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Bibliographic Details
Main Authors:	Fatkhiev, Denis, Frazão, João dos Reis, Derkani, Alireza H., Gümüş, Kadir, Hout, Menno van den, Albores-Mejia, Aaron, Okonkwo, Chigo
Format:	Preprint
Published:	2026
Subjects:	Quantum Physics Systems and Control
Online Access:	https://arxiv.org/abs/2603.28310
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_version_	1866911553514635264
author	Fatkhiev, Denis Frazão, João dos Reis Derkani, Alireza H. Gümüş, Kadir Hout, Menno van den Albores-Mejia, Aaron Okonkwo, Chigo
author_facet	Fatkhiev, Denis Frazão, João dos Reis Derkani, Alireza H. Gümüş, Kadir Hout, Menno van den Albores-Mejia, Aaron Okonkwo, Chigo
contents	We demonstrate the first CV-QKD system featuring a custom-designed monolithic silicon photonic dual-polarisation transceiver. Leveraging PS-64-QAM, we achieved 1.9 Mbit/s secret key rate across 25 km of standard single-mode fibre, highlighting the potential of electronic-photonic integration for practical QKD.
format	Preprint
id	arxiv_https___arxiv_org_abs_2603_28310
institution	arXiv
publishDate	2026
record_format	arxiv
spellingShingle	Compact Continuous-Variable Quantum Key Distribution System Employing Monolithically Integrated Silicon Photonic Transceiver Fatkhiev, Denis Frazão, João dos Reis Derkani, Alireza H. Gümüş, Kadir Hout, Menno van den Albores-Mejia, Aaron Okonkwo, Chigo Quantum Physics Systems and Control We demonstrate the first CV-QKD system featuring a custom-designed monolithic silicon photonic dual-polarisation transceiver. Leveraging PS-64-QAM, we achieved 1.9 Mbit/s secret key rate across 25 km of standard single-mode fibre, highlighting the potential of electronic-photonic integration for practical QKD.
title	Compact Continuous-Variable Quantum Key Distribution System Employing Monolithically Integrated Silicon Photonic Transceiver
topic	Quantum Physics Systems and Control
url	https://arxiv.org/abs/2603.28310

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