Restrain the losses of the entanglement and the non-local advantage of quantum coherence for accelerated quantum systems

TL;DR

This paper explores how local symmetric operations can recover entanglement and non-local quantum coherence in accelerated quantum systems, especially under high acceleration conditions.

Contribution

It introduces a method of using symmetric operations on both qubits to restore lost quantum properties in accelerated systems, demonstrating improved recovery efficiency.

Findings

Symmetric operations enhance recovery of entanglement.

Non-local coherence can be revived at high acceleration.

Applying operations on both qubits yields better results.

Abstract

We examined the possibility of recovering the losses of entanglement and the non-local advantage by using the local symmetric operations. The improvement efficiency may be increased by applying the symmetric operations on both qubits. The recovering process of both phenomenon is exhibited clearly when only one qubit is accelerated and the symmetric operations is applied on both qubits. It is shown that, for large acceleration, the non-local coherent advantage may be re-birthed by using these symmetric operations.