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Magnetization Dynamics and Damping
September 15, 2020 @ 6:00 pm - 7:00 pm PDT
Tim Mewes (2020 IEEE Magnetics Distinguished Lecturer)
University of Alabama, USA
The dynamics and the damping of magnetization are of paramount importance to understand and predict the properties of magnetic materials used in a variety of applications. For example, spin-transfer torque magnetic random-access memory cells (STT-MRAM) are expected to switch fast, reliably, and with low power consumption, which requires low damping materials. New spintronic devices based on magnetic skyrmions, which also demand precise control of the magnetization dynamics, are another example. The Landau-Lifshitz-Gilbert equation of motion [1, 2] and extensions thereof  have been extremely successful in enabling predictions of the magnetization dynamics of materials both analytically and using micromagnetic simulations. Experimentally the magnetization dynamics can be elegantly probed in the frequency domain using ferromagnetic resonance (FMR). Recent progress in broadband ferromagnetic resonance techniques have provided valuable new insights in the magnetization dynamics and the damping mechanisms of magnetic materials.
In this lecture, I will introduce the fundamentals of magnetization dynamics and damping. I will discuss their importance for many applications, including hard drive read heads, spin-transfer torque magnetic random-access memories and new skyrmions based devices. I will talk about various mechanisms that can contribute to the damping of the magnetization in thin films including spin-orbit relaxation, spin pumping, and two-magnon scattering. The presentation will show how recent developments in broadband ferromagnetic resonance enable precise measurements of the dynamics and damping in thin magnetic films and multilayers especially when combined with angle and temperature dependent measurements . This will include a discussion of the recently discovered anisotropic damping in exchange biased films [5, 6].
Tim Mewes received his undergraduate degree in physics in 1999 from the University of Kaiserslautern in Germany. He received his Ph.D. in physics from the same University in 2002. He subsequently was a postdoctoral researcher at Ohio State University. He joined the University of Alabama in 2005, where he now works as a professor in the Department of Physics and Astronomy.
Prof. Tim Mewes has published over 70 articles in peer reviewed journals on topics including epitaxial growth of magnetic thin films, exchange bias, influence of ion irradiation on magnetic properties, magnetic resonance force microscopy, broadband ferromagnetic resonance, magnetization dynamics, damping, and micromagnetics.
During his undergraduate and graduate studies Tim Mewes was a scholar of the German Academic Scholarship Foundation. In 2010 Prof. Mewes received a National Science Foundation CAREER award for the investigation of the magnetization dynamics and damping in magnetic nanostructures. In 2011 he became a Visiting Fellow of the Center for Nanoscale Science and Technology at the National Institute for Standards and Technology in Gaithersburg, and in 2014 he received the IBM Faculty Award. Dr. Mewes currently chairs the Alabama chapter of the IEEE Magnetics Society. He chaired the 2016 IEEE International Conference of Microwave Magnetics in Tuscaloosa and has been active on program committees of several other international magnetism conferences. He is also a member of the American Physical Society.
Contact: Tim Mewes, Department of Physics and Astronomy, University of Alabama, Tuscaloosa, Alabama 35487, USA; web: http://magneticslab.ua.edu/; email: firstname.lastname@example.org