Protecting Fiber-Optic Quantum Key Distribution Sources against Light-Injection Attacks
A well-protected and characterized source in a quantum key distribution system is needed for its security. Unfortunately, the source is vulnerable to light-injection attacks, such as Trojan-horse, laser-seeding, and laser-damage attacks, in which an eavesdropper actively injects bright light to hack...
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th-mahidol.842492023-06-19T00:01:16Z Protecting Fiber-Optic Quantum Key Distribution Sources against Light-Injection Attacks Ponosova A. Mahidol University Computer Science A well-protected and characterized source in a quantum key distribution system is needed for its security. Unfortunately, the source is vulnerable to light-injection attacks, such as Trojan-horse, laser-seeding, and laser-damage attacks, in which an eavesdropper actively injects bright light to hack the source unit. The hacking laser could be a high-power one that can modify properties of components via the laser-damage attack and also further help the Trojan-horse and other light-injection attacks. Here we propose a countermeasure against the light-injection attacks, consisting of an additional sacrificial component placed at the exit of the source. This component should either withstand high-power incoming light while attenuating it to a safe level that cannot modify the rest of the source, or get destroyed into a permanent high-attenuation state that breaks up the line. We demonstrate experimentally that off-the-shelf fiber-optic isolators and circulators have these desired properties, at least under attack by a continuous-wave high-power laser. 2023-06-18T17:01:16Z 2023-06-18T17:01:16Z 2022-10-01 Article PRX Quantum Vol.3 No.4 (2022) 10.1103/PRXQuantum.3.040307 26913399 2-s2.0-85141925321 https://repository.li.mahidol.ac.th/handle/123456789/84249 SCOPUS |
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Computer Science |
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Computer Science Ponosova A. Protecting Fiber-Optic Quantum Key Distribution Sources against Light-Injection Attacks |
| description |
A well-protected and characterized source in a quantum key distribution system is needed for its security. Unfortunately, the source is vulnerable to light-injection attacks, such as Trojan-horse, laser-seeding, and laser-damage attacks, in which an eavesdropper actively injects bright light to hack the source unit. The hacking laser could be a high-power one that can modify properties of components via the laser-damage attack and also further help the Trojan-horse and other light-injection attacks. Here we propose a countermeasure against the light-injection attacks, consisting of an additional sacrificial component placed at the exit of the source. This component should either withstand high-power incoming light while attenuating it to a safe level that cannot modify the rest of the source, or get destroyed into a permanent high-attenuation state that breaks up the line. We demonstrate experimentally that off-the-shelf fiber-optic isolators and circulators have these desired properties, at least under attack by a continuous-wave high-power laser. |
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Mahidol University |
| author_facet |
Mahidol University Ponosova A. |
| format |
Article |
| author |
Ponosova A. |
| author_sort |
Ponosova A. |
| title |
Protecting Fiber-Optic Quantum Key Distribution Sources against Light-Injection Attacks |
| title_short |
Protecting Fiber-Optic Quantum Key Distribution Sources against Light-Injection Attacks |
| title_full |
Protecting Fiber-Optic Quantum Key Distribution Sources against Light-Injection Attacks |
| title_fullStr |
Protecting Fiber-Optic Quantum Key Distribution Sources against Light-Injection Attacks |
| title_full_unstemmed |
Protecting Fiber-Optic Quantum Key Distribution Sources against Light-Injection Attacks |
| title_sort |
protecting fiber-optic quantum key distribution sources against light-injection attacks |
| publishDate |
2023 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/84249 |
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1781416047872573440 |