Preparing York Optical Ground Station for satellite-to-ground quantum communication

Abstract

This thesis details the progress on the preparation of the York Optical
Ground Station in a semi-urban area for satellite-to-ground quantum
communication. A site study to take measurements of background
photon counts hasbeencarriedoutandhasbeenusedtocalculate
possible key rates for both BB84 and GMCS QKD which prove the vi
ability of the site for both day- and night-time quantum communica
tion. The predicted GMCS QKD protocol achieved a maximal secret
key rate of 0.22bps during the day, whilst BB84 protocol was predicted
to achieve 2.0×10−4bps using a 1550nm signal during the night and
up to 0.5×10−4bps during the day, or up to 5.5×10−4 using an 830nm
signal during the day.

Metadata

Supervisors:	Kumar, Rupesh
Related URLs:	Energy efficient optical tracking for space quantum communication (Related publication)
Keywords:	Quantum Communication, Quantum Satellite Communication, QKD, Optical Satellite, CV-QKD, Optical Groundstation
Awarding institution:	University of York
Academic Units:	The University of York > School of Physics, Engineering and Technology (York)
Date Deposited:	16 Jun 2026 12:14
Last Modified:	16 Jun 2026 12:14
Open Archives Initiative ID (OAI ID):	oai:etheses.whiterose.ac.uk:38947

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Preparing York Optical Ground Station for satellite-to-ground quantum communication

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