Ke‐Xun Sun scite author profile

DECi-hertz Interferometer Gravitational wave Observatory (DECIGO) is the future Japanese space gravitational wave antenna. DECIGO is expected to open a new window of observation for gravitational wave astronomy especially between 0.1 Hz and 10 Hz, revealing various mysteries of the universe such as dark energy, formation mechanism of supermassive black holes, and inflation of the universe. The pre-conceptual design of DECIGO consists of three drag-free spacecraft, whose relative displacements are measured by a differential Fabry-Perot Michelson interferometer. We plan to launch two missions, DECIGO pathfinder and pre-DECIGO first and finally DECIGO in 2024.

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Upper limit map of a background of gravitational waves

Abbott¹,

Abbott²,

Adhikari³

et al. 2007

Phys. Rev. D

123

173

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Search for gravitational waves from low mass binary coalescences in the first year of LIGO’s S5 data

Abbott¹,

Abbott²,

Adhikari³

et al. 2009

Phys. Rev. D

135

169

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Search for gravitational-wave bursts in the first year of the fifth LIGO science run

Abbott¹,

Abbott²,

Adhikari³

et al. 2009

Phys. Rev. D

116

124

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We present the results obtained from an all-sky search for gravitational-wave (GW) bursts in the 64-2000 Hz frequency range in data collected by the LIGO detectors during the first year (November 2005-November 2006) of their fifth science run. The total analyzed live time was 268.6 days. Multiple hierarchical data analysis methods were invoked in this search. The overall sensitivity expressed in terms of the root-sum-square (rss) strain amplitude h rss for gravitational-wave bursts with various morphologies was in the range of 6 Â 10 À22 Hz À1=2 to a few Â 10 À21 Hz À1=2 . No GW signals were observed and a frequentist upper limit of 3.75 events per year on the rate of strong GW bursts was placed at the 90% confidence level. As in our previous searches, we also combined this rate limit with the detection efficiency for selected waveform morphologies to obtain event rate versus strength exclusion curves. In sensitivity, these exclusion curves are the most stringent to date.

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Search for gravitational-wave bursts in LIGO data from the fourth science run

Abbott¹,

Abbott²,

Adhikari³

et al. 2007

Class. Quantum Grav.

107

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The fourth science run of the LIGO and GEO 600 gravitational-wave detectors, carried out in early 2005, collected data with significantly lower noise than previous science runs. We report on a search for short-duration gravitationalwave bursts with arbitrary waveform in the 64-1600 Hz frequency range appearing in all three LIGO interferometers. Signal consistency tests, data quality cuts and auxiliary-channel vetoes are applied to reduce the rate of spurious triggers. No gravitational-wave signals are detected in 15.5 days of live observation time; we set a frequentist upper limit of 0.15 day −1 (at 90% confidence level) on the rate of bursts with large enough amplitudes to be detected reliably. The amplitude sensitivity of the search, characterized using Monte Carlo simulations, is several times better than that of previous searches. We also provide rough estimates of the distances at which representative supernova and binary black hole merger signals could be detected with 50% efficiency by this analysis.PACS numbers: 04.80. Nn, 95.85.Sz

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Ke‐Xun Sun

The Japanese space gravitational wave antenna: DECIGO

Upper limit map of a background of gravitational waves

Search for gravitational waves from low mass binary coalescences in the first year of LIGO’s S5 data

Search for gravitational-wave bursts in the first year of the fifth LIGO science run

Search for gravitational-wave bursts in LIGO data from the fourth science run

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