This week, let’s spotlight an excellent foundational Nordita lecture series by Dr. Ivan Khaymovich, available in #OpenAccess on Enabla. This advanced Master-level course offers a modern introduction to the principles of thermalization, ergodicity, and their breakdown in both classical and quantum systems. It's a timely and valuable resource for students and researchers working on nonequilibrium dynamics, chaos, information thermodynamics, and localization phenomena.

💡 Even better: Ivan is on Enabla and happy to help clarify any questions you may have about the lectures. Don’t miss this unique opportunity to deepen your understanding of one of the most active frontiers in theoretical physics; watch and discuss the course with its author and others at https://enabla.com/set/182

📘 Key topics include:

🔹 Classical systems:
• Nonequilibrium and stochastic thermodynamics
• Jarzynski equality and Crooks relation
• Entropy production and the arrow of time
• Thermodynamics on trajectories and Maxwell's Demon
• Feedback and mutual information in thermodynamics
• Classical chaos and ergodicity

🔹 Quantum systems:
• Quantum chaos and thermalization
• Ergodicity measures and the Eigenstate Thermalization Hypothesis (ETH)
• Random-matrix theory and eigenlevel statistics
• Anderson and many-body localization (MBL)
• Multifractality and ergodicity breaking beyond MBL

#Ergodicity #Thermodynamics #QuantumChaos #Thermalization #StatisticalMechanics #ManyBodyPhysics #InformationThermodynamics

The Nordita Summer School on Quantum Chaos, Dissipation & Information is now in #OpenAccess on Enabla: https://enabla.com/set/192.

📚 The complete list of lectures:

• "Introduction to random-matrix theory, Anderson localisation, and random quantum circuits" by Prof. John Chalker, University of Oxford, Department of Physics: https://enabla.com/set/192/pub/942/about

• "THz Dynamics Studies of Quantum Materials" by Prof. Dr. Elsa Abreu (Elsa A.), ETH Zürich: https://enabla.com/set/192/pub/1170/about

• "On Quantum Chaos in Open Systems" by Prof. Karol Zyczkowski, Jagiellonian University: https://enabla.com/set/192/pub/742/about

• "Universal Dynamics of Monitored Many-Body Quantum Systems" by Prof. Andrea De Luca, University of Cergy-Pontoise: https://enabla.com/set/192/pub/1171/about

• "Quantum Many-Body Dynamics with Quantum Circuits" by Prof. Bruno Bertini, University of Birmingham: https://enabla.com/set/192/pub/1167/about

• "Localization and Thermalization via the Information Lattice" by Prof. Jens H Bardarson, KTH Royal Institute of Technology: https://enabla.com/set/192/pub/1116/about

• "High-Dimensional Random Landscapes and Glassy Dynamics" by Dr. Valentina Ros, LPTMS - Laboratory of Theoretical Physics and Statistical Models: https://enabla.com/set/192/pub/1169/about

• "New Physics in Driven Quantum Materials" by Prof. Andrea Cavalleri, MPI for the Structure and Dynamics of Matter: https://enabla.com/set/192/pub/1119/about

• "Random quantum channels and their spectral properties" by Prof. Sergey Denisov, OsloMet – Oslo Metropolitan University: https://enabla.com/set/192/pub/1122/about

🎥 Ask your questions, engage in discussions, and connect with other researchers: https://enabla.com/set/192

#QuantumChaos
#QuantumInformation #CondensedMatter #ManyBodyPhysics #OpenQuantumSystems

Join Prof. Andrea De Luca from the CY Cergy Paris Université as he explores the entanglement dynamics of chaotic and monitored many-body quantum systems. This free Nordita lecture covers unraveling open quantum dynamics (Lindblad master equation), classical Langevin noise, and purification dynamics, comparing their fascinating entanglement behaviors.

Engage with the author and peers and discuss your questions with Enabla's in-time discussion feature to deepen your understanding.

🔗 Watch here: https://enabla.com/set/192/pub/1171/about

#QuantumPhysics #EntanglementDynamics #ManyBodyPhysics #OpenAccess

Join Prof. Bruno Bertini from the University of Birmingham for an exciting lecture on using quantum circuits to describe the dynamics of many-body quantum systems. Discover how brickwork quantum circuits compare to time-independent Hamiltonian dynamics and dive into solvable circuits like random unitary and dual unitary circuits. This talk also explores entanglement dynamics and their connection to local interactions.

Watch the #OpenAccess lecture on Enabla and engage in online discussions to enhance your understanding. Don't miss this opportunity to connect with peers and the lecturer!

🔗 Watch here: https://enabla.com/pub/1167/about

#QuantumPhysics #QuantumCircuits #ManyBodyPhysics #EntanglementDynamics

Explore the intersection of data mining and many-body physics with Dr. Marcello Dalmonte from the Abdus Salam International Centre for Theoretical Physics (ICTP) and his first lecture of the 7-part series 'Data Mining the Many-body Problem.' Marcello is eager to answer your questions on Enabla, so don’t miss the chance to deepen your understanding through direct interaction!

🔗 Watch here: https://enabla.com/pub/702/about

Abstract: In this lecture, we focus on the intersection of data mining and the many-body problem, within the framework of statistical mechanics. We outline our motivations for leveraging advances in computational techniques to analyze large datasets generated by complex physical systems. We discuss concepts of universality across diverse fields and how they can inform our understanding of data structures. By exploring lattice models such as the two-dimensional Ising one, we aim to uncover universal behaviors that bridge physics and data science through innovative methodologies like unsupervised learning. This course seeks to equip participants with tools that highlight shared characteristics among seemingly disparate phenomena and are interested in understanding the many-body problem in terms of high-dimensional geometry concepts.

#DataScience #ManyBodyPhysics #StatisticalMechanics #Universality #OpenAccess

Happy our paper on reviving product states in the disordered Heisenberg model has finally been published in Nat. Comms. @Nature

https://www.nature.com/articles/s41467-023-41464-7

We show that the paradigmatic model for many-body localization hosts product state that show periodic high-fidelity revivals and local observables that oscillate indefinitely. The system neither equilibrates nor thermalizes.

#manybodyphysics #manybodylocalization #nonequilibriumdynamics
#TensorNetworks

Curious about quantum computing's real-world applications? Check out the MPI-PKS talk by Prof.Smith from the University of Nottingham, and learn with hands-on examples using the IBM Cloud quantum computers and @qiskit python library🧑‍💻

🔗 https://enabla.com/set/92/pub/642/about

The lecture covers the basics of quantum mechanics necessary to understand quantum circuits and explores two applications in many-body physics: finding ground states and simulating non-equilibrium dynamics. Perfect for beginners and experts alike. Don't miss out!

All #Enabla lectures are #free and #OpenAccess. If you like what we're doing, please support us by liking, sharing, following this account, leaving some comments under this post & asking questions on Enabla. Any of these actions help us a lot; thank you!🙏

#QuantumComputing #IBMQuantum #Qiskit #QuantumCircuits #NISQ #ManyBodyPhysics

Hi! I am a masters student at IISER-M India working in #quantuminformation #manybodyphysics #resourcetheories and generally interested in all fundamentally #quantum things!

Also interested in mathematics, #functionalanalysis and #operatortheory.

Hope to learn a lot from the quantum community here!