We present protocols to generate quantum entanglement on nonlocal magnons in hybrid
systems composed of yttrium iron garnet (YIG) spheres, microwave cavities and a …

We investigate dynamical generation of macroscopic nonlocal entanglements between two
remote massive magnon–superconducting-circuit hybrid systems. Two fiber-coupled …

Generation of entanglement between spatially separated macroscopic systems enables
quantum networks and fundamental tests of quantum theory. Here, we propose a scheme to …

In general, a magnon does not interact directly with an atom. Here we present a scheme to
generate coherent coupling between two magnons and a superconducting artificial atom via …

The generation of robust entanglement in quantum system arrays is a crucial aspect of
realizing efficient quantum information processing. Recently, the field of quantum magnonics …

In this work, we study the phenomena of quantum-interference-assisted magnon blockade
and magnon antibunching in a weakly interacting hybrid ferromagnet-superconductor …

We propose a scheme to generate entanglement between magnon and superconducting
qubit. The macroscopic yttrium–iron–garnet sphere and superconducting qubit are installed …

We propose a scheme for generating and controlling entangled coherent states (ECSs) of
magnons, ie, the quanta of the collective spin excitations in magnetic systems, or phonons in …

Finding new strategies for the generation and preservation of quantum resources, eg
entanglement between spatially separated macroscopic systems enables reliable and fertile …

Optimized generation of entangled states between solid-state qubits is of fundamental
significance to quantum information science and technology. Here, we develop an effective …