International school on Quantum Landscapes: Non-Equilibrium, Circuits, and Complexity
17 mai-6 juin 2026
CY Advanced Studies - Neuville‐sur‐Oise (France)
Quantum Landscapes: Non-Equilibrium, Circuits, and Complexity is a proposed three-week thematic program designed to introduce graduate students and early-career researchers to cutting-edge theoretical and computational methods for exploring non-equilibrium phenomena in quantum many-body systems. Spanning a diverse set of modern approaches and drawing on an interdisciplinary perspective (including quantum information science, condensed matter physics, and computational physics), the program provides a platform for participants to gain both conceptual understanding and hands-on experience in this rapidly evolving field.
Key objectives include:
Develop foundational understanding of open quantum systems and their role in modeling dissipation, decoherence, and non-equilibrium steady states.
Introduce advanced tensor network methods for simulating complex quantum systems, with emphasis on applications to real-time dynamics and entanglement growth.
Explore the interplay between machine learning and quantum many-body physics, including generative models, neural-network quantum states, and data-driven approaches to dynamical problems.
Understand quantum circuits and algorithms as tools to simulate many-body systems, and examine their relevance to near-term quantum technologies and simulators.
Connect quantum computing paradigms with many-body physics, focusing on how computational frameworks (quantum algorithms, variational circuits) can uncover new structures and behaviors in complex quantum systems.
Study hydrodynamics and emergent collective behavior in strongly interacting quantum systems out of equilibrium, linking microscopic dynamics to macroscopic transport properties.
Investigate random matrix theory and random tensor networks as tools for probing universality, quantum chaos, and the statistical structure of high-dimensional state spaces.
Participants will engage with leading researchers through lectures, interactive tutorials, and open discussions, building a broad conceptual toolkit and gaining exposure to open questions at the forefront of quantum science.
Discipline scientifique :
Lieu de la conférence