谐振器
声子
物理
热的
光力学
参数统计
噪音(视频)
振动
模式(计算机接口)
热涨落
正常模式
量子力学
光学
热力学
计算机科学
统计
操作系统
图像(数学)
数学
人工智能
作者
Imran Mahboob,Hajime Okamoto,Koji Onomitsu,Hiroshi Yamaguchi
标识
DOI:10.1103/physrevlett.113.167203
摘要
An electromechanical resonator is developed in which mechanical nonlinearities can be dynamically engineered to emulate the nondegenerate parametric down-conversion interaction. In this configuration, phonons are simultaneously generated in pairs in two macroscopic vibration modes, resulting in the amplification of their motion. In parallel, two-mode thermal squeezed states are also created, which exhibit fluctuations below the thermal motion of their constituent modes as well as harboring correlations between the modes that become almost perfect as their amplification is increased. The existence of correlations between two massive phonon ensembles paves the way towards an entangled macroscopic mechanical system at the single phonon level.
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