Spintronics and quantum information science are two promising candidates for innovating
information processing technologies. The combination of these two fields enables us to build …

Realizing precise control over multiquanta emission is crucial for quantum information
processing, especially when integrated with advanced techniques of manipulating quantum …

Spin excitations of ordered magnets–magnons–mediate transport in magnetic insulators.
Their bosonic nature makes them qualitatively distinct from electrons. These features include …

Quantum conversion or interface is one of the most prominent protocols in quantum
information processing and quantum state engineering. We propose a photon-phonon …

Employing the concept of two-mode squeezed states from quantum optics, we demonstrate
a revealing physical picture for the antiferromagnetic ground state and excitations …

Ultrastrong light-matter coupling opens exciting possibilities to generate squeezed quantum
states and entanglement. We propose achieving this regime in superconducting hybrid …

In this Perspective article, we briefly present the current state and discuss some future
perspectives on hybrid molecular spintronics and smart molecular spintronics materials. We …

It is well-known that operators of localized spins within a magnetic material satisfy neither
fermionic nor bosonic commutation relations. Thus, to construct diagrammatic many-body …

The dynamics of arbitrary-order quantum correlations in a cavity magnon-polariton system
are investigated based on the quantum master equation in the coherent state …

Multiquanta correlation between nn quanta of a completely different nature is an important
resource for hybrid quantum information processing since it allows quantum states of …