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Entanglement and coherence in a hybrid Laguerre–Gaussian rotating cavity optomechanical system with two-level atoms

S. K. Singh, Jia‐Xin Peng, Muhammad Asjad, M. Mazaheri

2021Journal of Physics B Atomic Molecular and Optical Physics64 citationsDOI

Abstract

Abstract We theoretically investigate quantum entanglement and coherence in a hybrid Laguerre–Gaussian rotating cavity optomechanical system with two-level atoms, where cavity and mechanical modes are coupled through the exchange of orbital angular momentum. Our study shows that the injection of atoms with a suitable choice of the physical parameters can significantly improve the degree of optomechanical entanglement in all aspects. In the study of quantum coherence research, we show more comprehensively the negative and positive effects of atoms on the coherence. The result obtained is that only when the atom is significantly off-resonant to driving field, the coupling strength in between the atoms and light field increases and the quantum coherence can be enhanced, otherwise it will reduce quantum coherence. In addition, the atomic decay suppresses quantum coherence phenomenon.

Topics & Concepts

Quantum entanglementCoherence (philosophical gambling strategy)PhysicsDegree of coherenceQuantumQuantum mechanicsQuantum discordQuantum opticsAtom (system on chip)GaussianAngular momentumAtomic physicsEmbedded systemComputer scienceMechanical and Optical ResonatorsOrbital Angular Momentum in OpticsQuantum Information and Cryptography