Complex Magnetism in High Temperature Two-Dimensional Magnets

Explore complex magnetism in high-temperature two-dimensional magnets in this 45-minute lecture by Biplab Sanyal. Part of the "Engineered 2D Quantum Materials" program at the International Centre for Theoretical Sciences, delve into recent developments in emergent electronic, magnetic, and topological phenomena in 2D synthetic quantum material structures. Examine the interplay between electronic correlations, spin-orbit coupling, crystal structure, symmetry, and topology in reduced dimensionality systems. Learn about frustrated coupling across 2D interfaces, enhanced interlayer interactions, and their impact on electronic band structures and emergent behaviors. Gain insights into artificially engineered heterostructures, including oxide interfaces, van der Waals materials, and novel moire or layered materials. Discover complementary experimental and theoretical approaches, from materials growth and spectroscopy to transport studies and quantum field theory. Ideal for physicists, materials scientists, graduate students, and postdocs interested in cutting-edge research on 2D quantum materials and their applications.