We propose a scheme for achieving magnon antibunching in a hybrid ferromagnet–
superconductor system, where the magnons excited in two yttrium iron garnet (YIG) spheres …

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

We explore a scheme to investigate the tunable magnon antibunching characteristics of the
conventional magnon blockade (CMB) and the unconventional magnon blockade (UMB) in …

We study the generation of a magnon blockade in a single-crystalline yttrium-iron-garnet
(YIG) sphere coupled to a three-dimensional superconducting microwave resonator that …

The implementation of a single magnon level quantum manipulation is one of the
fundamental targets in quantum magnetism with a significant practical relevance for …

The implementation of quantum network made up of multiple nodes and channels needs to
take advantage of hybrid quantum systems. So far, in the hybrid ferromagnet …

We study the multimagnon blockade and magnon-induced tunneling in the hybrid
ferromagnet-superconductor system, where a magnon mode representing the collective …

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

A hybrid system established by the direct interaction between a magnon mode and a
superconducting transmon qubit is used to realize a high-degree blockade for magnon. It is …

A stable and high-quality single-magnon state is desired by the single-magnon source for
quantum-information application with a macroscopic spin system. We consider a hybrid …