In the past 20 years, impressive progress has been made both experimentally and
theoretically in superconducting quantum circuits, which provide a platform for manipulating …

Quantum computers have made extraordinary progress over the past decade, and
significant milestones have been achieved along the path of pursuing universal fault-tolerant …

This review focuses on the field of quantum entanglement applied to condensed matter
physics systems with strong correlations, a domain which has rapidly grown over the last …

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 …

Superconducting circuits are macroscopic in size but have generic quantum properties such
as quantized energy levels, superposition of states, and entanglement, all of which are more …

The interaction of matter and light is one of the fundamental processes occurring in nature,
and its most elementary form is realized when a single atom interacts with a single photon …

Photonic cavities that strongly confine light are finding applications in many areas of physics
and engineering, including coherent electron–photon interactions, ultra-small filters,, low …

Remarkable progress towards realizing quantum computation has been achieved using
natural and artificial atoms as qubits. This paper presents a brief overview of the current …

Superconducting circuits are promising candidates for constructing quantum bits (qubits) in
a quantum computer; single-qubit operations are now routine,, and several examples,,,,,, of …

We show how stationary entanglement between an optical cavity field mode and a
macroscopic vibrating mirror can be generated by means of radiation pressure. We also …