Quantum-information methods for quantum gravity laboratory-based tests
Abstract
Quantum theory and general relativity are about one century old. At present, they are considered the best available explanations of physical reality, and they have been so far corroborated by all experiments realised so far. Nonetheless, the quest to unify them is still ongoing, with several yet untested proposals for a theory of quantum gravity. Here we review the nascent field of information-theoretic methods applied to designing tests of quantum gravity in the laboratory. This field emerges from the fruitful extension of quantum information theory methodologies beyond the domain of applicability of quantum theory itself, to cover gravity. We shall focus mainly on the detection of gravitational entanglement between two quantum probes, comparing this method with single-probe schemes. We shall review the experimental proposal that has originated this field, as well as its variants, their applications, and discuss their potential implications for the quantum theory of gravity. We shall also highlight the role of general information-theoretic principles in illuminating the search for quantum effects in gravity.
Cite
@article{arxiv.2410.07262,
title = {Quantum-information methods for quantum gravity laboratory-based tests},
author = {Chiara Marletto and Vlatko Vedral},
journal= {arXiv preprint arXiv:2410.07262},
year = {2024}
}
Comments
Under review for Rev. Mod. Phys