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Autori principali: Bae, Minu J., Panigrahy, Nitish K., Dhara, Prajit, Hossain, Md Zakir, Krawec, Walter O., Russell, Alexander, Towsley, Don, Wang, Bing
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2503.06031
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author Bae, Minu J.
Panigrahy, Nitish K.
Dhara, Prajit
Hossain, Md Zakir
Krawec, Walter O.
Russell, Alexander
Towsley, Don
Wang, Bing
author_facet Bae, Minu J.
Panigrahy, Nitish K.
Dhara, Prajit
Hossain, Md Zakir
Krawec, Walter O.
Russell, Alexander
Towsley, Don
Wang, Bing
contents Free-space satellite communication has significantly lower photon loss than terrestrial communication via optical fibers. Satellite-based quantum key distribution (QKD) leverages this advantage and provides a promising direction in achieving long-distance QKD. While the technological feasibility of satellite-based QKD has been demonstrated experimentally, optimizing the key rate remains a significant challenge. In this paper, we argue that improving classical post-processing is an important direction in increasing key rate in satellite-based QKD, while it can also be easily incorporated in existing satellite systems. In particular, we explore one direction, blockwise post-processing, to address highly dynamic satellite channel conditions due to various environmental factors. This blockwise strategy divides the raw key bits into individual blocks that have similar noise characteristics, and processes them independently, in contrast to traditional non-blockwise strategy that treats all the raw key bits as a whole. Using a case study, we discuss the choice of blocks in blockwise strategy, and show that blockwise strategy can significantly outperform non-blockwise strategy. Our study demonstrates the importance of post-processing in satellite QKD systems, and presents several open problems in this direction.
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publishDate 2025
record_format arxiv
spellingShingle Blockwise Post-processing in Satellite-based Quantum Key Distribution
Bae, Minu J.
Panigrahy, Nitish K.
Dhara, Prajit
Hossain, Md Zakir
Krawec, Walter O.
Russell, Alexander
Towsley, Don
Wang, Bing
Quantum Physics
Free-space satellite communication has significantly lower photon loss than terrestrial communication via optical fibers. Satellite-based quantum key distribution (QKD) leverages this advantage and provides a promising direction in achieving long-distance QKD. While the technological feasibility of satellite-based QKD has been demonstrated experimentally, optimizing the key rate remains a significant challenge. In this paper, we argue that improving classical post-processing is an important direction in increasing key rate in satellite-based QKD, while it can also be easily incorporated in existing satellite systems. In particular, we explore one direction, blockwise post-processing, to address highly dynamic satellite channel conditions due to various environmental factors. This blockwise strategy divides the raw key bits into individual blocks that have similar noise characteristics, and processes them independently, in contrast to traditional non-blockwise strategy that treats all the raw key bits as a whole. Using a case study, we discuss the choice of blocks in blockwise strategy, and show that blockwise strategy can significantly outperform non-blockwise strategy. Our study demonstrates the importance of post-processing in satellite QKD systems, and presents several open problems in this direction.
title Blockwise Post-processing in Satellite-based Quantum Key Distribution
topic Quantum Physics
url https://arxiv.org/abs/2503.06031