Nonlinear magnonics studies the nonlinear interaction between magnons and other
physical platforms (phonon, photon, qubit, spin texture) to generate novel magnon states for …

Cavity magnomechanics (CMM) has rapidly become a new research field of cavity quantum
electrodynamics for studying quantum information processing and sensing. Here, we …

The present study is based on a theoretically feasible scheme for the enhancement of
entanglement between different bipartitions due to magnon squeezing in a two-cavity …

The interaction between magnons and mechanical vibrations dynamically modifies the
properties of the mechanical oscillator, such as its frequency and decay rate. Known as …

Hybrid quantum systems based on magnons in magnetic materials have made significant
progress in the past decade. They are built based on the couplings of magnons with …

We show how to achieve strong squeezing of a microwave output field by reservoir
engineering a cavity magnomechanical system, consisting of a microwave cavity, a magnon …

We propose a scheme to generate steady-state bipartite and tripartite entanglement in the
cavity magnomechanical system, which consists of a microwave (MW) cavity field, three …

Magnon blockade is one of the effective methods for realizing single magnon sources which
have great potential application in quantum information processing and quantum computing …

Entanglement formation between the magnons as the internal degrees of freedom and the
center-of-mass motion (CM) as the external degrees of freedom of a levitated yttrium iron …

Ground-state cooling is a crucial issue in cavity magnomechanical systems, which have
emerged as a prominent platform for quantum detection technology due to their operational …