FYSS7641 Statistical Physics in and out of Equilibrium (6–9 cr)
Description
thermodynamics and statistical mechanics
phase transitions and critical phenomena, correlations and scaling
linear-response theory: fluctuation-dissipation theorem and related results
transport near equilibrium, Langevin equation, hydrodynamic limit
phenomena far from thermodynamic equilibrium
interface phenomena, disordered materials
Learning outcomes
After completing the study unit the student
has a firm grip on thermodynamics and statistical mechanics
is able to move between microscopic, mesoscopic and macroscopic descriptions
can utilize symmetries in the theory of phase transitions and critical phenomena
can apply the fluctuation-dissipation theorem and related results
knows classical transport theory at different levels of desciption
can apply various approaches to phenomena far from equilibrium
has in a project work applied things learned into personally interesting research problem
Description of prerequisites
FYSA2031 Quantum Mechanics, part A
FYSA2041 ja FYSA2042 Statistical Physics, parts A and B
Mathematical skills corresponding to courses compulsory in BSc in physics
Study materials
Lecture material
Literature
- Linda Reichl: Modern Course in Statistical Physics
- Michel Le Bellac, Fabrice Mortessagne & George Batrouni: Equilibrium and Non-equilibrium Statistical Thermodynamics
- Paul Chaikin & Tom Lubensky: Principles of Condensed Matter Physics
Completion methods
Method 1
Participation in teaching (6–9 cr)
Exercises, weekly meetings, exam, possible project work.