Strong converse rate for asymptotic hypothesis testing in type III

• URL: http://arxiv.org/abs/2507.07989v2
• Date: Thu, 17 Jul 2025 01:05:31 GMT
• Title: Strong converse rate for asymptotic hypothesis testing in type III
• Authors: Marius Junge, Nicholas Laracuente,
• Abstract summary: We show the operational interpretation of sandwiched relative R'enyi entropy in general von Neumann algebras.<n> applicability in general von Neumann algebras opens potential new connections to random matrix theory and the quantum information theory of fundamental physics.
• Score: 3.0846824529023382
• License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
• Abstract: We extend from the hyperfinite setting to general von Neumann algebras Mosonyi and Ogawa's (2015) and Mosonyi and Hiai's (2023) results showing the operational interpretation of sandwiched relative R\'enyi entropy in the strong converse of hypothesis testing. The specific task is to distinguish between two quantum states given many copies. We use a reduction method of Haagerup, Junge, and Xu (2010) to approximate relative entropy inequalities in an arbitrary von Neumann algebra by those in finite von Neumann algebras. Within these finite von Neumann algebras, it is possible to approximate densities via finite spectrum operators, after which the quantum method of types reduces them to effectively commuting subalgebras. Generalizing beyond the hyperfinite setting shows that the operational meaning of sandwiched R\'enyi entropy is not restricted to the matrices but is a more fundamental property of quantum information. Furthermore, applicability in general von Neumann algebras opens potential new connections to random matrix theory and the quantum information theory of fundamental physics.

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