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Course Content

  • Physics fundamentals
              -  Electromagnetic wave physics and optics, Maxwell and Fresenel equations,  ... ...
              -  Quantum mechanics and semiconductors physics , Einstein relations, ... ...
              -  p-n junctions, the basic building block , ... ...
  • Electron–photon processes
              -  Carrier radiative recombination and light-emitting-devices (LED)
              -  Stimulated processes, lasing mechanism and modes
              -  Semiconductor lasers
  • Photon–electron processes
              -  Photoconductivity and detectors 
              -  Imaging sensors 
              -  Photovoltaic effect and solar cells
  • Photon–photon processes and integration
              -  Electromagnetic wave propagation, waveguide, and fiber optics
              -  Light polarization and modulation
              -  Optical systems for communication
              -  Photonic lattice and other low-dimensional materials for optoelectronic applications
  • Complement technologies and future outlook
              -  Organic and molecular optoelectronics
              -  Terahertz photonics 
              -  Display technology
              -  Impact from nanotechnology - new think, materials, and other perspectives

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Responsible for this page: Wei-Xin Ni
Last updated: 03/09/17