MSE 464 – Magnetic Materials & Applications
This course will cover the fundamental properties of magnetic materials with an emphasis on magnetic structures (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 electric degrees of freedom. These physical phenomena will be put into context for modern applications in medicine, energy, and information technologies.
Syllabus: Introduction to magnetism, magnetic order, dipolar fields, anisotropy, basic energies, reversal and thermal stability, magnetic domains, magnetism in biology and medicine, dynamics and micromagnetic modeling, spin waves and magnetic excitations, magnetic imaging and microscopy, permanent magnets and soft magnets, interfacial and surface effects, magnetic heterostructures, interlayer exchange coupling, giant and tunnel magnetoresistance, spintronics, magnetic recording, topological phenomena and other current hot topics.
Detailed Syllabus:
Course materials, including homework, lecture notes, and lecture recordings will be made available through Canvas.
Contact Information:
Professor Axel Hoffmann can be reached via email at: axelh@illinois.edu
Office hours are Tuesdays or Fridays 2:00 pm – 3:00 pm, or via prior appointment.
All office hour meetings will be in-person in MRL 1021 or via Zoom upon prior arrangement.
Discussions and announcements related to course material will be facilitated by using Canvas.