Course Title : Thermophysics for Thermal Engineering

Code 10B622
Course Year Master and Doctor Course
Term 2nd term
Class day & Period Fri 1st
Location C3-Lecture Room 5
Credits 2
Restriction No Restriction
Lecture Form(s) Lecture
Language Japanese
Instructor M. Matsumoto

Course Description

Based on elementary thermodynamics and statistical physics, I will describe non-equilibrium thermodynamics and advanced statistical physics, including phase transition, pattern formation, and entropy production.

Grading

Paper assignments

Course Goals

Understanding the principle mechanisms of phase transition, cooperation phenomena, patern formation, and relaxation phenomena, in terms of advanced statistical mechanics and non-equilibrium thermodynamics.

Course Topics

Theme Class number of times Description
Elementary statistical physics: review 1 Review of equilibrium statistical mechanics
Phase transition as a cooperative phenomenon 3 Statistical mechanics of interacting particle system
- Exact calculation
- Monte Carlo simulation
- Mean field approximation
Pattern formation of non-equilibrium systems 3 After a time dependent Ginzburg-Landau (TDGL) model is introduced, formation of spatial patterns is discussed from various viewpoints.
Equilibrium thermodynamics: review 2 Review of elementary thermodynamics
Non-equilibrium thermodynamics: Basics 5 System stability and the principle of irreversible process are discussed in terms of thermodynamics.
Non-equilibrium thermodynamics: Applications 3 - Entropy production
- Linear response theory
- Onsager's reciprocal relation
Check and Feedback 1

Textbook

Lecture note will be prepared.

Textbook(supplemental)

will be listed in the class.

Prerequisite(s)

Undergraduate level of Thermophysics, Heat transfer phenomena, and Statistical physics

Independent Study Outside of Class

Web Sites

Additional Information