Research Directory
Areas
- Biological/Biomedical Engineering
- Communications, Infomation Theory, Networking, Networked Systems
- Computer Architecture, Multicore Systems, Integrated Circuits
- Large Area/Flex Electronics for Display/Sensing/Energy Applications
- Mid-Infrared Photonics, Lasers, and Sensors
- Nanoscale Materials/Devices for Sensing and Energy Applications
- Organic Materials and Devices
- Photonic Systems, Non-linear Optics, Quantum Optics
- Physics of Electronic Materials and Nanomaterials
- Quantum Information/Quantum Computing
- Security in Computing and Communications
- Signal Processing, Machine Learning, and Optimization
Biological/Biomedical Engineering
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Stephen Chou |
nanotechnology and nanoscale electronic, optoelectronic, magnetic devices, such as nanoimprint, self-assembly, reactive ion etching, single electron transistors, subwavelength optical elements, patterning of nanoscale organic light emitters and trans |
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Jason W. Fleischer |
nonlinear optics and photonics; soliton dynamics; statistical and condensed-matter physics. |
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Claire Gmachl |
Quantum cascade lasers for analytic spectroscopy, wireless and optical communications applications Microcavity lasers with chaotic resonators; Nonlinear optics in semiconductor heterostructures; Group-III nitride devices. |
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Niraj Jha |
low power hardware/software design, embedded system design, synthesis for nanotechnologies, synthesis of ASIPs, system and high-level synthesis, digital system testing |
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Sun-Yuan Kung |
VLSI signal processing; neural networks; digital signal, image, and video processing; and multimedia information systems. |
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Peter J Ramadge |
fMRI signal processing; video and image processing; machine learning; adaptive signal processing; adaptive control; discrete-event systems, optimization |
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Kaushik Sengupta |
Silicon-based RF, mm-Wave and THz Circuits and Systems; Onchip Active Electromagnetic Field Synthesis and Control for Sensing and Actuation; Self-Healing and Reconfigurable Integrated Circuits and Systems in Silicon; Theoretical Understanding of F |
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James Sturm |
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. |
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Naveen Verma |
Ultra-low-power integrated circuits including analog instrumentation, data-conversion, and low-voltage digital logic and SRAM; sensing, processing, computing, and communication platforms for biomedical applications. |
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Sigurd Wagner |
large-area electronics, active electronic skin, e-textiles; amorphous and microcrystalline silicon on flexible foil substrates; printing of active electronics; microfluidic chips. |
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Gerard Wysocki |
Laser spectroscopy, broadly tunable laser systems, external cavity quantum cascade lasers, spectroscopic systems for remote and/or in-situ chemical sensing and spectroscopic trace-gas sensor networks. |
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