quantum plasmonic tunnelling

A focused electron beam (in yellow) was used to characterise the structures and to probe the optical properties of two plasmonic resonators bridged by a layer of molecules with a length of 0.5 nm. (Image credit: Tan Shu Fen, National University of Singapore)

Scientific breakthrough could operate at tens of thousands times faster than today’s state-of-the-art microprocessors

Scientific breakthrough to potentially revolutionise high-speed electronics, nanoscale opto-electronics and nonlinear optics Assistant Professor Christian