Solar-Blind Free-Space QKD Using Large-Core Fibers for Alignment-Tolerant Link Operation

Florian Honz; Winfried Boxleitner; Michael Hentschel; Philip Walther; Hannes Hübel; Bernhard Schrenk

doi:10.1109/JLT.2025.3575204

Solar-Blind Free-Space QKD Using Large-Core Fibers for Alignment-Tolerant Link Operation

University of Vienna, Faculty of Physics, Vienna Center for Quantum Science and Technology (VCQ)
Christian Doppler Laboratory for Photonic Quantum Computer, Faculty of Physics, University of Vienna

Research output: Contribution to journal › Article › peer-review

Abstract

While fiber-optic quantum key distribution (QKD) systems have reached a technological maturity that permits field deployments, the complexity of free-space optical (FSO) QKD systems introduced to ensure minimal coupling loss over air hinders the use of QKD in fiber-scarce environments. As a response to this challenge, we present a simplified approach that leverages large-core fibers at the receiving air interface of short-range terrestrial FSO links. We show that the increased sensitivity to solar irradiance, as it arises from the adoption of alignment-tolerant multi-mode fibers, can be effectively mitigated through a spectral E-band allocation of the QKD channel. We accomplish a secure-key rate of 869 b/s/detector for a 63-m long outdoor free-space link during day-light operation at 42.9 klux, despite employing a 25-μm core fiber at Bob's QKD receiver. We further demonstrate the co-existence of a classical data stream over the solar-blind FSO QKD link.

Original language	English
Pages (from-to)	7155-7162
Number of pages	8
Journal	Journal of Lightwave Technology
Volume	43
Issue number	15
DOIs	https://doi.org/10.1109/JLT.2025.3575204
Publication status	Published - 29 May 2025

Keywords

Free-space optical communication
quantum communication
quantum cryptography
quantum key distribution
silicon photonics

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10.1109/JLT.2025.3575204

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title = "Solar-Blind Free-Space QKD Using Large-Core Fibers for Alignment-Tolerant Link Operation",

abstract = "While fiber-optic quantum key distribution (QKD) systems have reached a technological maturity that permits field deployments, the complexity of free-space optical (FSO) QKD systems introduced to ensure minimal coupling loss over air hinders the use of QKD in fiber-scarce environments. As a response to this challenge, we present a simplified approach that leverages large-core fibers at the receiving air interface of short-range terrestrial FSO links. We show that the increased sensitivity to solar irradiance, as it arises from the adoption of alignment-tolerant multi-mode fibers, can be effectively mitigated through a spectral E-band allocation of the QKD channel. We accomplish a secure-key rate of 869 b/s/detector for a 63-m long outdoor free-space link during day-light operation at 42.9 klux, despite employing a 25-μm core fiber at Bob's QKD receiver. We further demonstrate the co-existence of a classical data stream over the solar-blind FSO QKD link.",

keywords = "Free-space optical communication, quantum communication, quantum cryptography, quantum key distribution, silicon photonics",

author = "Florian Honz and Winfried Boxleitner and Michael Hentschel and Philip Walther and Hannes H{\"u}bel and Bernhard Schrenk",

year = "2025",

month = may,

day = "29",

doi = "10.1109/JLT.2025.3575204",

language = "English",

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journal = "Journal of Lightwave Technology",

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T1 - Solar-Blind Free-Space QKD Using Large-Core Fibers for Alignment-Tolerant Link Operation

AU - Honz, Florian

AU - Boxleitner, Winfried

AU - Hentschel, Michael

AU - Walther, Philip

AU - Hübel, Hannes

AU - Schrenk, Bernhard

PY - 2025/5/29

Y1 - 2025/5/29

N2 - While fiber-optic quantum key distribution (QKD) systems have reached a technological maturity that permits field deployments, the complexity of free-space optical (FSO) QKD systems introduced to ensure minimal coupling loss over air hinders the use of QKD in fiber-scarce environments. As a response to this challenge, we present a simplified approach that leverages large-core fibers at the receiving air interface of short-range terrestrial FSO links. We show that the increased sensitivity to solar irradiance, as it arises from the adoption of alignment-tolerant multi-mode fibers, can be effectively mitigated through a spectral E-band allocation of the QKD channel. We accomplish a secure-key rate of 869 b/s/detector for a 63-m long outdoor free-space link during day-light operation at 42.9 klux, despite employing a 25-μm core fiber at Bob's QKD receiver. We further demonstrate the co-existence of a classical data stream over the solar-blind FSO QKD link.

AB - While fiber-optic quantum key distribution (QKD) systems have reached a technological maturity that permits field deployments, the complexity of free-space optical (FSO) QKD systems introduced to ensure minimal coupling loss over air hinders the use of QKD in fiber-scarce environments. As a response to this challenge, we present a simplified approach that leverages large-core fibers at the receiving air interface of short-range terrestrial FSO links. We show that the increased sensitivity to solar irradiance, as it arises from the adoption of alignment-tolerant multi-mode fibers, can be effectively mitigated through a spectral E-band allocation of the QKD channel. We accomplish a secure-key rate of 869 b/s/detector for a 63-m long outdoor free-space link during day-light operation at 42.9 klux, despite employing a 25-μm core fiber at Bob's QKD receiver. We further demonstrate the co-existence of a classical data stream over the solar-blind FSO QKD link.

KW - Free-space optical communication

KW - quantum communication

KW - quantum cryptography

KW - quantum key distribution

KW - silicon photonics

U2 - 10.1109/JLT.2025.3575204

DO - 10.1109/JLT.2025.3575204

M3 - Article

SN - 0733-8724

VL - 43

SP - 7155

EP - 7162

JO - Journal of Lightwave Technology

JF - Journal of Lightwave Technology

IS - 15

ER -

Solar-Blind Free-Space QKD Using Large-Core Fibers for Alignment-Tolerant Link Operation

Abstract

Keywords

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