Title:	Improved upper limits on the stochastic gravitational-wave background from 2009-2010 LIGO and Virgo Data
Authors:	Aasi, J. Abbott, B.P. Abbott, R. Iyer, B.R. LIGO Scientific Collaboration and Virgo Collaboration +842 Co authors
Issue Date:	5-Dec-2014
Publisher:	American Physical Society
Citation:	Physical Review Letters, 2014, Vol. 113, p 231101
Abstract:	Gravitational waves from a variety of sources are predicted to superpose to create a stochastic background. This background is expected to contain unique information from throughout the history of the Universe that is unavailable through standard electromagnetic observations, making its study of fundamental importance to understanding the evolution of the Universe. We carry out a search for the stochastic background with the latest data from the LIGO and Virgo detectors. Consistent with predictions from most stochastic gravitational-wave background models, the data display no evidence of a stochastic gravitational-wave signal. Assuming a gravitational-wave spectrum of ΩGW(f)=Ωα(f/fref)α, we place 95% confidence level upper limits on the energy density of the background in each of four frequency bands spanning 41.5–1726 Hz. In the frequency band of 41.5–169.25 Hz for a spectral index of α=0, we constrain the energy density of the stochastic background to be ΩGW(f)<5.6×10−6. For the 600–1000 Hz band, ΩGW(f)<0.14(f/900  Hz)3, a factor of 2.5 lower than the best previously reported upper limits. We find ΩGW(f)<1.8×10−4 using a spectral index of zero for 170–600 Hz and ΩGW(f)<1.0(f/1300  Hz)3 for 1000–1726 Hz, bands in which no previous direct limits have been placed. The limits in these four bands are the lowest direct measurements to date on the stochastic background. We discuss the implications of these results in light of the recent claim by the BICEP2 experiment of the possible evidence for inflationary gravitational waves.
Description:	Open Access
URI:	http://hdl.handle.net/2289/6090
ISSN:	0031-9007 1079-7114(Online)
Alternative Location:	http://arxiv.org/abs/1406.4556 http://dx.doi.org/10.1103/PhysRevLett.113.231101 http://adsabs.harvard.edu/abs/2014PhRvL.113w1101A
Copyright:	2014 American Physical Society
Appears in Collections:	Research Papers (TP)

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