Faculty
John R. Bowler
Electromagnetic Nondestructive Evaluation
Professor Bowler has research interests in computational electromagnetism, electromagnetic nondestructive evaluation (NDE) and in the electrical properties of conducting composites. His research activities are based at the Center for Nondestructive Evaluation.
Nicola Bowler
Electromagnetic Properties of Materials and NDE
Nicola’s research activity is focused on the electromagnetic properties and behaviour of materials. Work ranges from the development of new electromagnetic non-destructive methods for the measurement of material properties, to development of novel composite materials for electromagnetic applications such as radiation absorption or magnetostrictive actuation. Activity is presently directed towards determining, quickly and non-destructively, the depth of case-hardening in steel parts – a problem of great importance in vehicle manufacturing. Another investigation is developing novel multi-layered filler particles to form microwave-absorbing composites.
Brian Hornbuckle
Microwave Remote Sensing
Our
long-term goal is to develop models that allow the use
of satellite microwave remote sensing to map the water
content of soil and vegetation on both local and global
scales. In order to accomplish this goal, we need to
understand how changes in soil and vegetation moisture
affect the microwave radiation emitted by the land
surface. There are two main types of activities in our
research: field experiments during which data are
collected; and integration of these measurements with
models of microwave emission and models of energy and
moisture transport among the soil, vegetation, and
atmosphere.
Mani Mina
High Speed Measurement
Electromagnetic aspects of high speed electronics and networking (EMI, EMC, etc.)
Applied Electromagnetism
Physical layers of Optical and Wireless Networks Please see DCNL (dependable computing and networking Laboratory)
Optical communication and networking
Teaching Technology From Freshman engineering to graduate level, issues and concerns.
Jiming Song
Computational Electromagnetics
Fast and efficient algorithms in computational electromagnetics, modeling of VLSI interconnects on silicon and signal integrity, large-scale and parallel computation, inverse scattering and nondestructive evaluation, electromagnetic wave propagation and scattering, antenna analysis and design.
Electromagnetics, microwave circuits and systems, MEMS, electro optics.