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

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

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

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 …

We theoretically propose a magnon-based superconducting qubit hybrid system containing
two ferromagnetic yttrium iron garnets (YIGs) and one superconducting qubit, demonstrating …

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 …

The hybrid system between the transmon and the magnon plays an important role in
quantum information science. Additionally, the cat states of the magnon are a valuable …

We investigate the correlations of magnons inside a nanomagnet and identify an
unconventional phase so-called magnon antibunching, ie, where there is a large probability …

We propose a scheme to achieve nonreciprocal magnon blockade via the Barnett effect in a
magnon-based hybrid system. Due to the rotating yttrium iron garnet (YIG) sphere, the …

Recently, great progress has been made in the creation of a solid-state quantum computer
using superconducting qubits on Cooper pairs of charged electrons. However, this approach …