Qidong Xu scite author profile

We propose a potentially practical scheme for realization of two-mode squeezed state with respect to two distant nitrogen-vacancy center ensembles coupled to two interconnected mechanical modes of diamond nanoresonators. By making use of the tunable phonon-spin interaction and the engineered phonon-phonon tunneling, both the desired excitation transfer process and the optimal two-mode squeezing between spin ensembles can be realized. We investigate the dynamics of the total system under infulences from the mechanical decay using both analytical and numerical methods, where the realistic conditions that leads to optimized squeezing between spin ensembles are analyzed.

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Zero-dimensional models for gravitational and scalar QED decoherence

Blencowe

2022

New J. Phys.

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We investigate the dynamics of two quantum mechanical oscillator system-bath toy models obtained by truncating to zero spatial dimensions linearized gravity coupled to a massive scalar field and scalar QED. The scalar-gravity toy model maps onto the phase damped oscillator, while the scalar QED toy model approximately maps onto an oscillator system subject to two-photon damping. The toy models provide potentially useful insights into solving for open system quantum dynamics relevant to the full scalar QED and weak gravitational field systems, in particular operational probes of the decoherence for initial scalar field system superposition states.

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Qidong Xu

Gravitational waves affect vacuum entanglement

Cavity mode dephasing via the optomechanical interaction with an acoustic environment

Zero-dimensional models for gravitational and scalar QED decoherence

Phonon induced two-mode squeezing of nitrogen-vacancy center ensembles

Zero-dimensional models for gravitational and scalar QED decoherence

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