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Main Authors: Juárez, Sergio, Marcomini, Alessandro, Petrov, Mikhail, Woodward, Robert I., Dowling, Toby J., Stevenson, R. Mark, Curty, Marcos, Rusca, Davide
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.21763
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author Juárez, Sergio
Marcomini, Alessandro
Petrov, Mikhail
Woodward, Robert I.
Dowling, Toby J.
Stevenson, R. Mark
Curty, Marcos
Rusca, Davide
author_facet Juárez, Sergio
Marcomini, Alessandro
Petrov, Mikhail
Woodward, Robert I.
Dowling, Toby J.
Stevenson, R. Mark
Curty, Marcos
Rusca, Davide
contents Twin-Field Quantum Key Distribution (TF-QKD) has become a leading protocol to bring quantum communications to the national scale. The protocol requires the establishment of a shared phase and frequency reference between distant parties, which is commonly achieved by using an external reference laser in an Optical Injection Locking (OIL) architecture. In this work, we analyze the side channels in OIL-based TF-QKD that may arise from adversarial manipulation of the various degrees of freedom of this untrusted reference beam. We experimentally demonstrate two realistic attack scenarios: fast intensity modulation of the reference laser, and additional signals embedded in the reference light exploiting wavelengths undetectable by conventional monitoring techniques. These attacks can allow a potential eavesdropper to deterministically increase the mean photon number of the sources, or circumvent the decoy-state technique, respectively. To counter these vulnerabilities, we propose practical and highly effective countermeasures that reinforce the security of TF-QKD systems without significant additional complexity or performance degradation.
format Preprint
id arxiv_https___arxiv_org_abs_2508_21763
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Reference-Beam Attacks against Twin-Field Quantum Key Distribution using Optical Injection Locking
Juárez, Sergio
Marcomini, Alessandro
Petrov, Mikhail
Woodward, Robert I.
Dowling, Toby J.
Stevenson, R. Mark
Curty, Marcos
Rusca, Davide
Quantum Physics
Twin-Field Quantum Key Distribution (TF-QKD) has become a leading protocol to bring quantum communications to the national scale. The protocol requires the establishment of a shared phase and frequency reference between distant parties, which is commonly achieved by using an external reference laser in an Optical Injection Locking (OIL) architecture. In this work, we analyze the side channels in OIL-based TF-QKD that may arise from adversarial manipulation of the various degrees of freedom of this untrusted reference beam. We experimentally demonstrate two realistic attack scenarios: fast intensity modulation of the reference laser, and additional signals embedded in the reference light exploiting wavelengths undetectable by conventional monitoring techniques. These attacks can allow a potential eavesdropper to deterministically increase the mean photon number of the sources, or circumvent the decoy-state technique, respectively. To counter these vulnerabilities, we propose practical and highly effective countermeasures that reinforce the security of TF-QKD systems without significant additional complexity or performance degradation.
title Reference-Beam Attacks against Twin-Field Quantum Key Distribution using Optical Injection Locking
topic Quantum Physics
url https://arxiv.org/abs/2508.21763