Self-assisted deterministic hyperentangled-Bell-state analysis for polarization and double longitudinal momentum degrees of freedom of photon system

Frontiers in Quantum Science and Technology Pub Date : 2022-10-05 DOI:10.3389/frqst.2022.985130

Chang-Qi Yu, Zheng Zhang, Ji Qi, B. Ren

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Abstract

Hyperentangled state analysis is an important module in high-capacity quantum communication. We present a self-assisted deterministic hyperentangled-Bell-state analysis (HBSA) scheme for photon system entangled in three degrees of freedom (DOFs), where 64 polarization-double longitudinal momentum hyperentangled Bell states are completely distinguished. In this HBSA scheme, the four first longitudinal momentum Bell states are distinguished determinately by nondestructive first longitudinal momentum Bell state analyzer, which is constructed with cross-Kerr nonlinearity medium. The 16 second longitudinal momentum-polarization hyperentangled Bell states are distinguished determinately by self-assisted second longitudinal momentum-polarization hyperentangled Bell state analyzer using linear optical elements, where the first longitudinal momentum Bell state and time-bin entangled state are used as auxiliary. Using this self-assisted method, the application of nonlinear optical resource in HBSA scheme has been largely reduced, which makes this self-assisted deterministic HBSA scheme has potential application prospects in high-capacity quantum communication.

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光子系统偏振和双纵向动量自由度的自辅助超纠缠贝尔态分析

超纠缠态分析是大容量量子通信中的一个重要模块。提出了一种三自由度纠缠光子系统的自辅助确定性超纠缠贝尔态分析(HBSA)方案，其中64个极化双纵向动量超纠缠贝尔态被完全区分。在该方案中，利用cross-Kerr非线性介质构建的无损第一纵向动量贝尔状态分析仪，确定了四种第一纵向动量贝尔状态。采用线性光学元件，以第一纵向动量贝尔态和时间bin纠缠态为辅助，利用自辅助第二纵向动量偏振超纠缠贝尔态分析仪，确定了16秒纵向动量偏振超纠缠贝尔态。利用这种自辅助方法，大大减少了非线性光资源在HBSA方案中的应用，使得这种自辅助确定性HBSA方案在大容量量子通信中具有潜在的应用前景。

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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Frontiers in Quantum Science and Technology

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