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Unifying speed limit, thermodynamic uncertainty relation and Heisenberg principle via bulk-boundary correspondence

Yoshihiko Hasegawa

2023Nature Communications60 citationsDOIOpen Access PDF

Abstract

The bulk-boundary correspondence provides a guiding principle for tackling strongly correlated and coupled systems. In the present work, we apply the concept of the bulk-boundary correspondence to thermodynamic bounds described by classical and quantum Markov processes. Using the continuous matrix product state, we convert a Markov process to a quantum field, such that jump events in the Markov process are represented by the creation of particles in the quantum field. Introducing the time evolution of the continuous matrix product state, we apply the geometric bound to its time evolution. We find that the geometric bound reduces to the speed limit relation when we represent the bound in terms of the system quantity, whereas the same bound reduces to the thermodynamic uncertainty relation when expressed based on quantities of the quantum field. Our results show that the speed limits and thermodynamic uncertainty relations are two aspects of the same geometric bound.

Topics & Concepts

Uncertainty principleLimit (mathematics)Thermodynamic limitRelation (database)Statistical physicsPhysicsBoundary (topology)MathematicsComputer scienceQuantum mechanicsMathematical analysisData miningQuantumAdvanced Thermodynamics and Statistical MechanicsModel Reduction and Neural NetworksQuantum Electrodynamics and Casimir Effect
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