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Photonics Micro-Systems

What Will Learn?

  • Course Aims
    1. To build the student background and basic knowledge in the fields of micro photonic systems. 2. To improve the student skills in defining, analyzing, and solving problems related to micro photonic systems. 3. To develop the student skills in the design of micro photonic systems
  • Course Goals
  • Quality Education
  • Industry, Innovation and Infrastructure

Requirements

ECE242

Description

  • English Description

    Symmetric and asymmetric single mode dielectric waveguide, 2D waveguide and the effective index method, propagation in Multimode guide, the Multimode interference MMI structures, Integrated optics IO splitters and directional couplers, IO filters and multiplexers, MEMS technology, Micro-mirrors and micro-lenses, Optical MEMS switches, Fibre lens, Variable optical attenuators, Multilayer filter design, Tuneable MEMS filters.
  • Arabic Description

    Symmetric and asymmetric single mode dielectric waveguide, 2D waveguide and the effective index method, propagation in Multimode guide, the Multimode interference MMI structures, Integrated optics IO splitters and directional couplers, IO filters and multiplexers, MEMS technology, Micro-mirrors and micro-lenses, Optical MEMS switches, Fibre lens, Variable optical attenuators, Multilayer filter design, Tuneable MEMS filters.
  • Department
    Electronics and Communications Engineering
  • Credit Hours
    3
  • Grades
    Total ( 100 ) = Midterm (20) + tr.Major Assessment (35 = tr.Industry 0% , tr.Project 10% , tr.Self_learning 10% , tr.Seminar 20% ) + tr.Minor Assessment (5) + Exam Grade (40)
  • Hours
    Lecture Hours: 3, Tutorial Hours: 1, Lab Hours: 0
  • Required SWL
    125
  • Equivalent ECTS
    5
  • Solgaard Photonic microsystems: Micro and nanotechnology applied to optical devices and systems. Springer Science & Business Media; 2009 Apr 5.
  • Kaajakari V. Practical MEMS: Analysis and design of microsystems, MEMS sensors, electronics, actuators, RF mems, optical mems, and microfluidic systems. Small Gear Publishing. 2009.
  • Garmire E, Hammer JM, Kogelnik H, Zernike F. Integrated optics. Springer Science & Business Media; 2013 Dec 14.
  • Reed GT, Knights AP. Silicon photonics: an introduction. John Wiley & Sons; 2004 Oct 29.