Extreme Lasers as Tabletop Probes of Quantum Gravity

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Abstract

One of the main obstacles to testing quantum gravity is that genuinely Planckian effects are expected only at energies and curvatures far beyond current experimental reach. I point out that ultrafast, high-intensity lasers, in combination with fourth-generation x-ray light sources, already allow the laboratory production of non-inertial, effectively non-Minkowski space-time regions in which quantum fields experience enormous accelerations over micron-scale distances. By the equivalence principle, these configurations are locally indistinguishable from weak, highly curved gravitational backgrounds. I emphasize a concrete, experimentally motivated observable: the broadening of x-ray Thomson scattering from electrons accelerated in the focus of an extreme laser. This broadening depends on the acceleration and the local effective metric and hence can serve as a controlled probe of quantum mechanics and, ultimately, quantum-gravity-motivated modifications in non-Minkowski space-time.

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last seen: 2026-05-20T01:45:00.602351+00:00
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License: CC-BY-4.0