Engineering Physics
Engineering Physics is the ideal program for those who strive to invent new devices, advance science, and pursue careers at the leading edge of high-technology, both locally and internationally.
Explore our Programs in Engineering Physics
Faculty Members in Engineering Physics
| Name | Research Interests |
|---|---|
| Berciu, Mona | Electronic and magnetic properties of condensed matter and supraconductivity; Physical sciences; condensed matter theory; polarons, bipolarons; strongly correlated systems |
| Boley, Aaron | Astronomy and Astrophysics; Planet formation, protoplanetary disk evolution, formation of meteorite parent bodies |
| Bryman, Douglas | Particle physics, experimental; Experimental Particle Physics; Applied physics; physics |
| Burke, Sarah | Scanning probe microscopy, organic materials, nanoscale materials, surface physics, photovoltaics |
| Choptuik, Matthew | Theoretical physics, Relativity/Computational Physics |
| Damascelli, Andrea | Electronic and magnetic properties of condensed matter and supraconductivity; Electronic Structure of Quantum Materials |
| Folk, Joshua | Physical sciences; 2D materials and Vanderwaals heterostructures; Quantum electronics; Thermodynamics of quantum systems; Strongly correlated phenomena; Topological phenomena; Quantum transport |
| Franz, Marcel | Condensed matter theory |
| Gay, Colin | Experimental subatomic physics, Beyond Standard Model physics, Extra dimensions |
| Gladman, Brett | Astronomy, Planetary Science, meteorites, astrobiology, Solar system formation and evolution |
| Halpern, Mark | Cosmology, Cosmic background radiation, history of star formation, measuring the geometry and contents of the Universe, satellites, balloon-borne telescopes, the physics of music, Physics of music, Cosmic Microwave Background, Physical Cosmology, Star formation history |
| Hasinoff, Michael | Low-energy particle physics |
| Hearty, Christopher | Particle physics, experimental; Experimental Particle Physics; e+e- collider; Physics beyond the Standard Model; Dark sector; dark matter |
| Heyl, Jeremy | Astronomical and space sciences; Physical sciences; Astrophysics; Black Holes; Neutron Stars; quantum phenomena; Quantum-Field Theory; Stellar; Stellar Physics |
| Hickson, Paul | cosmology, galaxies, telescopes, adaptive optics., Astronomy, astrophysics, Galaxies, clusters, instrumentation, adaptive optics |
| Hinshaw, Gary | cosmology, cosmic background radiation, Cosmology, Measuring diffuse background radiations |
| Jones, David | Atomic, optical and molecular physics,Ultrafast Optics, Spectroscopy |
| Karczmarek, Joanna | Particle physics theory (including aspects of field theory and string theory); Physical sciences; Emergent spacetime and gravity; Matrix models; Noncommutative geometry; String theory |
| Lister, Alison | Particle physics, experimental; Large Hadron Collier (LHC); ATLAS experiment; Search for physics beyond the standard model; top quarks; dark matter; Machine Learning; Long-lived particles |
| Madison, Kirk | Atomic, molecular, and optical physics; Quantum sensors; Quantum Gases; Laser cooling; Bose-Einstein Condesation; Fermi-Degenerate Gases; Quantum optics; Laser physics |
| Marziali, Andre | Teaching methods, pedagogy, Robotics in education, Nanotechnology, Engineering Physics, Genomics, Biophysics, Genomics Technologies |
| Mattison, Thomas | Subatomic physics, Particle & Nuclear Physics, Applied Physics |
| McKenna, Janis | Physical sciences |
| Michal, Carl | Soft condensed matter; Development and applications of spectroscopic and structural techniques; Solid-state NMR; NMR and MRI of brain tissue; NMR methods and instrumentation; Biological and functional materials |
| Milner, Valery | Atomic, Molecular and Optical Physics; Ultrafast Quantum Coherent Control; Ultrafast Spectroscopy |