MSE 464

Fall 2023 All Classes

All Classes

Magnetic Materials and their Applications

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Credit: 3 OR 4 hours.

Fundamental properties of magnetic materials with an emphasis on magnetic structure (including domains) and dynamics and how they manifest themselves in different inhomogeneous materials systems, such as nanoparticles and thin film heterostructures. Includes discussion of different interactions with magnetic systems through light, heat, and electronic degrees of freedom. These physical phenomena are put into context for modern applications in medicine, energy, and information technologies.

3 undergraduate hours. 4 graduate hours. Prerequisite: ECE 340, MSE 304 or PHYS 460.

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MSE 464 class schedule data for fall 2023
	CRN	Type	Section	Time	Day	Location	Instructor	Section Details
	77808	Lecture-Discussion	G	11:00AM -12:20PM	TR	305 Materials Science & Eng Bld	Hoffmann, A	Part of Term: 1 Date Range: 08/21/23-12/06/23 Credit: 4 hours Section Info: This course will cover the fundamental properties of magnetic materials with an emphasis on magnetic structure (including domains) and dynamics and how they manifest themselves in different inhomogeneous materials systems, such as nanoparticles and thin film heterostructures. We will also discuss different interactions with magnetic systems through light, heat, and electronic degrees of freedom. These physical phenomena will be put into context for modern applications in medicine, energy, and information technologies. Restriction(s): Restricted to Graduate - Urbana-Champaign.
	77809	Lecture-Discussion	U	11:00AM -12:20PM	TR	305 Materials Science & Eng Bld	Hoffmann, A	Part of Term: 1 Date Range: 08/21/23-12/06/23 Credit: 3 hours Section Info: This course will cover the fundamental properties of magnetic materials with an emphasis on magnetic structure (including domains) and dynamics and how they manifest themselves in different inhomogeneous materials systems, such as nanoparticles and thin film heterostructures. We will also discuss different interactions with magnetic systems through light, heat, and electronic degrees of freedom. These physical phenomena will be put into context for modern applications in medicine, energy, and information technologies. Restriction(s): Restricted to Undergrad - Urbana-Champaign.