In this review, the authors study how a hybrid optomechanical system (OMS), in which a
quantum micro-or nano-mechanical oscillator is coupled to the electromagnetic radiation …

We present an overall summary on a method to deal with quantum dynamics of
optomechanical systems. The method is based on the dynamical evolution processes …

Optomechanical systems in the well-resolved-sideband regime are ideal for studying a
myriad of quantum phenomena with mechanical systems, including backaction-evading …

Quantum mechanics imposes a limit on the precision of a continuous position measurement
of a harmonic oscillator, due to backaction arising from quantum fluctuations in the …

The weak force sensing based on a coherent quantum noise cancellation (CQNC) scheme
is presented in a hybrid cavity optomechanical system containing a trapped ensemble of …

We present an alternative approach to force sensing with optomechanical systems. The
operation is based on a nonlinear dynamical mechanism, which locks the mechanical …

We explore the prospects of phase-modulated optical nonreciprocity and enhanced ground-
state cooling of a mechanical resonator for the reversed-dissipation system, where the …

We study reservoir-engineered entanglement for a cascaded bosonic system consisting of
three modes, where the adjacent pairs couple to each other via both the beam-splitter …

Through simultaneous but unequal electromechanical amplification and cooling processes,
we create a method for a nearly noiseless pulsed measurement of mechanical motion. We …

Micro-and nanoscale optical or microwave cavities are used in a wide range of classical
applications and quantum science experiments, ranging from precision measurements …