Course Identification

Statistical physics 1
20241131

Lecturers and Teaching Assistants

Prof. Oren Raz, Dr. Teza Gianluca
Noga Bashan, Yaar Vituri, Einav Berin

Course Schedule and Location

2024
First Semester
Tuesday, 11:15 - 13:00, Weissman, Auditorium
Thursday, 09:00 - 10:30, Weissman, Auditorium

Tutorials
Wednesday, 14:15 - 16:00, Weissman, Auditorium
12/12/2023
29/02/2024

Field of Study, Course Type and Credit Points

Physical Sciences: Lecture; 6.00 points
Chemical Sciences: 6.00 points

Comments

Hybrid Format

Prerequisites

No

Restrictions

60

Language of Instruction

English

Attendance and participation

Expected and Recommended

Grade Type

Numerical (out of 100)

Grade Breakdown (in %)

50%
50%

Evaluation Type

Examination

Scheduled date 1

N/A
N/A
-
N/A

Scheduled date 2

N/A
N/A
-
N/A

Estimated Weekly Independent Workload (in hours)

8

Syllabus

The course will deal with the following topics:

Equilibrium statistical physics: Phase transitions and critical phenomena, including: 

Ising type models - mean field, 1D, 2D, Duality, 3D; renormalization group approach - real space and Fourier space.

Spin Glass physics: mean-field models, the replica trick, replica symmetry breaking.

Learning Outcomes

Upon successful completion of this course students should be able to:

  1. Recall the basic notions of thermodynamics and statistical physics from a new deductive perspective.
  2. Discuss interacting systems and phase transitions.
  3. Appreciate how competition of order and disorder determines the properties of systems at different space dimensionalities, how the renormalization group framework explains universality of critical phenomena.
  4. Become acquainted with spin glasses, glass transition, the replica symmetry and its breaking.

Reading List

Lecture notes

Basic books:

  1. L. D. Landau and E. M. Lifshitz, Statistical Physics Part 1.
  2. R. K. Pathria, Statistical Mechanics.
  3. R. Kubo, Statistical Mechanics.
  4. K. Huang, Statistical Mechanics.
  5. H. Callen  Thermodynamics


Course reading:

  1. S K Ma Modern Theory of Critical Phenomena   The Bejamin Cummings Publishing Co
  2. D J Amit Field Theory Renormalization Group and Critical Phenomena   World Scientific
  3. L. Peliti  Statistical Physics in a Nutshell
  4. M. Kardar Statistical Physics of Fields
  5. M. Kardar Statistical Physics of Particles

Website

N/A