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Laser-Damage Attack Against Optical Attenuators in Quantum Key Distribution

Anqi Huang, Ruoping Li, Vladimir Egorov, Serguei Tchouragoulov, Krtin Kumar, Vadim Makarov

2020Physical Review Applied80 citationsDOIOpen Access PDF

Abstract

Many quantum key distribution systems employ a laser followed by an optical attenuator to prepare weak coherent states in the source. Their mean photon number must be precalibrated to guarantee the security of key distribution. Here we experimentally show that this calibration can be broken with a high-power laser attack. We test four fiber-optic attenuator types used in quantum key distribution systems, and find that two of them exhibit a permanent decrease in attenuation after laser damage. This results in higher mean photon numbers in the prepared states and may allow an eavesdropper to compromise the key.

Topics & Concepts

Quantum key distributionAttenuator (electronics)Optical attenuatorPhysicsLaserPhotonAttenuationQuantumOpticsKey (lock)Quantum mechanicsQuantum opticsDistribution (mathematics)Optical communicationComputer scienceQuantum sensorQuantum Information and CryptographyQuantum Mechanics and ApplicationsLaser-Matter Interactions and Applications
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