Gravitational waves induce long-range dissipative couplings among atoms in ordered arrays via the EM vacuum, producing a distinct superradiant photon emission shifted by the GW frequency and persisting under disorder.
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Entanglement between accelerated probes in de Sitter spacetime varies independently with acceleration and curvature depending on detector motion configurations, unlike the single-probe effective-acceleration mapping.
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Gravitational Wave-Induced Superradiance in Ordered Atomic Arrays
Gravitational waves induce long-range dissipative couplings among atoms in ordered arrays via the EM vacuum, producing a distinct superradiant photon emission shifted by the GW frequency and persisting under disorder.
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Entanglement between accelerated probes in a de Sitter spacetime
Entanglement between accelerated probes in de Sitter spacetime varies independently with acceleration and curvature depending on detector motion configurations, unlike the single-probe effective-acceleration mapping.