Laboratory experiments to test relativistic gravity

Details Laboratory experiments to test relativistic gravity Laboratory experiments to test relativistic gravity

Apr 1977

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1977phrvd..15.2047b&link_type=abstract

Physical Review D - Particles and Fields, 3rd Series, vol. 15, Apr. 15, 1977, p. 2047-2068.

Physics

91

Gravitation Theory, Gravitational Waves, Relativistic Theory, Rotating Bodies, Dielectrics, Eigenvectors, Experiment Design, Gravitational Effects, Gravitational Fields, Microwave Resonance, Mirrors, Single Crystals, Superconductors, Torquemeters, Torsion

Scientific paper

This paper proposes seven experiments for testing relativistic gravity. Three experiments would utilize a high-Q torque balance as the detector. They include (1) an 'Ampere-type' experiment to measure the gravitational spin-spin coupling of two rotating bodies, (2) a search for time changes of the gravitation constant, and (3) a measurement of the gravity produced by magnetic stresses and energy. Three experiments would utilize a high-Q dielectric crystal as the detector. They include (1) a 'Faraday-type' experiment to measure the 'electric-type' gravity produced by a time-changing flux of 'magnetic-type' gravity, (2) a search for 'preferred-frame' and 'preferred-orientation' effects in gravitational coupling, and (3) a measurement of the gravitational field produced by protons moving in a storage ring at nearly the speed of light. One experiment would use a high-Q toroidal microwave cavity as detector to search for the dragging of inertial frames by a rotating body.

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