Encrypted cloning enables the redundant storage of an unknown qubit while remaining compatible with the no-cloning theorem, since only one clone can later be recovered through key-consuming decryption. Because encryption in this protocol is introduced to enable cloning-compatible redundancy rather than to guarantee confidentiality by design, its secrecy properties must be assessed explicitly. Here we classify the subsets of the encrypted-clone storage register into authorized, completely non-informative, and partially informative sets. We show that intermediate non-authorized subsets may retain only a restricted residual dependence on the input state, and we characterize exactly when this dependence occurs. The resulting leakage pattern is parity-dependent, revealing a structural confidentiality limitation of encrypted cloning.

Encrypted clones can leak: Classification of informative subsets in Quantum Encrypted Cloning / G. Gianini, O.H.. - (2026). [10.48550/arxiv.2604.10155]

Encrypted clones can leak: Classification of informative subsets in Quantum Encrypted Cloning

G. Gianini
Membro del Collaboration Group
;
S. Cimato
Membro del Collaboration Group
;
E. Damiani
Membro del Collaboration Group
2026

Abstract

Encrypted cloning enables the redundant storage of an unknown qubit while remaining compatible with the no-cloning theorem, since only one clone can later be recovered through key-consuming decryption. Because encryption in this protocol is introduced to enable cloning-compatible redundancy rather than to guarantee confidentiality by design, its secrecy properties must be assessed explicitly. Here we classify the subsets of the encrypted-clone storage register into authorized, completely non-informative, and partially informative sets. We show that intermediate non-authorized subsets may retain only a restricted residual dependence on the input state, and we characterize exactly when this dependence occurs. The resulting leakage pattern is parity-dependent, revealing a structural confidentiality limitation of encrypted cloning.
Encrypted cloning; Quantum redundancy; Information leakage; Authorized subsets; Confidentiality;
Settore INFO-01/A - Informatica
2026
https://arxiv.org/abs/2604.10155
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/1257415
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