Computer Science, Electrical Engineering, Physics
Northwestern University
“Superluminal ring lasers for rotation sensing, accelerometry, vibrometry and gravitational wave detection; White light cavity based on fast light for data buffering and gravitational wave detection; Low light level optical switching with nano-fibers; Quantum communication and quantum computing with atomic ensembles; Analog and digital holographic high speed recognition of images and video clips in scale, rotation and shift invariant manner; Polarimetric imaging using high speed atomic polarizer and waveplate; Collective state atomic interferometry and collective state atomic clock; Chip scale vapor atomic clock and compact cold atom Raman clock; Nanolithography using BEC; High-speed; High-speed optical modulation using buffer-gas loaded atomic vapor; Graphene based electronics; Plasmonics enhanced novel light sources.”