FROM THEORY TO REALITY: TOPOLOGICAL QUANTUM COMPUTATION
SUNY Empire Innovation Professor Qiang Li helped discover a new light-induced switch that opens a fascinating opportunity to carry dissipationless electron current and holds great promise for spintronics, topological effect transistors, and quantum computing. Learn more about this exciting discovery.
ATOM THIN TRANSISTOR COULD BE KEY FOR NEXT-GEN COMPUTING
University at Buffalo researchers report that a new two-dimensional transistor operates with less voltage and handles more current – properties that are essential to meet the demand for new power-hungry nanoelectronic devices. Learn how this innovative technology could help usher in a new era of computing.
GEOMETRIC ANALYSIS LEADS TO QUANTUM COMPUTING INSIGHTS
Scientists at SUNY Polytechnic Institute and the Air Force Research Laboratory explain how magnetic fields can influence quantum systems and propose a theoretical description of a speed-efficiency tradeoff. Read the team’s published research.
