Residual particle-shield interactions and thermal vibrations impose strict positional and orientational fluctuation thresholds for observing genuine gravitationally induced entanglement, with magnetic effects dominant in superconducting setups.
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Verifying the Schrödinger equation for a single delocalized system in gravitational interaction implies gravity-mediated entanglement for two systems under two reasonable assumptions.
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Stability Thresholds for Gravitationally Induced Entanglement in Shielded Setups
Residual particle-shield interactions and thermal vibrations impose strict positional and orientational fluctuation thresholds for observing genuine gravitationally induced entanglement, with magnetic effects dominant in superconducting setups.
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Existing experiments suffice to indirectly verify the quantum essence of gravity
Verifying the Schrödinger equation for a single delocalized system in gravitational interaction implies gravity-mediated entanglement for two systems under two reasonable assumptions.