Gravitational Hertz experiment with electromagnetic radiation in a strong magnetic field

TL;DR

This paper reviews the generation and detection of high-frequency gravitational radiation in laboratory settings, focusing on electromagnetic interactions in strong magnetic fields and deriving relevant formulas for experimental observation.

Contribution

It introduces a promising laboratory approach using electromagnetic and gravitational wave interactions in strong magnetic fields, with derived formulas and numerical estimates for detection feasibility.

Findings

Derived formulas for Gertsenshtein-Zeldovich effects

Numerical estimates suggest potential for laboratory detection

Discussion on experimental observation feasibility

Abstract

Brief review of principal ideas in respect of the high frequency gravitational radiation generated and detected in the laboratory condition is presented. Interaction of electro-magnetic and gravitational waves into a strong magnetic field is considered as a more promising variant of the laboratory GW-Hertz experiment. The formulae of the direct and inverse Gertsenshtein-Zeldovich effect are derived. Numerical estimates are given and a discussion of a possibility of observation of these effects in a lab is carried out.