Admission Requirements
Description
In comparison to Statistical Physics 1 we will increase complexity of the systems to allow for interaction between objects. We will discuss approximation methods, virial expansion, high- and low-temperature expansion, and mean field theory of interacting systems. First steps towards a general model of phase transitions and critical behavior will be discussed. Further we will develop theory that describes non-equilibrium steady-state behavior.
Course objectives
Get familiar with basic concepts in statistical physics, the description of interacting systems and on non-equilibrium statistical mechanics.
Timetable
Mode of instruction
Lectures and Tutorials
Assessment method
Written exam (open book)
Homework assigns you to an upgrade
Blackboard
Lecture notes, additional readings and assignments will be provided.
To have access to Blackboard you need a ULCN-account.Blackboard UL)
Reading list
Daijiro Yoshioka, Statistical Physics, An Introduction
Excerpts from (will be provided): Claude Garrod, Statistical Mechanics and Thermodynamics; Frederick Reif, Fundamentals of Statistical and Thermal Physics
Contact
Contact details lecturer: Prof.dr. T. Schmidt (Thomas)