We demonstrate a scheme for the generation of bipartite and tripartite entanglement, as well
as he implementation of stable and controllable long-distance one-way and asymmetric two …

We show how to implement stationary one-way quantum steering with strong entanglement
in a cavity magnonic system that consists of two magnon modes and a microwave cavity …

In the two microwave (MW) cross-shaped cavity magnon system, we describe a method to
produce multipartite entanglement and quantum steering. To achieve squeezed states of the …

Quantum steering plays a crucial role in quantum communication and one-way quantum
computation. Here, we study quantum steering between two magnon modes in a cavity …

We present an alternative scheme to generate genuine tripartite entanglement and steering
among one photon and two magnons in a cavity magnonical system, where two yttrium iron …

Quantum entanglement (QE) and quantum steering (QS) are of importance for quantum
information processing and computation. Though there are several schemes proposed for …

We propose a simple scheme to generate quantum entanglement and one-way steering
between distinct mode pairs in a generic cavity magnomechanical system, which is …

We propose a hybrid cavity magnomechanical system to realize and transfer the bipartite
entanglements and Einstein-Podolsky-Rosen (EPR) steerings between magnons, photons …

Quantum entanglement is a key element for quantum information that can be generated in a
double-cavity magnomechanical system that consists of two microwave cavities, a magnon …

In the cavity-magnonics system, the coupling between microwave photon and magnon is of
beam-splitter (BS) interaction, which in general does not support steady-state entanglement …