English

FY802: Statistical physics (10 ECTS)

STADS: 07007201

Level
Master's level course approved as PhD course

Teaching period
The course is offered in the autumn semester.

Teacher responsible

Email: mlomholt@sdu.dk

Additional teachers

ipsen@memphys.sdu.dk

paolo.sibani@sdu.dk

Timetable

Group	Type	Day	Time	Classroom	Weeks
Common	I	Monday	10-12	U146	36
Common	I	Monday	08-10	U146	37
Common	I	Monday	12-14	U24	40
Common	I	Monday	08-10	U156	41
Common	I	Monday	08-10	U31	43
Common	I	Monday	12-14	U156	44
Common	I	Monday	10-12	U24	45
Common	I	Monday	12-14	U142	46
Common	I	Monday	10-12	U155	48-51
Common	I	Tuesday	08-10	U146	38-39
Common	I	Tuesday	08-10	U156	40
Common	I	Tuesday	08-10	U31	43
Common	I	Tuesday	08-10	U24	45
Common	I	Tuesday	14-16	U155	48
Common	I	Tuesday	10-12	U155	49-51
Common	I	Wednesday	12-14	U31	38
Common	I	Wednesday	10-12	U24	39
Common	I	Wednesday	10-12	U31	41
Common	I	Wednesday	08-10	U142	46
Common	I	Thursday	08-10	U156	44
Common	I	Thursday	12-14	U141	47
Common	I	Friday	08-10	U155	47
H1	TE	Tuesday	08-10	U146	36
H1	TE	Wednesday	10-12	U155	51
H1	TE	Thursday	12-14	U20	37
H1	TE	Thursday	14-16	U31	38
H1	TE	Thursday	12-14	U24	40
H1	TE	Thursday	08-10	U31	41
H1	TE	Thursday	14-16	U147	43
H1	TE	Thursday	14-16	U142	45
H1	TE	Thursday	12-14	U155	50
H1	TE	Friday	10-12	U146	36-37,39
H1	TE	Friday	10-12	U156	44
H1	TE	Friday	10-12	U142	46-47
H1	TE	Friday	12-14	U155	48
H1	TE	Friday	10-12	U155	49

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Prerequisites:
Bachelor's degree in physics or equivalent degree; minor in Physics.

Academic preconditions:
Students taking the course are expected to have knowledge of thermodynamics and equilibrium statistical mechanics.

Course introduction
Insight into methods, models and phenomena in modern statistical physics.

The course builds on the knowledge acquired in a bachelor education in physics, in particular the course Thermal physics, and gives the knowledge basis needed for studying topics in physics of condensed matter that are placed later in the education.

Expected learning outcome
The learning objectives of the course is to make the student able to:

Apply relevant models of equilibrium and non-equilibrium phenomena in systems with many degrees of freedom
Apply relevant numerical methods
Validate and interpret the results of both simulations and theoretical analyses
Critically examine different levels of description for the same physical phenomenon

Subject overview
The following main topics are part of the syllabus:

Non-equilibrium statistical mechanics: stochastic processes, master equations, irreversible thermodynamics, continuity equations, and transport coefficients.
Critical phenomena and renormalization theory: 2nd order phase transitions, critical exponents and scaling at a critical point, renormalization and scale invariance, dynamical critical phenomena.

Literature
There isn't any litterature for the course at the moment.

Website
This course uses e-learn (blackboard).

Prerequisites for participating in the exam
None.

Assessment and marking:

Oral exam. The exam takes a starting point in approved project reports written during the course. Allowed aids: Approved reports and assignments. The grade is given according to the Danish 7-mark scale, internal examiner. (10 ECTS). (07007202).

Re-examination in the same exam period or immediately thereafter.

Expected working hours
The teaching method is based on three phase model.
Intro phase: 52 hours
Skills training phase: 38 hours, hereof:
- Tutorials: 30 hours
- Laboratory exercises: 8 hours

Educational activities

Educational form
Activities during the study phase:

Study of the teaching material
Exercises and projects

Language
This course is taught in English, if international students participate. Otherwise the course is taught in Danish.

Course enrollment
See deadline of enrolment.

Tuition fees for single courses
See fees for single courses.