Related papers: Inequality for von Neumann entropy change under measurement and dissipation

Inequality for von Neumann entropy change under measurement and dissipation

URL: http://arxiv.org/abs/2506.12603v1
Date: Sat, 14 Jun 2025 18:51:13 GMT
Title: Inequality for von Neumann entropy change under measurement and dissipation
Authors: Kohei Kobayashi,
Abstract summary: We derive a universal inequality that provides a lower bound on the ensemble-averaged von Neumann entropy change in a quantum system subject to continuous measurement and dissipation.<n>The derived inequality generalizes classical information-thermodynamic relations, such as the Sagawa--Ueda inequality, to the quantum regime.
Score: 0.0
License: http://creativecommons.org/licenses/by-sa/4.0/
Abstract: We derive a universal inequality that provides a lower bound on the ensemble-averaged von Neumann entropy change in a quantum system subject to continuous measurement and dissipation. Our result clarifies how entropy production is fundamentally constrained by three distinct contributions: (i) the non-Hermitian structure of the dissipation operator, (ii) the standard variance associated with measurement-induced fluctuations, and (iii) a generalized quantum variance reflecting the noncommutativity between the measurement observable and the quantum state. This third term vanishes when the state and observable commute, and thus represents a purely quantum contribution arising from coherence disturbance and measurement backaction. The derived inequality generalizes classical information-thermodynamic relations, such as the Sagawa--Ueda inequality, to the quantum regime, providing a new perspective on the trade-offs between information acquisition, control, and entropy production in continuously monitored open quantum systems.

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