Einstein-Rosen-Podolsky (EPR) steering or quantum steering describes the “spooky action
at a distance” that one party is able to remotely alter the states of the other if they share a …

The theory of phase control of coherence, entanglement and quantum steering is developed
for an optomechanical system composed of a single mode cavity containing a partially …

We present a detailed study of a double-cavity optomechanical system, focusing on the
dynamics of the entanglement between the cavity and mechanical modes, as well as the …

We have investigated the dynamical entanglement and quantum steering in a pulsed hybrid
opto-electro-mechanical system. Using the symmetric and asymmetric criteria, the …

We develop the analytic theory describing the formation and evolution of entangled quantum
states for a fermionic quantum emitter coupled simultaneously to a quantized …

Controllable multipartite entanglement is a crucial element in quantum information
processing. Here we present a scheme that generates switchable bipartite and genuine …

Quantum steering is used to describe the “spooky action-at-a-distance” nonlocality raised in
the Einstein-Podolsky-Rosen (EPR) paradox, which is important for understanding …

We theoretically propose a method to generate tripartite entanglement of three mechanical
oscillators in an optomechanical array. We consider a system comprised of three …

We investigate quantum steering and quantum entanglement in a hybrid cavity
optomechanical system. The system model consists of an optical cavity, a microwave cavity …

Abstract Einstein–Podolsky–Rosen (EPR) steering as a form of quantum correlation lies
between entanglement and Bell nonlocality and exhibits an inherent asymmetry between …