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Experimental Realization of Nonreciprocal Adiabatic Transfer of Phonons in a Dynamically Modulated Nanomechanical Topological Insulator

Tian Tian, Yichuan Zhang, Liang Zhang, Longhao Wu, Shaochun Lin, Jingwei Zhou, Chang‐Kui Duan, Jian‐Hua Jiang, Jiangfeng Du

2022Physical Review Letters32 citationsDOI

Abstract

High quality nanomechanical oscillators are promising platforms for quantum entanglement and quantum technology with phonons. Realizing coherent transfer of phonons between distant oscillators is a key challenge in phononic quantum information processing. Here, we report on the realization of robust unidirectional adiabatic pumping of phonons in a parametrically coupled nanomechanical system engineered as a one-dimensional phononic topological insulator. By exploiting three nearly degenerate local modes-two edge states and an interface state between them-and the dynamic modulation of their mutual couplings, we achieve nonreciprocal adiabatic transfer of phononic excitations from one edge to the other with near unit fidelity. We further demonstrate the robustness of such adiabatic transfer of phonons in the presence of various noises in the control signals. Our experiment paves the way toward nonreciprocal phonon dynamics via adiabatic pumping and is valuable for phononic quantum information processing.

Topics & Concepts

Adiabatic processPhononDegenerate energy levelsPhysicsTopological insulatorQuantumQuantum entanglementStimulated Raman adiabatic passageTopology (electrical circuits)Quantum mechanicsCondensed matter physicsCombinatoricsMathematicsMechanical and Optical ResonatorsTopological Materials and PhenomenaForce Microscopy Techniques and Applications
Experimental Realization of Nonreciprocal Adiabatic Transfer of Phonons in a Dynamically Modulated Nanomechanical Topological Insulator | Litcius