Study of quantum correlations of qubits in remote cavities: biphotonic vs uniphotonic processes in each cavity

Study of quantum correlations of qubits in remote cavities: biphotonic vs uniphotonic processes in each cavity

The aim of this work is to study the quantum correlations, entanglement and discord, of two qubits, each one located in its respective cavity, which interact with a common reservoir. Each qubit interacts with its own respective cavity through the emission/absorption of two correlated photons (bi-pho...

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Bibliographic Details
Main Authors: Gonzalez Sibaja, Francisco Javier, Eremeev, Vitalie, Villamil, Pablo
Format: Online
Language:spa
Published: Universidad Pedagógica y Tecnológica de Colombia 2020
Subjects:
Correlaciones cuánticas
Bi-fotón
Qubit
Entrelazamiento
Discordia cuántica
Mecánica Cuántica
Quantum correlations
Bi-photon
Entanglement
Quantum discord
Quantum Mechanic
Online Access:https://revistas.uptc.edu.co/index.php/ciencia_en_desarrollo/article/view/8419
Description
Summary:The aim of this work is to study the quantum correlations, entanglement and discord, of two qubits, each one located in its respective cavity, which interact with a common reservoir. Each qubit interacts with its own respective cavity through the emission/absorption of two correlated photons (bi-photon). Initially, the atoms are considered in a type of Bell-diagonal state and the cavities in the empty state. The evolution of the correlations is calculated and, for the model with biphotonic interactions without losses of photons through the cavity, the freezing effect of the correlations is found. When there are uniphotonic or biphotonic losses toward the reservoir, a decay of the correlations is evidenced. It is observed that qubits are entanglement over a longer period of time when biphotonic interactions and losses are considered.