An asymmetric rotator as a detector of monochromatic gravitational radiation

Details An asymmetric rotator as a detector of monochromatic gravitational radiation An asymmetric rotator as a detector of monochromatic gravitational radiation

Jun 1979

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1979zhetf..76.1873g&link_type=abstract

Zhurnal Eksperimental'noi i Teoreticheskoi Fiziki, vol. 76, June 1979, p. 1873-1880. In Russian.

Physics

Gravitational Wave Antennas, Monochromatic Radiation, Radiation Detectors, Rotating Bodies, Coriolis Effect, Degrees Of Freedom, Gravitational Fields, Moments Of Inertia, Resonance

Scientific paper

The interaction of a rotating asymmetric body (with different principal moments of inertia) with a gravitational wave is examined. A resonance rotational detector of monochromatic gravitational radiation is proposed in which precessions caused by an incident gravitational wave and rotations that ensure detector/wave resonance correspond to various rotational degrees of freedom. This substantially facilitates the production of such a detector. The noise is estimated which is caused by earth's gravity gradient and the rotation of the detector as a whole.

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