We propose how to achieve nonreciprocal quantum phase transition in a spinning
microwave magnonic system composed of a spinning microwave resonator coupled with an …

Nonreciprocal sideband responses in a spinning microwave magnomechanical system
consists of a spinning resonator coupled with a yttrium iron garnet sphere are proposed. We …

Here, we propose to generate the nonreciprocal macroscopic entanglement and steering of
magnon modes from three yttrium iron garnet spheres, which are placed in a spinning …

Inspired by the new discovery that the nonlinear dynamics of the cavity magnon polaritons
have been observed with a small yttrium iron garnet (YIG) sphere (which introduces a …

This study presents nonreciprocal transmission and nonreciprocal magnon–phonon
entanglement in a spinning microwave magnomechanical system. This system consists of …

A nonreciprocal magnon laser is proposed in a compound cavity optomagnonical system
consisting of an yttrium iron garnet sphere coupled to a spinning resonator. On the basis of …

We propose a theoretical scheme for the generation of nonreciprocal microwave-optical
entanglement in a magnon-based hybrid system where an optical photon in a spinning …

A nonreciprocal optomagnonic device that has dual properties of classical and quantum
nonreciprocity is proposed by Hong-Yu Liu, Rong-Can Yang, and co-workers in article …

Nonreciprocal devices that allow unidirectional wave propagation are indispensable in
many scientific fields, including, for example, optics, acoustics, electronics, and …

We theoretically demonstrate nonreciprocity in signal transmission within a three-mode
system by exploiting the nonlinear magnetostrictive interaction within a ferrimagnetic …