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OT3O - Optoelectronics

Course specification
Course title Optoelectronics
Acronym OT3O
Study programme Electrical Engineering and Computing
Module Telecommunications and Information Technologies
Type of study bachelor academic studies
Lecturer (for classes)
Lecturer/Associate (for practice)
Lecturer/Associate (for OTC)
ESPB 6.0 Status elective
Condition no
The goal 1) Recognizing physical processes which are consequence of light - matter interaction and description of possibilities for their application. 2) Understanding how work some optoelectronic devices. 3) Demonstration of basic optoelectronic processes via experiment and teaching students how to use optoelectronic components and tools.
The outcome It is expected that every student: 1) learns about important role of optoelectronics in future development of society, 2) gains knowledge about basic optical processes and optoelectronic devices and 3) overcomes all difficulties when practically uses optoelectronics devices and tools and should be ready to use them alone.
Contents
Contents of lectures Optoelectronics - words meaning and applications. Ray optics. Abberations. Optical fibers. Wave optics. Polarization, interference and diffraction. Fourier optics. Nonlinear optics - introduction. Light sources: discret - laser, narrowband spectral sources, wideband spectral sources. Detectors. Polymer optoelectronics.
Contents of exercises Lab. tutorial: 1. Characterization of Gaussian light beam - Light beam optics. 2. Determining of He - Ne laser resonator length - Lasers. 3. Optimization of optical receiver input stage - Detectors. 4. Determining of diffraction pinhole and wire radius - Wave optics, CCD. 5. Finding Verde constant for known crystal - Polarization.
Literature
  1. Optoelectronics, P. Matavulj, lecture notes, Faculty of Electrical Engineering, Belgrade, 2007.
  2. Optics, E. Hecht, A. Zajac, Addison-Wesley Publishing Company, 1974. (Original title)
  3. Optoelectronics - An Introduction, J. Wilson, J. Hawkes, Prentice Hall Europe,1998. (Original title)
  4. Electro-Optics Handbook, R. Waynant, M. Ediger, McGraw-Hill Inc., 2000. (Original title)
  5. Semiconducting Polymers, G.Hadziioannou, P.F.van Hutten, Wiley-Vch, 2000. (Original title)
Number of hours per week during the semester/trimester/year
Lectures Exercises OTC Study and Research Other classes
3 1 1
Methods of teaching Lectures, auditory exercises, lab tutorial and homework(s).
Knowledge score (maximum points 100)
Pre obligations Points Final exam Points
Activites during lectures 0 Test paper 30
Practical lessons 40 Oral examination 0
Projects 0
Colloquia 30
Seminars 0