Study

Computing

Optoelectronics

  • Class 45
  • Practice 26
  • Independent work 79
Total 150

Course title

Optoelectronics

Lecture type

Elective

Course code

183438

Semester

6

ECTS

5

Lecturers and associates

Course objectives

Wave and particle properties of light; Wave coherence, interferometers; Guided optical waves, optical fibers.
Wave and particle properties of light; Wave coherence, interferometers; Guided optical waves, optical fibers.
Wave and particle properties of light; Wave coherence, interferometers; Guided optical waves, optical fibers.
Properties of semiconductors, quantum mechanics concepts, spontaneous and stimulated emissions.
Properties of semiconductors, quantum mechanics concepts, spontaneous and stimulated emissions.
Direct and indirect semiconductors, heterojunctions.
Semiconductor optical source types, multimode laser diodes, LED and SLED optical sources.
Midterm exam.
Semiconductor optical source types, multimode laser diodes, LED and SLED optical sources.
Semiconductor optical source types, multimode laser diodes, LED and SLED optical sources.
Electro-optic, electroabsorption , acuosto-optic and magneto-optic modulators.
Electro-optic, electroabsorption , acuosto-optic and magneto-optic modulators.
Semiconductor photodetectors; PIN and avalanche photodiode.
Semiconductor photodetectors; PIN and avalanche photodiode.
Final exam.

Required reading

(.), Skripta s predavanja,
(.), 1. B. E. A. Saleh, M. C. Teich, Fundamentals of Photonics,(.), 2. P. Bhattacharya, Semiconductor Optoelectronic Devices.,

Minimal learning outcomes

  • Describe the principle of operation of a system for information transfer using optical fibers
  • Describe the laser working principle and list categories of lasers used in optical communications
  • Describe types of light modulation and the principle of operation of optical modulators
  • Describe operating principle of optical receivers and semiconductor photodetectors
  • Describe the working princple of light propagation in optical fibers
  • Describe the phenomena that degreade the transmission of information in optical communications
  • Describe applications of optoelectronics in communication and sensor systems
SHARE : Facebook Twitter