Gravitational waves induce 14 quantum transition channels in vector Bessel beams between OAM and SAM states, with OAM-conserving transitions proposed as the basis for a cavity-based GW detector insensitive to displacement noise.
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gr-qc 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Derives first-order EM perturbation equations from covariant Maxwell equations in GW backgrounds, shows equivalence of formulations, and calculates that typical GW strains of 10^{-21} induce EM responses of order 10^{-19} relative to incident fields.
citing papers explorer
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Quantum transitions of vector vortex light in gravitational waves
Gravitational waves induce 14 quantum transition channels in vector Bessel beams between OAM and SAM states, with OAM-conserving transitions proposed as the basis for a cavity-based GW detector insensitive to displacement noise.
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First-Order Perturbations of Covariant Maxwell Equations in Gravitational Waves
Derives first-order EM perturbation equations from covariant Maxwell equations in GW backgrounds, shows equivalence of formulations, and calculates that typical GW strains of 10^{-21} induce EM responses of order 10^{-19} relative to incident fields.