用于基于芯片的量子密钥分发的透射率不变相位调制器。

Transmittance-invariant phase modulator for chip-based quantum key distribution.

作者信息

Ye Peng, Chen Wei, Wang Ze-Hao, Zhang Guo-Wei, Ding Yu-Yang, Huang Guan-Zhong, Yin Zhen-Qiang, Wang Shuang, He De-Yong, Liu Wen, Guo Guang-Can, Han Zheng-Fu

出版信息

Opt Express. 2022 Oct 24;30(22):39911-39921. doi: 10.1364/OE.470025.

DOI:10.1364/OE.470025

Abstract

In chip-based quantum key distribution (QKD) systems, the non-ideal quantum state preparation due to the imperfect electro-optic phase modulators (EOPM) decreases the secret key rate and introduces potential vulnerabilities. We propose and implement an on-chip transmittance-invariant phase modulator (TIPM) to solve this problem. Simulated and experimental results show that TIPM can eliminate the correlation between phase, intensity, and polarization of quantum states caused by phase-dependent loss. The design can tolerate a significant fabrication mismatch and is universal to multi-material platforms. Furthermore, TIPM increases the modulation depth achievable by EOPMs in standard process design kit (PDK). The proposal of TIPM can improve the practical security and performance of the chip-based QKD systems.

摘要

在基于芯片的量子密钥分发（QKD）系统中，由于电光相位调制器（EOPM）不完善导致的非理想量子态制备会降低密钥率并引入潜在漏洞。我们提出并实现了一种片上透射率不变相位调制器（TIPM）来解决这个问题。仿真和实验结果表明，TIPM可以消除由相位相关损耗引起的量子态相位、强度和偏振之间的相关性。该设计能够容忍显著的制造失配，并且对多材料平台具有通用性。此外，TIPM提高了标准工艺设计套件（PDK）中EOPM可实现的调制深度。TIPM的提出可以提高基于芯片的QKD系统的实际安全性和性能。

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