Research

Tso-Ping Ma
Semiconductor device physics; MOS interfaces; ionizing radiation effects; hot carrier effects; electron tunneling; random telegraph signals and 1/f noise; advanced gate dielectrics; ferroelectric thin films. More

Janet L. Pan
Optoelectronics, novel compound semiconductor materials and devices, optical properties of novel compound semiconductor materials, long-wavelength optical emitters and detectors, physics of quantum well devices. More.

Mark A. Reed
Heterojunction and low dimensional device physics; tunneling; mesoscopic physics; quantum devices; nanotechnology; molecular electronics. Chair of the Department of Electrical Engineering. More.

Jerry M. Woodall
Exploratory compound semi-conductor materials and devices. More.

Jung Han
Photonic and elctronic materials and devices form wide bandgap semiconductors.

Charles H. Ahn
Novel materials; molecular beam epitaxy; physics and technology of ferroelectric films, including nanofabrication and "writing" with atomic force microscopy; control of carrier density in superconductors and semiconductors with ferroelectric gates.

Robert D. Grober
Experimental studies of the optical properties of materials combining traditional optical spectroscopic tools with high spatial resolution optical microscopy; use of single quantum dots and single fluorescent molecules as optical nanoprobes of materials. More.

Daniel E. Prober
Experimental solid state physics and superconductivity; electron localization and quantum transport phenomena; superconducting microwave UV and  x-ray detectors; nanostructure fabrication techniques. More.

Robert J. Schoelkopf
Experimental solid-state physics; quantum-effect devices, nanostructures and mesoscopic physics, single-electron devices and single-charge dynamics; and applications of these for photodedetectors and quantum computation. More.

Robert G. Wheeler
Experimental solid state physics; transport properties in lower-dimensional electron systems at low temperatures and high magnetic fields. More.