Testing General Relativity With Laser Accelerated Electron Beams
arXiv:1207.3770 · doi:10.1063/1.4736750
Abstract
Electron accelerations of the order of $10^{21} g$ obtained by laser fields open up the possibility of experimentally testing one of the cornerstones of general relativity, the weak equivalence principle, which states that the local effects of a gravitational field are indistinguishable from those sensed by a properly accelerated observer in flat space-time. We illustrate how this can be done by solving the Einstein equations in vacuum and integrating the geodesic equations of motion for a uniformly accelerated particle.
Proceedings of LEI 2011 - Light at Extreme Intensities Conference, Szeged, Hungary, 2011