Litcius/Paper detail

Nonreciprocal Mechanical Squeezing in a Spinning Optomechanical System

Shan‐Shan Chen, Shanshan Meng, Hong‐Wen Deng, Guojian Yang

2020Annalen der Physik22 citationsDOI

Abstract

Abstract A scheme for nonreciprocal mechanical squeezing (NMS) based on the three‐mode optomechanical interaction is proposed. In this scheme, a mechanical mode couples to a spinning whispering‐gallery‐cavity (WGC) mode and to an optical mode. An external laser is coupled into and thus drives the WGC via a waveguide. Mechanical squeezing results from the joint effect of the mechanical intrinsic nonlinearity and the quadratic optomechanical coupling, which, in the presence of strong thermal noise, is still considerable, while the nonreciprocity originates from the optical Sagnac effect. There are two NMS areas in the parametric space, one works for the laser driving from the left of the waveguide and another, from the right. For a given spinning speed of the WGC, the squeezing values in these two areas are equal if the corresponding detunings of the WGC differ from each other by two‐times of the Sagnac–Fizeau shift. At the red‐detuning resonance, the analytical results for the mechanical squeezing and cooling are obtained. The NMS scheme is robust to the thermal noise of the mechanical environment.

Topics & Concepts

SpinningPhysicsNoise (video)OptomechanicsOpticsCoupling (piping)ThermalNonlinear systemMechanical systemMechanical resonanceWhispering-gallery waveLaserWaveguideVibrationAcousticsQuantum mechanicsResonatorMaterials scienceComputer scienceImage (mathematics)Artificial intelligenceMetallurgyComposite materialMeteorologyMechanical and Optical ResonatorsPhotonic and Optical DevicesForce Microscopy Techniques and Applications