The Department of Electrical Engineering

condensed-matter theory; in particular, disordered and correlated electronic systems, doped semiconductors, diluted magnetic semiconductors, metal-insulator transitions, quantum Hall effect, spin glasses, and random magnets.

information theory; encryption (theoretical limits); log-optimal portfolio theory; statistical physics

low power hardware/software design, embedded system design, synthesis for nanotechnologies, synthesis of ASIPs, system and high-level synthesis, digital system testing

optical processes in semiconductors, ultrafast processes and nonequilibrium transport, semiconductor nanostructures, quantum computing.

Semiconductor nanostructures, quantum control, quantum transport

physics and technology of semiconductor devices for both microelectronics and large-area electronics: silicon-based heterostructures and three-dimensional integration, organic semiconductors, flat panel and flexible displays.

Nonlinear/Quantum optics in complex media, Nano-photonics, Condensed matter physics, Semiconductor optics, Strongly correlated quantum optical systems, Quantum/wave chaos, Numerical methods for simulating active and passive photonic structures.