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W1894115822 abstract "We propose two distinct atom interferometer gravitational wave detectors, one terrestrial and another satellite-based, utilizing the core technology of the Stanford 10m atom interferometer presently under construction. Each configuration compares two widely separated atom interferometers run using common lasers. The signal scales with the distance between the interferometers, which can be large since only the light travels over this distance, not the atoms. The terrestrial experiment with baseline {approx} 1 km can operate with strain sensitivity {approx} 10{sup -19}/{radical}Hz in the 1 Hz-10 Hz band, inaccessible to LIGO, and can detect gravitational waves from solar mass binaries out to megaparsec distances. The satellite experiment with baseline {approx} 1000 km can probe the same frequency spectrum as LISA with comparable strain sensitivity {approx} 10{sup -20}/{radical}Hz. The use of ballistic atoms (instead of mirrors) as inertial test masses improves systematics coming from vibrations, acceleration noise, and significantly reduces spacecraft control requirements. We analyze the backgrounds in this configuration and discuss methods for controlling them to the required levels." @default.
W1894115822 created "2016-06-24" @default.
W1894115822 creator A5024368072 @default.
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W1894115822 creator A5063730019 @default.
W1894115822 date "2008-12-19" @default.
W1894115822 modified "2023-10-17" @default.
W1894115822 title "Atomic gravitational wave interferometric sensor" @default.
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W1894115822 doi "https://doi.org/10.1103/physrevd.78.122002" @default.
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