2015 European Pulsar Timing Array data. Our analysis of the GWB in the ∼2-90  nHz band shows consistency with isotropy, with the strain amplitude in l>0 spherical harmonic multipoles ≲40% of the monopole value. We expect that these more general techniques will become standard tools to probe the angular distribution of source populations.
Document type Article
Language English
Published at https://doi.org/10.1103/PhysRevLett.115.041101
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