Advanced statistical physics  

Learning Outcomes: On completion of this module students should: 1. Have understood the meaning of the partition function and how to use it for calculation of thermodynamic properties of condensed matter systems; 2. Have understood the concept of statistical ensemble; 3. Be familiar with the concept of a phase transition and critical behaviour and be able to describe the signatures of a phase transition; 4. Have understood the concept of fluctuations and describe their effect on thermodynamic quantities; 5. Be able to describe the geometry and elasticity of a polymer chain; 6. Be able to recognise the signatures of entropic forces and calculate their magnitude in molecular systems; 7. Be able to do basic calculations using the lattice models in condensed matter; 8. Be familiar with the ways of describing non-equilibrium processes in condensed matter and biophysics. Indicative Module Content: 1. Phase transitions: Landau theory, critical fluctuations, scaling, renormalisation group method 2. Lattice models: transfer matrix method, exact solution of the Ising model, mean field theory 3. Polymers: statistics of an ideal chain, Gaussian chain, self-avoiding chain, worm-like chain 4. Entropic forces at the nanoscale: depletion interactions, entropic springs, polymer chain elasticity 5. Charged systems: Poisson-Boltzmann equation in planar, cylindrical and spherical geometry, charge binding, charge correlations, Wigner crystals, strong coupling theory 6. Diffusion and Brownian motion: Langevin equation, Gaussian random walk, Levy flights. 7. Non-equilibrium processes: Kramers problem, active particles
Presential
English
Advanced statistical physics
English

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