MHD Theory of Fusion Systems

Illustration with cross-section of a tokamak.

A Tokamak is a toroidal plasma heated to over 50 million degrees Celsius. The plasma current serves to generate the helical component of the magnetic field necessary for equilibrium. (Image courtesy of NASA.)

Instructor(s)

MIT Course Number

22.615

As Taught In

Spring 2007

Level

Graduate

Cite This Course

Course Features

Course Description

This course discusses MHD equilibria in cylindrical, toroidal, and noncircular tokamaks. It covers derivation of the basic MHD model from the Boltzmann equation, use of MHD equilibrium theory in poloidal field design, MHD stability theory including the Energy Principle, interchange instability, ballooning modes, second region of stability, and external kink modes. Emphasis is on discovering configurations capable of achieving good confinement at high beta.

Freidberg, Jeffrey. 22.615 MHD Theory of Fusion Systems, Spring 2007. (MIT OpenCourseWare: Massachusetts Institute of Technology), http://ocw.mit.edu/courses/nuclear-engineering/22-615-mhd-theory-of-fusion-systems-spring-2007 (Accessed). License: Creative Commons BY-NC-SA


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