Numbering Code	G-ENE02 63273 LJ28 G-ENE02 63273 LJ59 G-ENE02 63273 LJ77	Year/Term	2022 ・ First semester
Number of Credits	2	Course Type	Lecture
Target Year	Master's students	Target Student
Language	Japanese	Day/Period	Fri.4
Instructor name	KADO SHINICHIRO (Institute of Advanced Energy Associate Professor)
Outline and Purpose of the Course	Throughout this course, students learn: - Basic processes of charged particles and transport phenomena of magnetized plasmas based on the basic knowledge of physics. - the kinetic and magnetohydrodynamic properties of plasmas. - Methodology of analysis and interpretation of particle and heat transport from the core to the boundary plasma including divertor. - Basic concept of nuclear fusion and its safety issues.
Course Goals	With regard to the transport phenomena in magnetic confinement high temperature plasmas: To be able to understand the basic physics for the transport analysis for the high temperature plasmas. To be able to understand the concept of random walk theory. To be able to understand neoclassical transport theory, which is the basis of transport phenomena in toroidal plasmas. To be able to understand how to analyze the experimental data. To be able to access the risks and safety of nuclear fusion.
Schedule and Contents	The following topics will be treated for 15 weeks: 1-3 Brief preview of the background of plasma physics and fusion energy. 4-6 Transport phenomena of charged particles. 7-9 Various phenomena of magnetized plasma (core plasma and boundary plasma) 10-12 Classical and neoclassical transport 13 Plasma fluctuation and turbulent transport 14 Safety and risk assessment of fusion 15 Summary and feedback
Evaluation Methods and Policy	Evaluaion will be based on assignments (60%) and class performance (40%) including attendance
Course Requirements	None
Study outside of Class (preparation and review)	To learn the content of the lecture deeply, deduction of the equation and numerical evaluation of the parameters by yourselves are strongly recommended. It is also important to interpret the science and technology into easy words for public (science communication).