About
High speed semiconductor devices (photodetectors and transistors); optoelectronics; nanoelectronics; plasma electronics; and nanophotonics.
His interest in interaction of light and semiconductors in small dimensions has led to the development of nano-structures that absorb and emit light with orders of magnitude more efficiency compared to their bulk counterparts.
- Materials with free electrons and high conductivity and low loss like metals and Graphene have been shown to be a suitable plasma for optical cavities.
- Relaxation time and plasma frequency of the plasmonic materials are the important factors for choosing the medium.
- Relatively dense 2D electron gas is yet to be shown in here to be a promising material for plasmonically modified cavities.
- Confined electron gas offers a mature system of extremely high mobility electrons, especially at low temperatures.
- In hexagonal CSNWs, this results in 6 sheets of 2D charge and 6 pillars of 1D charge.
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Organizational Affiliations
Past Affiliations
Education
Electrical Engineering
BSEE, Purdue University System (United States, West Lafayette)
Electrical Engineering
MSEE, University of Washington (United States, Seattle) - UW
Electrical Engineering
PhD, University of Washington (United States, Seattle) - UW