Nonorthogonal coding in spectrally-entangled photons

IF 1.5 4区 物理与天体物理 Q3 OPTICS
N-Y Tsai, H H Jen
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引用次数: 0

Abstract

Controlling and engineering continuous spectral modes of entangled photons represents one of the promising approaches toward secure quantum communications. By using the telecom bandwidth generated from a cascade-emitted biphoton in atomic ensembles, a fiber-based long-distance quantum communication can be feasible owing to its low transmission loss. With multiplexed photon pairs, we propose to implement a nonorthogonal coding scheme in their spectral modes and present an architecture of multiple channels enabling a high-capacity transfer of codewords. Using the measures of the second-order correlations and associated visibility and contrast, we further quantify the performance of the proposed nonorthogonal coding scheme. Our results demonstrate the capability to encode and decode quantum information beyond the orthogonal coding scheme, and in particular, the multi-channel setup manifests a resilience and an advantage in a design with multiple channel errors. The proposed scheme here can be applicable to a large-scale and multiuser quantum communication and pave the way toward an efficient and functional quantum information processing.
光谱纠缠光子中的非正交编码
控制和设计纠缠光子的连续光谱模式是实现安全量子通信的可行方法之一。通过利用原子团中级联发射的双光子产生的电信带宽,基于光纤的长距离量子通信因其传输损耗低而变得可行。通过复用光子对,我们建议在它们的频谱模式中实施非正交编码方案,并提出了一种能够实现高容量编码字传输的多通道架构。利用二阶相关性以及相关的可见度和对比度,我们进一步量化了所建议的非正交编码方案的性能。我们的研究结果表明,量子信息的编码和解码能力超越了正交编码方案,特别是多信道设置在具有多信道误差的设计中表现出了弹性和优势。本文提出的方案可适用于大规模和多用户量子通信,并为实现高效实用的量子信息处理铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
3.60
自引率
6.20%
发文量
182
审稿时长
2.8 months
期刊介绍: Published twice-monthly (24 issues per year), Journal of Physics B: Atomic, Molecular and Optical Physics covers the study of atoms, ions, molecules and clusters, and their structure and interactions with particles, photons or fields. The journal also publishes articles dealing with those aspects of spectroscopy, quantum optics and non-linear optics, laser physics, astrophysics, plasma physics, chemical physics, optical cooling and trapping and other investigations where the objects of study are the elementary atomic, ionic or molecular properties of processes.
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