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Explore cutting-edge research in non-equilibrium quantum many-body systems through this collection of five specialized lectures from the II School on Emergent Phenomena in Non-Equilibrium Quantum Many-Body Systems. Delve into AdS/CMT thermal and quantum phase transitions and self-duality with Diego Matias from IFT-UNESP, examining the connections between anti-de Sitter space/condensed matter theory correspondences. Learn about explicit Pfaffian formulas for amplitudes of fermionic Gaussian pure states in arbitrary Pauli bases through Miradel Seifi Mirjafarlou's presentation from Federal University of Fluminense. Investigate the effects of dissipation and disorder in systems with two order parameters and continuous symmetry as presented by Pedro Sanchez Farinas from IFSC, USP. Discover methods for probing universal relaxation speed in Bose-Einstein condensates far from equilibrium with Simon Boehly from Heidelberg University. Examine finite-temperature quasiparticle properties of impurities immersed in two-dimensional bosonic superfluids through Victor Velasco Silva's research from the International School for Advanced Studies (SISSA). Gain insights into advanced theoretical frameworks, computational methods, and experimental approaches used to understand emergent phenomena in quantum systems driven away from thermal equilibrium, covering topics essential for researchers working in quantum many-body physics, condensed matter theory, and related fields.
