Počet kreditů 6
Vyučováno v Winter
Rozsah výuky 2+2c
Garant předmětu
Přednášející
Cvičící

The main aim of the subject is to introduce principals of the optical system theory. The subject includes theoretical background of optics, practical skills for design of optical systems with utilization of professional software. Moreover it incorporates electron optics, matrix optics, Gaussian beams, transition through optical components, absorption and dispersion, optical transmitter and receiver, detection, fundamental technology and measurement of optical waveguides.

An active attendance of tutorials together with 3 elaborated semester projects have to be fulfilled to reach an ungraded assessment.

https://moodle.fel.cvut.cz/

The main aim of the subject is to introduce principals of the optical system theory.

1. Principal elements of optical and sub-millimeter communication systems

2. Wave optics, matrix optics, transition matrixes of particular components

3. Principles of geometrical and wave optics, beam propagation in inhomogeneous material

4. Analysis of optical signal propagation in optical fiber based on geometrical optics and solving of wave equation - mode structure

5. Gaussian beams, transition through optical components

6. Absorption and dispersion, propagation of pulses in dispersive environment

7. Transition properties of optical fibers

8. Optical transmitter and receiver

9. Direct and coherent detection, noises in optical systems

10. Design of optical and sub-millimeter communication system

11. Free Space Optics (FSO)

12. Special optical fibers, fibers for optical sensors, optical sensor systems

13. Optical fiber fabrication, measurement

14. Professional software for optical system analyzing

1. Recapitulation of essential knowledge from optics and electromagnetic field

2. Propagation of optical waves in homogenous and non-homogenous environment

3. Solving of planar waveguides by geometrical optics methods

4. Solving of planar waveguides by wave optics methods

5. The first project: Homogenous planar waveguide, assignment, solving

6. Examples of non-homogenous planar waveguide solving

7. Enumeration of basic parameters of optical fibers SI and GRIN

8. Dispersion of fiber waveguides, solution of particular examples

9. The second project: Design of optical link with en emphasis on attenuation and dispersion 10. Special software demonstration - Beam Propagation method, ray tracing method

11. Transition matrixes of fibers, couplers etc.

12. Gaussian beams - divergence

13. The third project: Transition of Gaussian beam through optical components

14. Design of sub-millimeter communication link

[1] Agrawal G. P.: Fiber-Optic Communications Systems, Third Edition., John Wiley & Sons, 2002.

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