Explore the fundamental concepts of driven open quantum systems in this comprehensive lecture. Delve into the intricacies of describing and deriving equations for these systems, covering topics such as the Born approximation, two-level system dynamics, and quantum statistical mechanics. Learn about the basic physics of atoms and discover why a shift in perspective is necessary. Examine core developments in the field, including path integral methods and density matrix evolution. Gain valuable insights into the transition from microphysics to macrophysics in driven open quantum systems, presented by Sebastian DIEHL from the Institute for Theoretical Physics at the University of Cologne, Germany.
Driven Open Quantum Systems: From Micro- to Macrophysics - Lecture 1
ICTP Condensed Matter and Statistical Physics via YouTube
Overview
Syllabus
Intro
Outline
What is a driven open system
How do we describe them
How can we derive the equation
Born approximation
Twolevel system
dynamical map
Quantum statistical mechanics
Atoms
Focus
Basic physics
Why change gears
Core developments
Path integral
Density Matrix Evolution
Taught by
ICTP Condensed Matter and Statistical Physics
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Driven Open Quantum Systems - From Micro- to Macrophysics - Lecture 2
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Driven Open Quantum Systems - From Micro- to Macrophysics - Lecture 2
