D. Lloyd scite author profile

In 2009-2010, the Laser Interferometer Gravitational-wave Observatory (LIGO) operated together with international partners Virgo and GEO600 as a network to search for gravitational waves of astrophysical origin. The sensitivity of these detectors was limited by a combination of noise sources inherent to the instrumental design and its environment, often localized in time or frequency, that couple into the gravitational-wave readout. Here we review the performance of the LIGO instruments during this epoch, the work done to characterize the detectors and their data, and the effect that transient and continuous noise artefacts have on the sensitivity of LIGO to a variety of astrophysical sources.

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Analysis of the Quiescent Low‐Mass X‐Ray Binary Population in Galactic Globular Clusters

Heinke¹,

Grindlay²,

Lugger³

et al. 2003

ApJ

179

243

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Quiescent low-mass X-ray binaries (qLMXBs) containing neutron stars have been identified in several globular clusters using Chandraor XMM X-ray observations, using their soft thermal spectra. We report a complete census of the qLMXB population in these clusters, identifying three additional probable qLMXBs in NGC 6440. We conduct several analyses of the qLMXB population, and compare it with the harder, primarily CV, population of low-luminosity X-ray sources with 10 31 < L X < 10 32.5 ergs s −1 . The radial distribution of our qLMXB sample suggests an average system mass of 1.5 +0.3 −0.2 M ⊙ , consistent with a neutron star and low-mass companion. Spectral analysis reveals that no globular cluster qLMXBs, other than the transient in NGC 6440, require an additional hard power-law component as often observed in field qLMXBs. We identify an empirical lower luminosity limit of 10 32 ergs s −1 among globular cluster qLMXBs. The bolometric luminosity range of qLMXBs implies (in the deep crustal heating model of Brown and collaborators) low time-averaged mass transfer rates, below the disk stability criterion. The X-ray luminosity functions of the CV populations alone in NGC 6397 and 47 Tuc are shown to differ. The distribution of qLMXBs among globular clusters is consistent with their dynamical formation by either tidal capture or exchange encounters, allowing us to estimate that seven times more qLMXBs than bright LMXBs reside in globular clusters. The distribution of harder sources (primarily CVs) has a weaker dependence upon density than that of the qLMXBs. Finally, we discuss possible effects of core collapse and globular cluster destruction upon X-ray source populations.

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Gravitational Waves From Known Pulsars: Results From the Initial Detector Era

Aasi¹,

Abadie²,

Abbott³

et al. 2014

ApJ

142

186

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We present the results of searches for gravitational waves from a large selection of pulsars using data from the most recent science runs (S6, VSR2 and VSR4) of the initial generation of interferometric gravitational wave detectors LIGO (Laser Interferometric Gravitational-wave Observatory) and Virgo. We do not see evidence for gravitational wave emission from any of the targeted sources but produce upper limits on the emission amplitude. We highlight the results from seven young pulsars with large spin-down luminosities. We reach within a factor of five of the canonical spin-down limit for all seven of these, whilst for the Crab and Vela pulsars we further surpass their spin-down limits. We present new or updated limits for 172 other pulsars (including both young and millisecond pulsars). Now that the detectors are undergoing major upgrades, and, for completeness, we bring together all of the most up-to-date results from all pulsars searched for during the operations of the first-generation LIGO, Virgo and GEO600 detectors. This gives a total of 195 pulsars including the most recent results described in this paper.

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Directed search for continuous gravitational waves from the Galactic center

Aasi¹,

Abadie²,

Abbott³

et al. 2013

Phys. Rev. D

138

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We present the results of a directed search for continuous gravitational waves from unknown, isolated neutron stars in the Galactic center region, performed on two years of data from LIGO's fifth science run from two LIGO detectors. The search uses a semicoherent approach, analyzing coherently 630 segments, each spanning 11.5 hours, and then incoherently combining the results of the single segments. It covers gravitational wave frequencies in a range from 78 to 496 Hz and a frequency-dependent range of first-order spindown values down to -7.86 x 10(-8) Hz/s at the highest frequency. No gravitational waves were detected. The 90% confidence upper limits on the gravitational wave amplitude of sources at the Galactic center are similar to 3.35 x 10(-25) for frequencies near 150 Hz. These upper limits are the most constraining to date for a large-parameter-space search for continuous gravitational wave signals

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Constraints on Cosmic Strings from the LIGO-Virgo Gravitational-Wave Detectors

Aasi¹,

Abadie²,

Abbott³

et al. 2014

Phys. Rev. Lett.

113

117

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D. Lloyd

Characterization of the LIGO detectors during their sixth science run

Analysis of the Quiescent Low‐Mass X‐Ray Binary Population in Galactic Globular Clusters

Gravitational Waves From Known Pulsars: Results From the Initial Detector Era

Directed search for continuous gravitational waves from the Galactic center

Constraints on Cosmic Strings from the LIGO-Virgo Gravitational-Wave Detectors

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