Quantum Weak Equivalence Principle and the Gravitational Casimir Effect in Superconductors

Bahamonde, Sebastian; Faizal, Mir; Quach, James Q.; Norte, Richard A.

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World Scientific Publishing, International Journal of Modern Physics D, 14(29), p. 2043024, 2020

DOI: 10.1142/s0218271820430245

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Quantum Weak Equivalence Principle and the Gravitational Casimir Effect in Superconductors

Journal article published in 2020 by Sebastian Bahamonde, Mir Faizal, James Q. Quach

, Richard A. Norte

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Abstract

We will use Fisher information to properly analyze the quantum weak equivalence principle. We argue that gravitational waves will be partially reflected by superconductors. This will occur as the violation of the weak equivalence principle in Cooper pairs is larger than the surrounding ionic lattice. Such reflections of virtual gravitational waves by superconductors can produce a gravitational Casimir effect, which may be detected using currently available technology.

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Quantum Weak Equivalence Principle and the Gravitational Casimir Effect in Superconductors

Abstract