Current Research: Experiential Engineering Education via Innovation and Invention. Focus on the Technical Design, Energy System, and Medical Engineering (MedEng) Design Innovations via Prototyping and Proof of Concept.
Past Research: High-Temperature Superconductors, Two-Dimensional Electron Gas, and Engineering Physics Education.
Theoretical and applied electromagnetics, theoretical and applied optics, scattering theory, wave inverse problems, noniterative inverse scattering, physics-based signal processing and imaging, change detection theory and applications, compressive sensing, electromagnetic information theory, analysis and design of optical and quantum holographic detectors
Devices, circuits and sensing; antenna analysis, modeling, design, and optimization; subsurface scattering analysis; computational methods of electromagnetics; novel radar system specification and design; explosives detection.
Fundamentals of combustion such as burning speed and onset of autoignition measurement and flame stability analysis; development of chemistry reduction such as rate-controlled constrained-equilibrium method; non-equilibrium thermodynamics