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Search for gravitational waves from primordial black hole binary coalescences in the galactic halo

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Cusack, B J; McClelland, David; Scott, Susan M; Searle, Antony; Heefner, J; Heurs, M; Hough, J; Ivanov, A

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We use data from the second science run of the LIGO gravitational-wave detectors to search for the gravitational waves from primordial black hole binary coalescence with component masses in the range 0.2-1.0M. The analysis requires a signal to be found in the data from both LIGO observatories, according to a set of coincidence criteria. No inspiral signals were found. Assuming a spherical halo with core radius 5 kpc extending to 50 kpc containing nonspinning black holes with masses in the range...[Show more]

dc.contributor.authorCusack, B J
dc.contributor.authorMcClelland, David
dc.contributor.authorScott, Susan M
dc.contributor.authorSearle, Antony
dc.contributor.authorHeefner, J
dc.contributor.authorHeurs, M
dc.contributor.authorHough, J
dc.contributor.authorIvanov, A
dc.date.accessioned2015-12-13T22:48:26Z
dc.date.available2015-12-13T22:48:26Z
dc.identifier.issn0556-2821
dc.identifier.urihttp://hdl.handle.net/1885/80099
dc.description.abstractWe use data from the second science run of the LIGO gravitational-wave detectors to search for the gravitational waves from primordial black hole binary coalescence with component masses in the range 0.2-1.0M. The analysis requires a signal to be found in the data from both LIGO observatories, according to a set of coincidence criteria. No inspiral signals were found. Assuming a spherical halo with core radius 5 kpc extending to 50 kpc containing nonspinning black holes with masses in the range 0.2-1.0M, we place an observational upper limit on the rate of primordial black hole coalescence of 63 per year per Milky Way halo (MWH) with 90% confidence.
dc.publisherAmerican Physical Society
dc.sourcePhysical Review D
dc.titleSearch for gravitational waves from primordial black hole binary coalescences in the galactic halo
dc.typeJournal article
local.description.notesImported from ARIES
local.description.refereedYes
local.identifier.citationvolume72
dc.date.issued2005
local.identifier.absfor020110 - Stellar Astronomy and Planetary Systems
local.identifier.absfor029904 - Synchrotrons; Accelerators; Instruments and Techniques
local.identifier.ariespublicationMigratedxPub8425
local.type.statusPublished Version
local.contributor.affiliationCusack, B J, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationMcClelland, David, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationScott, Susan M, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationSearle, Antony, College of Physical and Mathematical Sciences, ANU
local.contributor.affiliationHeefner, J, California Institute of Technology
local.contributor.affiliationHeurs, M, University of Hannover
local.contributor.affiliationHough, J, University of Glasgow
local.contributor.affiliationIvanov, A, California Institute of Technology
local.bibliographicCitation.startpage082002/1
local.bibliographicCitation.lastpage8
local.identifier.doi10.1103/PhysRevD.72.082002
dc.date.updated2015-12-11T10:28:49Z
local.identifier.scopusID2-s2.0-29744454867
CollectionsANU Research Publications

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