Here we describe how, utilizing a time-dependent optomechanical interaction, a mechanical
probe can provide an amplified measurement of the virtual photons dressing the quantum …

We study how an oscillating mirror affects the electromagnetically induced transparency
(EIT) of an atomic ensemble confined in a gas cell, which is placed inside a microcavity with …

We theoretically investigate the supercontinuum generation (SCG) on the basis of
modulational instability (MI) in liquid-core photonic crystal fibers (LCPCF) with CS 2-filled …

We propose an atom-assisted cavity optomechanical system consisting of a single Λ-type
three-level atom, a mechanical resonator, and a sideband-driven cavity. The analytic …

We propose a novel type of optomechanical coupling which enables a tripartite interaction
between a quantum emitter, an optical mode, and a macroscopic mechanical oscillator. The …

We study phase transition in the ferromagnetic Potts model with invisible states that are
added as redundant states by mean-field calculation and Monte Carlo simulation. Invisible …

We describe a system composed of two coupled optical cavity modes with a coupling
modulated by a bulk mechanical resonator. In addition, one of the cavity modes is …

We give a theoretical study of a double-cavity system in which a mechanical resonator beam
is coupled to two cavity modes on both sides through radiation pressures. The indirect …

In this paper, we study theoretically bipartite and tripartite continuous variable entanglement
as well as normal-mode splitting in a single-atom cavity optomechanical system with …

We theoretically analyze the light scattering of an optomechanical cavity which strongly
interacts with a single two-level system and couples simultaneously to a mechanical …