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Optical manipulation of quantum optic entanglement using graphene clad surface plasmonic polariton device

Here, graphene clad-based two surface plasmonic polariton modes interference (GTSPPMI) coupler is presented to get optically manipulated quantum interference. The Hong–Ou–Mandel depth varying with optical pulse energy is established theoretically using nano-scale two modes coupling. The fidelity of...

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Published in:	Quantum information processing 2023-06, Vol.22 (6), Article 248
Main Author:	Sahu, Partha Pratim
Format:	Article
Language:	English
Subjects:	Data Structures and Information Theory Mathematical Physics Physics Physics and Astronomy Quantum Computing Quantum Information Technology Quantum Physics Spintronics
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description	Here, graphene clad-based two surface plasmonic polariton modes interference (GTSPPMI) coupler is presented to get optically manipulated quantum interference. The Hong–Ou–Mandel depth varying with optical pulse energy is established theoretically using nano-scale two modes coupling. The fidelity of quantum entanglement is tuned by varying incident optical pulse energy and highest quantum fidelity is obtained as ~ 97.5% with optical pulse of energy 5.12 pJ and width 3.8 ps in graphene cladding. Our results promise to obtain optical reconfiguration of quantum plasmonics circuit in more compact and faster way than that with electrooptic and thermooptic way and high fabrication tolerance making its use in large-scale integrated quantum optic device.
doi_str_mv	10.1007/s11128-023-04006-0
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subjects	Data Structures and Information Theory Mathematical Physics Physics Physics and Astronomy Quantum Computing Quantum Information Technology Quantum Physics Spintronics
title	Optical manipulation of quantum optic entanglement using graphene clad surface plasmonic polariton device
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