Entanglement Quantification of Correlated Photons Generated by Three-Level Laser with Parametric Amplifier and Coupled to a Two-Mode Vacuum Reservoir

Chimdessa Gashu; Ebisa Mosisa; Tamirat Abebe

doi:10.1155/2020/9027480

Advances in Mathematical Physics (Jan 2020)

Entanglement Quantification of Correlated Photons Generated by Three-Level Laser with Parametric Amplifier and Coupled to a Two-Mode Vacuum Reservoir

Chimdessa Gashu,
Ebisa Mosisa,
Tamirat Abebe

Affiliations

Chimdessa Gashu: Department of Physics, Jimma University, P.O. Box 378, Jimma, Ethiopia
Ebisa Mosisa: Department of Physics, Jimma University, P.O. Box 378, Jimma, Ethiopia
Tamirat Abebe: Department of Physics, Jimma University, P.O. Box 378, Jimma, Ethiopia

DOI: https://doi.org/10.1155/2020/9027480
Journal volume & issue: Vol. 2020

Abstract

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In this paper, the detailed inseparability criteria of entanglement quantification of correlated two-mode light generated by a three-level laser with a coherently driven parametric amplifier and coupled to a two-mode vacuum reservoir is thoroughly analyzed. Using the master equation, we obtain the stochastic differential equation and the correlation properties of the noise forces associated with the normal ordering. Next, we study the squeezing and the photon entanglement by considering different inseparability criteria. The various criteria of entanglement used in this paper show that the light generated by the quantum optical system is entangled and the amount of entanglement is amplified by introducing the parametric amplifier into the laser cavity and manipulating the linear gain coefficient.

Published in Advances in Mathematical Physics

ISSN: 1687-9120 (Print); 1687-9139 (Online)
Publisher: Wiley
Country of publisher: United Kingdom
LCC subjects: Science: Physics
Website: https://onlinelibrary.wiley.com/journal/3197

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