Add to ORKGGravitational waves in f(R) gravity excite monopole and m = 0±2 quadrupole resonance modes of a spherical detector. This document reviews the basic ideas of general relativity and gravitational waves, and then applies those concepts to an f( R) gravitational wave. The acoustic response of a GW incident with a spherical detector is reviewed in detail, and the absorption cross section for an f(R) GW impinging on the spherical detector is calculated. Minimum detectable scalar wave amplitudes are explored for the Mario Schenberg detector. The mass of the scalar mode affects its detectability
Detection of the gravitational waves predicted by the theory of general relativity is still an open ...
We review the tests of general relativity that will become possible with space-based gravitational-w...
Experimental projects using spherical antennas to detect gravitational waves are nowdays a concrete ...
A general formalism is set up to analyze the response of an arbitrary solid elastic body to an arbit...
Gravitationally coupled scalar fields, originally introduced by Jordan, Brans and Dicke to account f...
We report on some recent work, which points out the relevance of future measurements of gravitationa...
We report the results of a theoretical and experimental study of a spherical gravitational wave ante...
Gravitationally coupled scalar fields, originally introduced by Jordan, Brans and Dicke to account f...
Abstract Resonant-mass gravitational wave detectors are reviewed from the concept of gravitational w...
We study the response and cross sections for the absorption of GW energy generated in a Jordan-Brans...
"Mario Schenberg" is a spherical gravitational wave (GW) detector that will be part of a GW detectio...
In the present work we investigate the impact of weak gravitational wave in the linearized theory of...
Resonant bar gravitational wave detectors have improved greatly over the last 40 years but are curre...
Einstein's General Theory of Relativity (1916) predicted the existence of gravitational waves. These...
The principles and detection of gravitational waves by resonant antennas are briefly discussed. But ...
Detection of the gravitational waves predicted by the theory of general relativity is still an open ...
We review the tests of general relativity that will become possible with space-based gravitational-w...
Experimental projects using spherical antennas to detect gravitational waves are nowdays a concrete ...
A general formalism is set up to analyze the response of an arbitrary solid elastic body to an arbit...
Gravitationally coupled scalar fields, originally introduced by Jordan, Brans and Dicke to account f...
We report on some recent work, which points out the relevance of future measurements of gravitationa...
We report the results of a theoretical and experimental study of a spherical gravitational wave ante...
Gravitationally coupled scalar fields, originally introduced by Jordan, Brans and Dicke to account f...
Abstract Resonant-mass gravitational wave detectors are reviewed from the concept of gravitational w...
We study the response and cross sections for the absorption of GW energy generated in a Jordan-Brans...
"Mario Schenberg" is a spherical gravitational wave (GW) detector that will be part of a GW detectio...
In the present work we investigate the impact of weak gravitational wave in the linearized theory of...
Resonant bar gravitational wave detectors have improved greatly over the last 40 years but are curre...
Einstein's General Theory of Relativity (1916) predicted the existence of gravitational waves. These...
The principles and detection of gravitational waves by resonant antennas are briefly discussed. But ...
Detection of the gravitational waves predicted by the theory of general relativity is still an open ...
We review the tests of general relativity that will become possible with space-based gravitational-w...
Experimental projects using spherical antennas to detect gravitational waves are nowdays a concrete ...