Explore groundbreaking research in quantum networking through this comprehensive lecture that delves into the challenges and solutions of creating quantum system communications at global scales. Learn about innovative approaches using light as a quantum interaction mediator between matter qubits, with particular focus on optically-active electron spins in silicon carbide. Discover the development of long-distance quantum links through a unique platform combining record-breaking spin coherence, single photon emission, and nanophotonic device integration in wafer-scale semiconductor technology. Examine recent breakthroughs in quantum materials featuring unprecedented electro-optic tunability, opening new possibilities for photonic quantum computing, superconducting processor scaling, and microwave-to-optical transduction. Presented by Chris Anderson, an Intelligence Community postdoctoral research fellow at Stanford and incoming assistant professor at the University of Illinois, this 59-minute talk showcases how controlling electron spins and photons in condensed matter systems could revolutionize the future of quantum internet technology.
Overview
Syllabus
"Building a quantum internet with photons and electron spins," Chris Anderson
Taught by
Illinois Quantum