YoVDO

Engineered 2D Materials - The Heterostructure Effect

Offered By: International Centre for Theoretical Sciences via YouTube

Tags

Quantum Materials Courses Magnetism Courses Condensed Matter Physics Courses Superconductivity Courses 2D Materials Courses Van der Waals Materials Courses Twisted Bilayers Courses

Course Description

Overview

Save Big on Coursera Plus. 7,000+ courses at $160 off. Limited Time Only!
Explore the fascinating world of engineered 2D quantum materials in this comprehensive lecture on "The Heterostructure Effect" by Surajit Saha. Delve into the cutting-edge developments in two-dimensional synthetic structures of quantum materials, focusing on emergent electronic, magnetic, and topological phenomena. Discover how reduced dimensionality and the interplay between electronic correlations, spin-orbit coupling, crystal structure, symmetry, and topology lead to novel collective phenomena in artificially engineered heterostructures. Learn about oxide interfaces, twisted van der Waals materials, twisted cuprates, and other innovative layered materials. Gain insights into topics such as magnetism and topological superconductivity, flat bands and band topology, correlated phenomena in twisted structures, Kondo lattice physics, skyrmions, and quantum simulators. This lecture is part of the "Engineered 2D Quantum Materials" program organized by the International Centre for Theoretical Sciences, bringing together physicists and materials scientists to explore the frontiers of quantum materials research.

Syllabus

Engineered 2D Materials: The Heterostructure Effect by Surajit Saha


Taught by

International Centre for Theoretical Sciences

Related Courses

Modern Topics in Condensed Matter Physics
University of Colorado Boulder via Coursera
Superconductivity
The Open University via OpenLearn
Selected chapters of quantum mechanics for modern engineering
National University of Science and Technology MISiS via edX
A Brief Course On Superconductivity
Indian Institute of Technology Guwahati via Swayam
Accelerator Physics
NPTEL via Swayam