Quantum networks can interconnect remote quantum information processors, allowing
interaction between different architectures and increasing net computational power. Fibre …

Entanglement is one of the essential resources of quantum information and communication
technology. Photons are the most popular and promising media to manipulate …

We present a scheme to entangle two magnon modes in a cavity magnomechanical system.
The two magnon modes are embodied by collective motions of a large number of spins in …

The ability to manipulate entanglement between multiple spatially separated qubits is
essential for quantum-information processing. Although nitrogen-vacancy (NV) centers in …

We propose a scheme to entangle two magnon modes via the Kerr nonlinear effect when
driving the systems far from equilibrium. We consider two macroscopic yttrium iron garnets …

Electromagnetic modes are instrumental in building quantum machines. In this experiment,
we introduce a method to manipulate these modes by effectively controlling their phase …

We use electrical detection, in combination with microwave transmission, to investigate both
resonant and nonresonant magnon-photon coupling at room temperature. Spin pumping 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 propose an effective, scalable, hyperparallel photonic quantum computation scheme in
which photonic qubits are hyperencoded both in the spatial degrees of freedom (DOF) and …

Entanglement is a key resource for quantum computers, quantum-communication networks,
and high-precision sensors. Macroscopic spin ensembles have been historically important …