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Free keywords:
CRYPTOGRAPHY SYSTEMS; AVALANCHE-DIODES; SECURITY; PLUGEngineering; Optics; Physics; Electrooptic modulators; fiber optics; infrared detectors; infrared
spectra; optical pulses; optical receivers; photodetectors; quantum key
distribution; quantum cryptography; reflectometry; supercontinuum;
transmittance; Trojan-horse attack;
Abstract:
An eavesdropper Eve may probe a quantum key distribution (QKD) system by sending a bright pulse from the quantum channel into the system and analyzing the back-reflected pulses. Such Trojan-horse attacks can breach the security of the QKD system, if appropriate safeguards are not installed or if they can be fooled by the Eve. We present a risk analysis of such attacks based on extensive spectral measurements, such as transmittance, reflectivity, and detection sensitivity of some critical components used in a typical QKD systems. Our results indicate the existence of wavelength regimes, where the attacker gains considerable advantage as compared to launching an attack at 1550 nm. We also propose countermeasures to reduce the risk of such attacks.