Cuprate Twistronics for a New Generation of Macroscopic Quantum Hardware

Explore the cutting-edge field of cuprate twistronics and its potential for developing new macroscopic quantum hardware in this 46-minute lecture by Nicola Poccia. Delve into the fascinating world of engineered 2D quantum materials, focusing on recent advancements in emergent electronic, magnetic, and topological phenomena. Learn about the interplay between electronic correlations, spin-orbit coupling, crystal structure, symmetry, and topology in reduced dimensionality systems. Discover how frustrated coupling across 2D interfaces and enhanced interlayer interactions can lead to novel electronic band structures and emergent behaviors not found in bulk systems. Gain insights into the potential applications of cuprate twistronics in the development of next-generation quantum technologies.

Cuprate Twistronics for a New Generation of Macroscopic Quantum Hardwares by Nicola Poccia