Non-Equilibrium Properties of Open Quantum Systems
Ihor Vakulchyk
TL;DR
This paper investigates the non-equilibrium behaviors of open quantum systems, specifically quantum walks and Lindblad dynamics, highlighting phenomena like localization, solitons, and quasi-stationary states.
Contribution
It provides a comparative analysis of localization and dynamical phenomena in quantum walks and Lindblad systems, revealing new insights into their non-equilibrium properties.
Findings
Identification of localization-delocalization transitions
Observation of soliton-like excitations in open systems
Characterization of quasi-stationary states
Abstract
We study two classes of open systems: discrete-time quantum walks (a type of Floquet-engineered discrete quantum map) and the Lindblad master equation (a general framework of dissipative quantum systems), focusing on the non-equilibrium properties of these systems. We study localization and delocalization phenomena, soliton-like excitations, and quasi-stationary properties of open quantum systems.
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Taxonomy
TopicsQuantum Computing Algorithms and Architecture · Neural Networks and Reservoir Computing · Quantum and electron transport phenomena