Engineering and numerical analysis, reactor analysis, computer
Advanced space power and propulsion reactor systems, energy
conversion, advanced terrestrial nuclear power reactors, reactor
operations and safety.
Activation analysis, radiation and radioisotope applications,
nuclear spectrometry and instrumentation, plasma kinetics,
fission and fusion systematics.
Assistant Professor of Nuclear Engineering at the University of Florida (Current focus is to build a nuclear detection lab with accompanying research in neutron detection, fission physics and detector system development. Research areas include: neutronics in deuterated environments, Deuterium based recoil detectors, correlated fission neutron investigations.)
Nuclear fuel cycle, radioactive wastes, reactor analysis, engineering application of radioisotopes, robotics, intelligent databases, system analysis.
Reactor safety, power and non-power reactor operations and
systems design and probabilistic safety assessment, criticality
analysis, neutron activation analysis.
Radiation transport simulation using deterministic and Monte Carlo methods,
deterministic transport algorithms and codes development, nuclear multi-group
cross section generation, medical imaging simulation, numerical methods and