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Explore the path integral formulation of hydrodynamics for one-dimensional and two-dimensional Fermi gas systems in this 52-minute conference talk. Delve into advanced theoretical physics concepts as part of a comprehensive program on hydrodynamics, fluctuations, and noise in quantum and classical systems. Learn how path integral methods can be applied to understand the hydrodynamic behavior of fermionic systems in low dimensions. Examine the mathematical framework that connects quantum field theory techniques with many-body physics and hydrodynamic descriptions. Discover the theoretical foundations that bridge quantum mechanics and fluid dynamics in the context of fermionic matter. Gain insights into cutting-edge research methodologies that advance our understanding of nonequilibrium thermodynamics and quantum transport phenomena. This presentation forms part of an interdisciplinary workshop bringing together classical, quantum, and string theory communities to explore converging themes in nonequilibrium hydrodynamics.
