Yupeng Gong scite author profile

Yupeng Gong

4Publications

10Citation Statements Received

64Citation Statements Given

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100

Affiliations

University of Cambridge, Applied Photonics (United Kingdom)

Publications

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Practical continuous-variable quantum secret sharing using plug-and-play dual-phase modulation

et al. 2022

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Continuous-variable quantum secret sharing (CVQSS) allows a legitimate user, i.e., the dealer, to share a string of secret keys with multiple distant users. These users cannot individually recover the dealer’s secret key unless they work cooperatively. Although the theoretical security proof of CVQSS has been well established, its practical security and implementation still face challenges. In this paper, we suggest a practical scheme for CVQSS using plug-and-play (P&P) configuration and dual-phase-modulated coherent state (DPMCS). The proposed scheme, called P&P DPM-based CVQSS, waives the necessity that each user has to prepare respective coherent states with their own lasers, thereby eliminating synchronous loopholes caused by different lasers and reducing the complexity of deployment of the user’s stations. Moreover, the local oscillator (LO) can be generated locally by the dealer so that the whole CVQSS system could be naturally immune to all LO-aimed attacks. We derive the security bounds for P&P DPM-based CVQSS by properly making most of the existing security analysis techniques of continuous-variable quantum key distribution (CVQKD). In addition, an experimental concept of P&P DPM-based CVQSS is also presented, which can be deemed a guideline for future implementation.

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Secure optical communication using a quantum alarm

et al. 2020

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Optical fibre networks are advancing rapidly to meet growing traffic demands. Security issues, including attack management, have become increasingly important for optical communication networks because of the vulnerabilities associated with tapping light from optical fibre links. Physical layer security often requires restricting access to channels and periodic inspections of link performance. In this paper, we report how quantum communication techniques can be utilized to detect a physical layer attack. We present an efficient method for monitoring the physical layer security of a high-data-rate classical optical communication network using a modulated continuous-variable quantum signal. We describe the theoretical and experimental underpinnings of this monitoring system and the monitoring accuracy for different monitored parameters. We analyse its performance for both unamplified and amplified optical links. The technique represents a novel approach for applying quantum signal processing to practical optical communication networks and compares well with classical monitoring methods. We conclude by discussing the challenges facing its practical application, its differences with respect to existing quantum key distribution methods, and its usage in future secure optical transport network planning.

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Quantum monitored long-distance secure optical network

Gong

Kumar

Wonfor

et al. 2018

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Physical layer security monitoring of optical communication using a quantum pilot tone signal

Gong

Wonfor

Hunt

et al. 2022

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Yupeng Gong

Practical continuous-variable quantum secret sharing using plug-and-play dual-phase modulation

Secure optical communication using a quantum alarm

Quantum monitored long-distance secure optical network

Physical layer security monitoring of optical communication using a quantum pilot tone signal

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