Virtual graviton exchange between a photon and a high-spinning quantum rotor generates entanglement between photon degrees of freedom and rotor position, with prograde-retrograde motion yielding observable differences in linear entanglement entropy.
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2 Pith papers cite this work. Polarity classification is still indexing.
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quant-ph 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
Rotation of a nonspherical particle induces dynamical Casimir photon-pair emission whose optimized rate remains too small for realistic observation under a maximum tip-velocity constraint.
citing papers explorer
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Graviton-mediated entanglement due to light bending from a quantum rotor
Virtual graviton exchange between a photon and a high-spinning quantum rotor generates entanglement between photon degrees of freedom and rotor position, with prograde-retrograde motion yielding observable differences in linear entanglement entropy.
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Dynamical Casimir photons from rotation of a nonspherical particle
Rotation of a nonspherical particle induces dynamical Casimir photon-pair emission whose optimized rate remains too small for realistic observation under a maximum tip-velocity constraint.