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22.67J Principles of Plasma Diagnostics

22.67J Principles of Plasma Diagnostics (Fall 2023, MIT OCW). Instructor: Prof. Jack D. Hare. This course is an introduction to the physical processes used to measure the properties of plasmas. It will cover diagnostics suitable for a wide range of plasmas, including magnetically confined fusion plasmas and high-energy-density plasmas. Techniques include the measurements of magnetic and electric fields, particle flux, refractive index, emission and scattering of electromagnetic waves, and nuclear diagnostics. (from ocw.mit.edu)

Lecture 09 - Refractive Index Diagnostics V: Abel and Faraday

Techniques for Abel inverting data, and the cold plasma dispersion in a magnetized plasma.


Go to the Course Home or watch other lectures:

Lecture 01 - Introduction
Lecture 02 - Magnetics I
Lecture 03 - Magnetics II
Lecture 04 - Langmuir Probe
Lecture 05 - Refractive Index Diagnostics I
Lecture 06 - Refractive Index Diagnostics II
Lecture 07 - Refractive Index Diagnostics III
Lecture 08 - Refractive Index Diagnostics IV
Lecture 09 - Refractive Index Diagnostics V: Abel and Faraday
Lecture 10 - Refractive Index Diagnostics VI: Faraday and Reflectometry
Lecture 11 - Radiation
Lecture 12 - Electron Cyclotron Emission
Lecture 13 - CECE and Bolometry
Lecture 14 - Line Radiation
Lecture 15 - Equilibria and Imaging
Lecture 16 - Line Broadening
Lecture 17 - Proton Imaging
Lecture 18 - Neutral Particles
Lecture 19 - Nuclear Diagnostics
Lecture 20 - Thomson Scattering: Basics
Lecture 21 - Thomson Scattering: Non-Collective
Lecture 22 - Thomson Scattering: Collective
Lecture 23 - Thomson Scattering: Advanced