Physics – Space Physics
Scientific paper
Oct 1982
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1982ncimc...5..507d&link_type=abstract
Nuovo Cimento C, Geophysics and Space Physics, vol. 5C, Sept.-Oct. 1982, p. 507-514. Research supported by the Consiglio Naziona
Physics
Space Physics
Compton Effect, Gravitational Wave Antennas, Inverse Scattering, Photon-Electron Interaction, Photonuclear Reactions, Photoproduction, Relativistic Electron Beams, Resonance Scattering, Continuous Wave Lasers, Electromagnetic Absorption, Frequency Shift, High Energy Interactions, Laser Target Interactions, Light Scattering, Resonant Frequencies, Weak Interactions (Field Theory)
Scientific paper
A new approach to experiments which seek to detect gravity waves by exploiting nuclear resonance effects is proposed. This approach exploits the fact that nuclear resonances can be induced by high-energy photons produced by inverse Compton scattering of a laser beam with ultrarelativistic electrons rather than by nuclear deexcitation. It is found that for this approach, the effect of a train of gravitational waves on the resonant frequencies can be made independent of the high-energy photon travel time. The largest frequency shift can be achieved by making the incident laser photon travel time comparable with the gravitational wavelength; this appears to be feasible using multiple reflection techniques. It is also found that a residual kinematical Doppler frequency shift exists regardless of travel times of either the incident or the scattering photons.
de Felice Fernando
Turolla Roberto
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