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KAGRA

KAGRA
In-construction KAGRA gravitational-wave detector.jpg
Organisation Institute for Cosmic Ray Research
Location(s) Kamioka Observatory, Gifu, Japan
Coordinates 36°24′43″N 137°18′21″E / 36.41194°N 137.30583°E / 36.41194; 137.30583 (KAGRA beam splitter)Coordinates: 36°24′43″N 137°18′21″E / 36.41194°N 137.30583°E / 36.41194; 137.30583 (KAGRA beam splitter)
Altitude 414 m
Telescope style gravitational-wave detector Edit this on Wikidata
Diameter 3,000 m (9,842 ft 6 in)
Website gwcenter.icrr.u-tokyo.ac.jp/en/
Commons page
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The Kamioka Gravitational Wave Detector (KAGRA), formerly the Large Scale Cryogenic Gravitational Wave Telescope (LCGT), is a project of the gravitational wave studies group at the Institute for Cosmic Ray Research (ICRR) of the University of Tokyo. The ICRR was established in 1976 for cosmic ray studies, The LCGT project was approved on 22 June 2010. In January 2012, it was given its new name, KAGRA, deriving the "KA" from its location at the Kamioka mine and "GRA" from gravity and gravitational radiation.

Two prototype detectors have been constructed to develop technologies needed for KAGRA. The first, TAMA 300, was located in Mitaka, Tokyo and operated through 2008, demonstrating the feasibility of KAGRA. The second, CLIO, is operating underground near the KAGRA site, and is being used to develop cryogenic technologies for KAGRA.

KAGRA has two arms, 3 km (1.9 mi) long, which form a laser interferometric gravitational wave detector. It is built in the Kamioka Observatory near the neutrino physics experiments. The excavation phase of tunnels was completed on 31 March 2014.

KAGRA will detect chirp waves from binary neutron star coalescence at 240 Mpc away with a signal to noise ratio of 10. The expected number of detectable events in a year is two or three. To achieve the required sensitivity, the existing state of the art techniques as used by LIGO and VIRGO (low-frequency vibration-isolation system, high-power laser system, Fabry-Pérot cavities, resonant side band extraction method, and so on) will be extended with an underground location, cryogenic mirrors, and a suspension point interferometer.


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