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Nonreciprocal Phonon Blockade in a Spinning Acoustic Ring Cavity Coupled to a Two-Level System

Xiao‐Yu Yao, Hamad Ali, Fuli Li, Fuli Li

2022Physical Review Applied44 citationsDOI

Abstract

Quantum nonreciprocal devices have received extensive attention in recent years because they can be used to realize unidirectional quantum routing and noise isolation. In this work, we show that the shift of resonance frequencies of propagating phonons induced by spin-orbit interactions of phonons in a rotating acoustic ring cavity can be used to realize nonreciprocal phonon blockade. When driving the cavity from different directions, nonreciprocal single-, two-phonon blockade, and phonon-induced tunneling can take place by varying the parameters of the system to an appropriate value. To realize phonon blockade, a two-level system is employed to induce self-interactions of phonons in the cavity. We also show the possibility of this proposal for designing nonreciprocal phonon routing. This work provides a way to achieve acoustic nonreciprocal devices, such as directional acoustic switches and quantum noise isolation, which may help acoustic information network processing.

Topics & Concepts

PhononQuantum tunnellingCondensed matter physicsPhysicsQuantumResonance (particle physics)Noise (video)OptoelectronicsQuantum mechanicsComputer scienceImage (mathematics)Artificial intelligenceMechanical and Optical ResonatorsQuantum and electron transport phenomenaAcoustic Wave Resonator Technologies
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