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Main Authors: Philip, Aby, Streltsov, Alexander
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.04408
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author Philip, Aby
Streltsov, Alexander
author_facet Philip, Aby
Streltsov, Alexander
contents Quantum data hiding stores classical information in bipartite quantum states that are, in principle, perfectly distinguishable, yet remain almost indistinguishable without access to a quantum communication channel. Here, we investigate whether this limitation can be overcome when the communicating parties are assisted by additional quantum resources. We develop a general framework for state discrimination that unifies catalytic and memory-assisted local discrimination protocols and analyze their power to reveal hidden information. We prove that when the hiding states are separable, neither entangled catalysts nor quantum memory can increase the optimal discrimination probability, establishing the robustness of separable data-hiding schemes. In contrast, for some entangled states, a reusable quantum memory turns locally indistinguishable states into ones that can be discriminated almost perfectly. Our results delineate the fundamental limits of catalytic and memory-assisted state discrimination and identify separable encodings as a robust strategy for quantum data hiding.
format Preprint
id arxiv_https___arxiv_org_abs_2511_04408
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Robustness of quantum data hiding against entangled catalysts and memory
Philip, Aby
Streltsov, Alexander
Quantum Physics
Quantum data hiding stores classical information in bipartite quantum states that are, in principle, perfectly distinguishable, yet remain almost indistinguishable without access to a quantum communication channel. Here, we investigate whether this limitation can be overcome when the communicating parties are assisted by additional quantum resources. We develop a general framework for state discrimination that unifies catalytic and memory-assisted local discrimination protocols and analyze their power to reveal hidden information. We prove that when the hiding states are separable, neither entangled catalysts nor quantum memory can increase the optimal discrimination probability, establishing the robustness of separable data-hiding schemes. In contrast, for some entangled states, a reusable quantum memory turns locally indistinguishable states into ones that can be discriminated almost perfectly. Our results delineate the fundamental limits of catalytic and memory-assisted state discrimination and identify separable encodings as a robust strategy for quantum data hiding.
title Robustness of quantum data hiding against entangled catalysts and memory
topic Quantum Physics
url https://arxiv.org/abs/2511.04408