Kötelező:

The primary objective is to introduce and discuss the operational principles of commonly applied devices which are based on the light material interaction. 

Learning outcomes and obtained knowledge: General knowledge about the basic physical properties of light and propagation of electromagnetic waves, operation of passive optical components, characteristics of non-coherent light sources, the operation principles and conditions of lasers, discussion f of common types of laser, basic properties of optical materials, operation principles of light sensor and photodetectors. General discussion of photometric and radiometric quantities, characteristics of imaging sensors, operation  principles.

1 General introduction; fundamental physical properties of a light, principle of electromagnetic wave propagation.  

2 Passive and active optical components 

3 Non-coherent light sources I. Thermal and luminescent radiators, Electroluminescent radiators and light emitting diodes, Photodetectors 

4 Introduction into coherent light sources. Operation principles of lasers. Categorization of lasers according to the active medium.

5 Solid state lasers and their applications. operation principle of laser diodes and applications 

6 Physical properties of optical materials. Optical glasses and their properties 

7 Manufacturing of optical crystals and their properties  

8 Optical thin layers, Optical components: modulators, deflectors 

9 Optical components polarizators, filters, non-linear optics 

10 Optical switches, Magnetooptical, acoustooptical devices

11 Polymers and liquid crystals. Liquid crystal devices 

12 Displays 

13 Optical data transmission, optical fibers 

14 CMOS and CCD detectors

Safa O. Kasap , Optoelectronics & Photonics: Principles & Practices, 2nd Edition

M.V. Klein - T.E. Furtak: Optics

B.E.A. Saleh, M.C. Teich: Fundamentals of Photonics