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Bibliographic Details
Main Authors: Pannu, Armanpreet, Helmy, Amr S., Gamal, Hesham El
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2405.08127
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author Pannu, Armanpreet
Helmy, Amr S.
Gamal, Hesham El
author_facet Pannu, Armanpreet
Helmy, Amr S.
Gamal, Hesham El
contents In the realm of quantum information, entanglement stands as a cornerstone phenomenon. It underpins a vast array of quantum information processes, offering significant potential for advancements in quantum computing, communication, and sensing. This paper introduces a novel multi-photon entangled state, which generalizes the maximally entangled single-photon state and exhibits remarkable resilience to signal attenuation in photonic applications. We demonstrate the novelty of the proposed state through a simplified target detection model and illustrate its superior performance over traditional single-photon protocols, attributed to its higher entanglement level and enhanced noise suppression capabilities. Our findings suggest that the proposed multi-photon state holds significant promise for enhancing the efficiency and reliability of photonic applications subject to loss. This work lays the groundwork for future exploration into the practical applications of multi-photon entangled states in quantum technologies, potentially revolutionizing our approach to quantum sensing and beyond
format Preprint
id arxiv_https___arxiv_org_abs_2405_08127
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle A novel multi-photon entangled state with enhanced resilience to path loss
Pannu, Armanpreet
Helmy, Amr S.
Gamal, Hesham El
Quantum Physics
In the realm of quantum information, entanglement stands as a cornerstone phenomenon. It underpins a vast array of quantum information processes, offering significant potential for advancements in quantum computing, communication, and sensing. This paper introduces a novel multi-photon entangled state, which generalizes the maximally entangled single-photon state and exhibits remarkable resilience to signal attenuation in photonic applications. We demonstrate the novelty of the proposed state through a simplified target detection model and illustrate its superior performance over traditional single-photon protocols, attributed to its higher entanglement level and enhanced noise suppression capabilities. Our findings suggest that the proposed multi-photon state holds significant promise for enhancing the efficiency and reliability of photonic applications subject to loss. This work lays the groundwork for future exploration into the practical applications of multi-photon entangled states in quantum technologies, potentially revolutionizing our approach to quantum sensing and beyond
title A novel multi-photon entangled state with enhanced resilience to path loss
topic Quantum Physics
url https://arxiv.org/abs/2405.08127