Logarithmic Corrections to Particle Lifetimes in 1D Lattice Fermion Systems at Finite Temperature
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Explore logarithmic corrections to particle lifetimes in one-dimensional lattice fermion systems at finite temperature in this hour-long conference talk by C. Von Keyserlingk from King's College London. Delve into the theoretical framework governing many-body systems operating out of equilibrium, examining how temperature effects influence particle decay rates in constrained dimensional systems. Analyze the mathematical foundations underlying logarithmic corrections and their physical implications for understanding quantum many-body dynamics in low-dimensional fermionic lattices. Investigate the interplay between thermal fluctuations and quantum coherence effects that give rise to these corrections, and discover how these findings contribute to the broader understanding of non-equilibrium statistical mechanics in condensed matter physics.
Syllabus
Logarithmic corrections to particle lifetimes in 1D lattice fermion systems at finite temperature
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NCCR SwissMAP