Topological Superconductivity by Engineering Non-Collinear Magnetism

Explore the fascinating world of topological superconductivity in this 28-minute lecture by Arijit Saha from the International Centre for Theoretical Sciences. Delve into the cutting-edge research on engineering non-collinear magnetism to achieve topological superconductivity. Learn about the intersection of condensed matter physics and quantum information, and how these fields are advancing our understanding of quantum phases. Discover the potential applications of topological superconductors in quantum information processing and their promise for creating robust qubits. Gain insights into the latest developments in this exciting field, including the role of Majorana modes and their topological protection against local disorder and decoherence. This talk is part of the "Condensed Matter Meets Quantum Information" program, which aims to bridge the gap between condensed matter researchers and quantum information specialists, fostering new ideas and collaborations in this rapidly evolving area of physics.

Topological Superconductivity by Engineering Non-collinear Magnetism... by Arijit Saha