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

We present a theoretical approach to use ferromagnetic or ferrimagnetic nanoparticles as
microwave nanomagnonic cavities to concentrate microwave magnetic fields into deeply …

Decoherence and relaxation of solid-state defect qutrits near a crystal surface, where they
are commonly used as quantum sensors, originate from charge and magnetic field noise. A …

Multiparticle entanglement is of great significance for quantum metrology and quantum
information processing. We present here an efficient scheme for generating stable …

Typically, the aim of quantum metrology is to sense target fields with high precision utilizing
quantum properties. Unlike the typical aim, in this paper, we use quantum properties for …

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 …

Quantum memories are essential for quantum repeaters, which will form the backbone of the
future quantum internet. Such memory can capture a signal state for a controllable amount of …

As larger, higher-quality quantum devices are built and demonstrated in quantum
information applications, such as quantum computation and quantum communication, the …

Transfer of quantum states between distant nodes is one of the most important preconditions
for realizing large-scale quantum information processing. We here propose two ways to …

We present a quantitative theory of the suppression of the optical linewidth due to charge
fluctuation noise in ap-n diode, recently observed by Anderson et al.[Science 366, 1225 …