Detection of Scalar Particles in Gravitational Waves from Resonant-Mass   Detectors of Spherical Shape

E. Coccia; F. Fucito

arXiv:gr-qc/9807052·gr-qc·May 23, 2007

Detection of Scalar Particles in Gravitational Waves from Resonant-Mass Detectors of Spherical Shape

E. Coccia, F. Fucito

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TL;DR

This paper discusses how future gravitational wave measurements using spherical resonant-mass detectors could provide insights into alternative theories of gravity beyond Einstein's general relativity.

Contribution

It highlights the potential of spherical resonant-mass detectors to test non-Einstein gravity theories through gravitational wave observations.

Findings

01

Spherical detectors can detect scalar particles in gravitational waves.

02

Future measurements could distinguish between Einstein and non-Einstein gravity theories.

03

The work emphasizes the importance of spherical detectors for fundamental physics.

Abstract

We report on some recent work, which points out the relevance of future measurements of gravitational waves by resonant-mass detectors of spherical shape for theories of gravity of non-Einstein type.

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Taxonomy

TopicsPulsars and Gravitational Waves Research · Geophysics and Gravity Measurements · Dark Matter and Cosmic Phenomena