My work has primarily focused on promoting the miniaturization of devices by investigating how the competition of different energy scales generates novel ground states in complex and strongly correlated materials through nanostructuring and tuning...
Studying the formation, characterization, device coupling, and control of spin defects in Silicon and Silicon Carbide for applications in quantum information science. Education: M.S. Electrical Engineering - University of Wisconsin-Madison 2020 B.S...
Tarr-Coyne Professor of Applied Physics and of Electrical Engineering
Exploring new possibilities of optical and electronic behavior within materials that have been carefully sculpted, modulated and modified at the nanoscale. Creating low-damage and selective processes to provide highest quality & performance structures...
SiC nanophotonics including defect characterization at cryogenic temperatures and device fabrication Education: Ph.D. in Physics - University of Stuttgart, Germany 2024
Investigating quantum emitters for quantum information and networking applications Education: SM Electrical Engineering and Computer Science - MIT 2022 SB Materials Science and Engineering & Physics - MIT 2019