Mohamed M. Hafez
Transonic aerodynamics, computational fluid dynamics.
Stephen B. Haley
Visualization, geometric design and modeling, and computer graphics. Data analysis, image processing, and data approximation are additional research areas he is pursuing.
Interplanetary Medium, Comets and Kuiper Belt Objects, Diffuse Planet and Satellite Atmospheres, Space Flight Instrument Design and Development.
Pavement engineering, including materials, construction, design, management, life cycle cost and environmental life cycle assessment.
Nano-to-microscale quantitative biophysics and bioengineering. Single-molecule interactions.
Jonathan P. Heritage
Water resources planning and management under uncertainty, multi-objective optimization and decision support, system dynamics simulation of coupled human-environmental systems, sensitivity analysis of model assumptions.
Ronald A. Hess
Aircraft dynamics, stability and control, vehicle handling qualities, automatic control, man-machine systems; flight simulation.
Molecular-Scale Systems: Understanding the electrical, mechanical, and magnetic properties of single molecule devices; creating single-molecule devices and circuits; understanding and controlling energy conversion in molecular systems; and biological diagnostics requiring a single molecule.
Michael R. Hill
Fatigue and fracture: effects of constraint, residual stress, and material processing. Finite element method. Experimental mechanics and residual stress determination. Mechanical design. Structural reliability and probabilistic design. Micromechanical systems.
David A. Horsley
Micro-electromechanical Systems (MEMS), design and manufacturing of microfabricated sensors and actuators, mechatronics and control systems.
Charles E. Hunt
Solid-State electronic and luminescent materials and devices. Energy-efficient light sources. Field-emission cathode materials and vacuum-nanoelectronic devices.
Paul J. Hurst
Analog and mixed-signal integrated circuit design for analog-digital interfaces and digital communications using CMOS technologies.
Tokamak physics, electromagnetic interaction between plasma waves and plasma particles, plasma diagnostic in fusion devices, tokamak fueling with accelerated compact toroids, non-neutral plasmas. Theoretical interests include computer modeling of magnetized plasmas, non-linear interaction of plasma waves