Open Systems & Information Dynamics

Papers
(The TQCC of Open Systems & Information Dynamics is 2. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2020-03-01 to 2024-03-01.)
ArticleCitations
Non-Hermitian Physics and Master Equations18
Gaussian Quantum Markov Semigroups on a One-Mode Fock Space: Irreducibility and Normal Invariant States11
Indistinguishability-Enhanced Entanglement Recovery by Spatially Localized Operations and Classical Communication8
A Class of Quantum Markov Fields on Tree-like Graphs: Ising-type Model on a Husimi Tree7
Open Quantum Random Walks and Quantum Markov chains on Trees I: Phase transitions7
A Markov–Dobrushin Inequality for Quantum Channels6
On Kadison-Schwarz Approximation to Positive Maps6
A Brief Journey through Collision Models for Multipartite Open Quantum Dynamics6
Few Remarks on Quasi Quantum Quadratic Operators on ?2(ℂ)5
Dynamics of Quantum Correlations in a Qubit-Oscillator System Interacting via a Dissipative Bath5
Information Geometry on Groupoids: The Case of Singular Metrics4
Classical and Quantum Markov Processes Associated with q-Bessel Operators4
Quantifying non-Markovian Memory in a Superconducting Quantum Computer3
“What Is Life?”: Open Quantum Systems Approach3
Non-Perturbative Treatment of Open-System Multi-Time Expectation Values in Gaussian Bosonic Environments2
Wave Matrix Lindbladization I: Quantum Programs for Simulating Markovian Dynamics2
Stochastic versus Periodic Quantum Collision Models2
Exceptional Points and Exponential Sensitivity for Periodically Driven Lindblad Equations2
A Neo-Copenhagen Quantum Mechanics2
Exploring the Limits of Controlled Markovian Quantum Dynamics with Thermal Resources2
Detection Power of Separability Criteria Based on a Correlation Tensor: A Case Study2
Local Generation of Entanglement with Redfield Dynamics2
The Quantum Mechanics Canonically Associated to Free Probability I: Free Momentum and Associated Kinetic Energy2
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