Online Profiles

University of Rochester - 2016

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Graduate

Subject Areas of Research

Subject Areas

  • Acoustics
  • Analog and digital IC design
  • Applied mathematics
  • Artificial intelligence-augmented reality
  • Artificial intelligence-computer vision
  • Artificial intelligence-data mining
  • Artificial intelligence-human computer interaction
  • Artificial intelligence-knowledge acquisition
  • Artificial intelligence-knowledge representation
  • Artificial intelligence-machine learning
  • Artificial intelligence-machine translation
  • Astrophysical fluid dynamics/magnetohydrodynamics
  • Atomic force and electron microscopy
  • BioMass
  • Biochemical and biomedical engineering and application
  • Biomechanics / biotechnology
  • Biomedical imaging
  • Biomedical ultrasound
  • Biomedical, nonlinear, optical and ceramic materials
  • Catalysis
  • Cavitation
  • Cell and tissue engineering
  • Chemical reaction and process dynamics of advanced materials
  • Component technologies in Optics
  • Computational mechanics
  • Computer architecture
  • Contrast Agents
  • Critical phenomena and supercritical extraction
  • Diffraction and theory of partial coherence
  • Electrochemical engineering and fuel cells
  • Electromechanics and systems
  • Electromechanics of granular materials
  • Electronic and optical materials
  • Electronic imaging
  • Electronics and computer systems
  • Fiber-wave optics
  • Fracture, fatigue, and deformation of materials
  • Gas-solid interactions
  • Gradient-index optics
  • Guided-wave optics
  • High temperature superconductors
  • Holography
  • Human vision
  • Imaging
  • Inertial confinement fusion
  • Interfacial and transport processes
  • Josephson devices
  • Laser material interaction
  • Lasers and ultrafast phenomena
  • Lasers, laser physics, laser fusion
  • Lens design
  • Manufacturing
  • Materials characterization
  • Materials chemistry, synthesis, and processing
  • Materials testing
  • Mechanical testing and failure analysis
  • Medical optics
  • Microelectronics processing
  • Microstructure characterization
  • Mixing with chemical reaction
  • Molecular cell and tissue engineering
  • Multidimensional digital signal processing
  • Multiphoton processes
  • Nano-optics
  • Nanoelectronics
  • Nanostructures and microchemical engineering
  • New optical materials
  • Nonlinear optics
  • Nonlinear optics and optical phenomena
  • Optical communications
  • Optical data processing
  • Optical materials
  • Optical properties of solids
  • Optical system design
  • Optical systems
  • Optical waveguides
  • Optoelectronics
  • Optoelectronics and optoelectronic systems
  • Photonics
  • Physical and quantum optics
  • Plasma and laser physics
  • Polymer science and technology
  • Process dynamics
  • Quantum electronics
  • Quantum optics
  • Reaction engineering and complex reaction systems
  • Robotics
  • Signal processing and biomedical imaging
  • Superconducting electronics and thin films
  • Superconductivity and solid state devices
  • Systems-mobile computing
  • Systems-parallel and distributed systems
  • Theoretical foundations in Optics
  • Thin films
  • Ultrafast optical phenomena
  • VLSI systems and logic design
  • X-ray and electron diffraction