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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Optomechanically levitated nanoparticles resolve individual gas collisions from Kr, Xe, and SF6, matching theory and reaching 200 keV/c impulse sensitivity for precision metrology.
A rotating all-optical saddle trap for levitated nanoparticles enables reduced decoherence, large motional delocalization, and zepto-Newton force detection in mesoscopic quantum experiments.
citing papers explorer
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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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Optomechanical Detection of Individual Gas Collisions
Optomechanically levitated nanoparticles resolve individual gas collisions from Kr, Xe, and SF6, matching theory and reaching 200 keV/c impulse sensitivity for precision metrology.
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All-optical saddle trap as a platform for mesoscopic quantum experiments
A rotating all-optical saddle trap for levitated nanoparticles enables reduced decoherence, large motional delocalization, and zepto-Newton force detection in mesoscopic quantum experiments.