Research in the physics department focuses on student involvement during every step of scientific process. Students collect and analyze their own data, communicate their work in writing, and present their results at conferences and workshops. Many students publish their work in peer reviewed journals. Opportunities for student research in the department are numerous, with a wide ranging expertise of the faculty. Please contact the faculty member below if you are interested in exploring research opportunities.

Computational: Starburst galaxies, active galactic nuclei, supernova remnants, star forming regions; (Chris Richardson)
Observational: galaxy morphologies, emission line galaxies, gamma ray bursts (Tony Crider)

Biomimetics, magnetic microspheres, magnetic hyperthermia and targeted drug delivery (Ben Evans); Response of cells to electromagnetic and acoustic energy (Christopher Arena)

Theoretical Physics:
Quantum theory and quantum fields in curved space (Martin Kamela); Non-linear dynamics (chaos), statistical physics, and emergence (Pranab Das)

Material Science:
Magnetic materials, thin film deposition and ultrahigh vacuum (Kyle Altmann)

Catalytic chemical processes (Sirena Hargrove-Leak); Improving airport security scanners, using controllers to run drones (Scott Wolter); Cancer therapies using pulsed electric field (Christopher Arena)

Physics and Engineering Education:
Innovations in classroom and course design (Tony Crider, Kyle Altmann); Developing educational activities (Sirena Hargrove-Leak, Martin Kamela); Understanding youth culture as it pertains to science and engineering college education (Sirena Hargrove-Leak); Gender differences in introductory physics courses (Chris Richardson)

Interdisciplinary Studies:
Solar energy (Scott Wolter); Exploring links between Science, Religion, and Society (Pranab Das, Tony Crider,  Martin Kamela); Communicating science to the public (Claudine Moreau, Tony Crider, Pranab Das); Science Fiction Writing (Claudine Moreau)