In this paper, we present a coherent feedback loop scheme to enhance the magnon–photon–
phonon entanglement in cavity magnomechanics. We provide a proof that the steady state …

Many applications of quantum information processing (QIP) require distribution of quantum
states in networks, both within and between distant nodes. Optical quantum states are …

We suggest a method to improve quantum correlations in cavity magnomechanics, through
the use of a coherent feedback loop and magnon squeezing. The entanglement of three …

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 study the behaviour of the second-order correlation function in a double-cavity
optomechanical system, and a degenerate optical parametric amplifier is placed in each …

We theoretically investigate the optical response and the propagation of an external probe
field in a Fabry–Perot cavity, which consists of a mechanical mode of trapped, ultracold …

This paper reviews the progress that has been made in our knowledge of quantum
correlations at the mesoscopic and macroscopic level. We begin by summarizing the …

We theoretically investigate continuous variable entanglement and macroscopic quantum
coherence in the hybrid L–G rotational cavity optomechanical system containing two YIG …

The cavity magnomechanical (CMM) system offers a new platform for studying macroscopic
quantum effects. In previous studies of CMM systems, quantum effects have mainly been …

The connections between thermodynamics and quantum information processing are of
paramount importance. Here, we address a bipartite entanglement via extracted work in a …