Full Time Faculty
Theoretical High Energy Physics
High Energy Astrophysics; Compact Objects; Supernova Remnants.
String theory, Mathematical phyics
My research has focused on employing insight provided by string theory to enhance our understanding both in physics and mathematics, in addition to developing new techniques within string theory to perform computations. I have been using holography, topological string theory and resurgent analysis to study non-perturbative effects.
Theoretical High Energy Physics, Mathematical Physics
Experimental Nuclear Physics; High Energy Physics; Medical Physics
Atomic and Molecular Physics; Solid State Physics
Mathematical Physics,Biological Physics,Medical Physics
Mathematical Physics, General Relativity (Black Holes & Cosmology)
Mathematical physics, supersymmetry, integrability
Mathematical Physics, High Energy Theory.
Medical and Biological Physics,Photoacoustic tomography,Diffuse optical tomography,Propagation of electromagnetic and acoustic waves in biological tissue,Inverse problems in medical physics,Acoustic and optical instrumentation for cancer imaging,Mathematical Oncology
Experimental Solid State
Physics of nano-particles, time-resolved imaging and spectroscopy of nano-particles, investigation of physical and optical properties of nano-particle-doped polymers and their sensor applications, fiber optics, optical sensors, photonic crystals, optical metrology, quantum information, quantum cryptography
Observational X-Ray Astronomy,X-ray sources in binary systems,Galactic bulge sources,Cluster X-ray sources,Bursters,Cataclysmic Variables,X-ray Observations of low-mass X-ray Binaries with Various Satellites
Mathematical Physics,Quantum Field Theory and its Mathematical aspects,Gauge theory,Large-N limit of Quantum Field Theory Models,Geometric Quantization and Symnplectic Geometr
Experimental Condensed Matter Physics; Nanomagnetism and Spin Electronics, Nanoscale memory structures
Theoretical High Energy Physics; Cosmology, Statistical Mechanics
Experimental particle physics
In particular my research has covered precision measurements and discovery analyses at large colliders (BaBar, ATLAS), high-speed particle tracking in busy environments, various table-top accelerators and inexpensive particle detectors.
Experimental Solid State Physics; Instructor in Introductory Laboratories
Part Time Faculty
Experimental Solid State PhysicsElectrical and optical characterization of amorphous and chalcogenide thin films.
Theoretical Nuclear Physics; General principles of Physics; Physics as culture
Adjunct and Emeritus Faculty
Nuclear Physics, Musical Acoustics
Group Theory; Electrodynamics
Particle Algebras and Quantum Groups,ATLAS and CAST experiments,Cosmology
Solid State Physics
Physical electronics,Photonics,Electrical transport in amorphous materials, glasses, and polymers