132.968 Phase Transitions and Critical Phenomena
This course is in all assigned curricula part of the STEOP.
This course is in at least 1 assigned curriculum part of the STEOP.

2020W, VO, 2.0h, 3.0EC

TUWEL course

Properties

Semester hours: 2.0
Credits: 3.0
Type: VO Lecture
Format: Online

Learning outcomes

After successful completion of the course, students are able to are in postion to reproduce the contnts as outlined in detail in the english version of "Lehrinhalte" in written as well as oral form. Moreover the students will be able to apply the basic concepts of Phasenübergänge und krit. Phänomene to simple examples.

Subject of course

1 Introduction; 2. Examples for phase transitions; 3. Thermodynamics; 4. Model systems; 5. Landau theory; 6. Correlation functions; 7. Critical exponents, scaling hypothesis; 8. Renormalizationgroup theory

Teaching methods

lecture with a strong and active student participation.

Mode of examination

Oral

Lecturers

Kahl, Gerhard

Institute

E136 Institute of Theoretical Physics

Course dates

Day	Time	Date	Location	Description
Tue	08:00 - 10:00	13.10.2020 - 26.01.2021		Vorlesung

Show single appointments

Phase Transitions and Critical Phenomena - Single appointments

Day	Date	Time	Description
Tue	13.10.2020	08:00 - 10:00	Vorlesung
Tue	20.10.2020	08:00 - 10:00	Vorlesung
Tue	27.10.2020	08:00 - 10:00	Vorlesung
Tue	03.11.2020	08:00 - 10:00	Vorlesung
Tue	10.11.2020	08:00 - 10:00	Vorlesung
Tue	17.11.2020	08:00 - 10:00	Vorlesung
Tue	24.11.2020	08:00 - 10:00	Vorlesung
Tue	01.12.2020	08:00 - 10:00	Vorlesung
Tue	15.12.2020	08:00 - 10:00	Vorlesung
Tue	12.01.2021	08:00 - 10:00	Vorlesung
Tue	19.01.2021	08:00 - 10:00	Vorlesung
Tue	26.01.2021	08:00 - 10:00	Vorlesung

Examination modalities

oral presentation

Course registration

Not necessary

Curricula

Study Code	Obligation	Semester	Precon.	Info
066 434 Materials Sciences	Mandatory elective
066 461 Technical Physics	Mandatory elective
066 461 Technical Physics	Mandatory elective
810 Technical Physics	Mandatory elective
810 Technical Physics	Mandatory elective

Literature

J.M. Yeomans, Statistical Mechanics of Phase Transitions (Clarendon Press, 1992) M.E. Fisher, Renormalization group theory: its basis and formulation in statistical physics, Rev.Mod.Phys. 70, 653 (1998) D.J. Amit, Field theory, the renomalization group, and critical phenomena (World Scientific, 1984)

Previous knowledge

Basic knowledge in statistical physics

Preceding courses

136.020 VU Statistical Physics I

Miscellaneous

Course homepage

Language

German