Siddharth Ramachandran
Professor Ramachandran and team focus their research around nonlinear, ultrafast and quantum photonics,, fundamentals of light-matter interactions, fibers and guided-wave devices, super-resolution & brain imaging, classical & quantum networks.
Roberto Paiella
Professor Paiella’s research interests include plasmonics, nanophotonics, and metasurface-enhanced optoelectronics, terahertz photonics, and device physics and applications of semiconductor quantum structures and 2D materials.
Theodore Moustakas
Dr. Moustakas’s research interests include growth by MBE and HVPE of nitride semiconductors, III-Nitride optoelectronic devices (LEDs, Lasers, Modulators, Detectors) from deep UV to THz, and amorphous semiconductors
Theodore Morse
Professor Morse’s research interests include growth by MBE and HVPE of nitride semiconductors, III-Nitride optoelectronic devices (LEDs, Lasers, Modulators, Detectors) from deep UV to THz, and amorphous semiconductors.
Jerome Mertz
Dr. Mertz and team work on the development of new microscopy techniques for biomedical imaging in their lab.
Ajay Joshi
Dr. Joshi’s group focuses on developing novel architectures and circuits to design low-power, high-performance, and secure systems. The ICAS group is affiliated with Boston University Photonics Center, Boston University Center for Information & Systems Engineering, and Boston University Hariri Institute for Computing.
Allyn Hubbard
Dr. Hubbard’s research interests include auditory physiology, neurocomputing and biosensors, and VLSI design of smart senor chips.
Luca Dal Negro
Dr. Negro’s research interests include nano-optics and metamaterials, as well as advanced imaging and multifunctional optical devices and the nonlinear and quantum optics of photonic nanostructures. He furthermore studies light scattering and anomalous photon transport in complex media, and the localization and novel wave phenomena in aperiodic structures.
David Bishop
In addition to a focus on low temperature physics, Dr. Bishop has a wide variety of research interests, including the study of cardiac tissue engineering, micro-electromechanical (MEMS) systems and nano-electromechanical systems (NEMS), the Casimir Effect, superconductivity and superfluidity, nanotechnology, and feedforward control theory algorithms.
Irving Bigio
Dr. Bigio’s research considers the development of minimally-invasive, research-oriented, and clinical (both diagnostic and therapeutic) tools based on optical technologies which span the breadth of the human body. His topics of study include optical biopsy, sensors to monitor the response of tumors to specific treatments, real-time imaging feedback systems for tissue profiling and guidance during […]