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TMP-TE1: Soft Condensed Matter Physics – Overview

Lecturer

The exam has been graded and the results can be seen here! The exam
review takes place on Friday, March 15th at 10:00 am.

A questions session will take place on Thursday 7th of February, in room A450, during the tutorial slot from 4.00-6.00 pm.

Organization of the lecture:

If not stated otherwise, the lecture takes place on

  • Wednesday, 10:00 c.t. - 12:00 in room A249, Theresienstr. 37
  • Thursday, 12:00 c.t. - 14:00 in room A 348, Theresienstr. 37

starting on 17.10.2018.


Credits: 4 SWS lecture + 2 SWS exercise class, 9 ECTS

Exam

  • The exam will take place on Tuesday, 12th of Febuary 2019, 09:00-13:00 in room A348

Topics

  • Surface forces, Capillarity and Wetting
  • Fractal and Scaling concepts for interfacial growth
  • Self-assembly
  • EW and KPZ equations
  • Polymers and gels
  • Liquid crystals
  • Viscoelasticity and Linear response theory
  • Percolation, jamming and Marginality

Perspective

Over the last decades, Soft Condensed Matter has emerged as a new class of systems, including polymers, liquid crystals, gels, colloids, foams, and granular matter. Central characteristics of such Soft Matter systems include their disordered nature, and their macromolecular or microscopic constituents with interactions strengths that are typically of the order of the thermal energy. The rich physical behavior of Soft Matter thus often arises through a competition between entropic and energetic effects. A particular intriguing manifestation of Soft Matter occurs in living systems such as cells and tissues, where non-equilibrium effects can play a major role. These lectures will serve as an introduction to the central theoretical concepts and methods that allow us to understand a broad range of behaviors of Soft Condensed Matter.

Literature

  • Massao Doi, Soft Matter Physics
  • M. Rubenstein and R. Colby, Polymer Physics
  • M. Doi and S.F. Edwards, Theory of polymer dynamics
  • D. Stauffer and A. Aharoni, Introduction To Percolation Theory
  • Chaikin and Lubensky, Principles of Condensed Matter Physics