Gravitational wave generation by interaction of high power lasers with matter using shock waves

TL;DR

This paper analyzes how high power laser-induced shock waves in matter can generate gravitational waves, providing formulas and estimates for their properties and implications for detection.

Contribution

It introduces analytical formulas for gravitational wave generation from laser-induced shock waves, advancing understanding of their characteristics and detection prospects.

Findings

Derived formulas for metric perturbations and radiated power

Analyzed polarization and test particle behavior in gravitational waves

Provided estimates relevant for gravitational wave detection

Abstract

Gravitational wave generation by a strong shock wave in the interaction of high power laser with matter is analyzed in linear approximation of gravitational theory. The analytical formulas and estimates are derived for the metric perturbations and the radiated power of the generated gravitational waves. Furthermore the characteristics of polarization and the behavior of test particles are investigated in the presence of gravitational wave which will be important for the detection.