A black-box attack on fixed-unitary quantum encryption schemes

A black-box attack on fixed-unitary quantum encryption schemes

We show how fixed-unitary quantum encryption schemes can be attacked in a black-box setting. We use an efficient technique to invert a unitary transformation on a quantum computer to retrieve an encrypted secret quantum state | ψ ⟩ . This attack has a success rate of 100% and can be executed in cons...

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Veröffentlicht in:Discover Computing 2024-06, Vol.27 (1), p.14, Article 14
Hauptverfasser: Pilaszewicz, Cezary, Muth, Lea R., Margraf, Marian
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Black boxes
Computer Science
Cryptography
Data Mining and Knowledge Discovery
Data Structures and Information Theory
Encryption
Information Storage and Retrieval
Natural Language Processing (NLP)
Pattern Recognition
Quantum computers
Quantum encryption
Security
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Zusammenfassung:We show how fixed-unitary quantum encryption schemes can be attacked in a black-box setting. We use an efficient technique to invert a unitary transformation on a quantum computer to retrieve an encrypted secret quantum state | ψ ⟩ . This attack has a success rate of 100% and can be executed in constant time. We name a vulnerable scheme which security is fully broken by our attack and suggest how to improve the scheme to invalidate this attack. The proposed attack highlights the importance of carefully designing quantum encryption schemes to ensure their security against quantum adversaries, even in a black-box setting. We point to the faulty assumption and name a criterion for future quantum cipher design to prevent similar vulnerabilities.
ISSN:2948-2992
1386-4564
2948-2992
1573-7659
DOI:10.1007/s10791-024-09448-3