Directional quantum-squeezing-enabled nonreciprocal enhancement of entanglement
We theoretically propose how to achieve nonreciprocal enhancement of bipartite and
tripartite entanglement using an optomechanical resonator coupled to a nonlinear optical …
tripartite entanglement using an optomechanical resonator coupled to a nonlinear optical …
Self-Injection Locking for Low Phase Noise Phonon Laser
Phonon lasers, as analogues of optical lasers, have received widespread attention in
optomechanical systems. In this Article, we achieve phonon laser self-injection locking using …
optomechanical systems. In this Article, we achieve phonon laser self-injection locking using …
Optomechanical Frequency Comb Based on Multiple Nonlinear Dynamics
Phonon-based frequency combs that can be generated in the optical and microwave
frequency domains have attracted much attention due to the small repetition rates and the …
frequency domains have attracted much attention due to the small repetition rates and the …
Correlation measurement of few-phonon interference
The interferometer is a vital technology in achieving coherent control and measurement in
quantum systems. In this study, we present a few-phonon interferometer based on an …
quantum systems. In this study, we present a few-phonon interferometer based on an …
Compensation of the thermal effect in a mounted microbubble resonator
ZY Wang, HL Ren, HY Qiao, R Niu… - IEEE Photonics …, 2023 - ieeexplore.ieee.org
To mitigate the temperature dependence of the resonance frequency in microcavities,
athermal photonic devices have been developed by incorporating materials with an …
athermal photonic devices have been developed by incorporating materials with an …