Photonics

Lecturer:

Vítězslav Jeřábek, Zdeněk Burian (gar.), Miloš Klíma (gar.), Karel Novotný (gar.)

Tutor:

Vítězslav Jeřábek, Zdeněk Burian (gar.), Miloš Klíma (gar.), Karel Novotný (gar.), Martin Blažek, Karel Fliegel, Pavel Hamouz, Jan Kraček, Jiří Libich, Petr Páta, Václav Prajzler, Jiří Raboch, Martin Randus, Martin Řeřábek, Jan Šístek, Milan Švanda, Stanislav Zvánovec

Supervisor:

Department of Microelectronics

Synopsis:

The main aim of the subject lectures is to explain the principles of operation and application of the modern optical devices and systems. The subject treats the optical waveguides, sources and detector of the optical signals and devices to control optical beam. The optical integrated circuits and measuring methods for optoelectronics are discussed, too. The other part of lectures treats the optical display structures, optical signal processors and circuits for the transmission and processing of the optical signals.

Requirements:

Syllabus of lectures:

1.Photonics - basic characteristics and principles

2.Optical detectors

3.Sources and amplifiers of optical radiation

4.Optical receivers, opto-couplers

5.Function and properties of optical waveguides

6.Optical fibres and planar waveguides

7.Optical sensors

8.Components for distribution and control of optical radiation

9.Integrated optics and optoelectronics

10.Optical transmission system

11.Display structures and imaging systems

12.2D image sensors

13.2D image displays

14.Photonic processors, memories a spec. structures

Syllabus of tutorials:

1. Optical laboratory, safety regulations

2. Design and optimization of sources and transmitters of optical radiation

3. Measurement of sources and transmitters of optical radiation

4. Design and optimization of detectors and receivers of optical radiation

5. Measurement of detectors and receivers of optical radiation

6. Optical waveguides, design, technology

7. Waveguide measurement methods

8. Optical transmission system

9. Transmission system design. Optical reflectometry

10.Image sensors

11.Image display

12.Imaging systems parameters

13.Diffraction of optical radiation

14.Running assessment

Study Objective:

Study materials:

1. Jasprit Singh: Optoelectronics - An Introduction to Materials and Devices, McGraw-Hill, New York, London, 1996

2. Chin-Liu Chen: Elements of Optoelectronics and Fiber Optics, Irwin, Chicago, London, 1996

3. R. Syms, J. Cozens: Optical Guided Waves and Devices, McGraw-Hill, Berkshire, 1992

4. D. Word: Optoelectronic Semiconductor Devices, Prentice Hall, Hertfordshire, 1994

5. J. Wilson, J.F.B. Hawkes: Optoelectronics, Prentice Hall, Hertfordshire, 1989

Note:

Time-table for winter semester 2011/2012:

Time-table is not available yet

Time-table for summer semester 2011/2012:

	06:00–08:0008:00–10:0010:00–12:0012:00–14:0014:00–16:0016:00–18:0018:00–20:0020:00–22:0022:00–24:00
Mon	roomT2:B2-s141k Burian Z. 09:15–10:45 (lecture parallel1) Dejvice Cvičebna
Tue
Fri
Thu	roomT2:B2-s141d Burian Z. 12:45–14:15 (lecture parallel1 parallel nr.101) Dejvice CvičebnaroomT2:B2-s141d Burian Z. Jeřábek V. 14:30–16:00 (lecture parallel1 parallel nr.102) Dejvice Cvičebna roomT2:B2-626 Šístek J. Libich J. 12:45–14:15 (lecture parallel1 parallel nr.105) Dejvice Katedra 317, blok B2roomT2:B2-626 Šístek J. Zvánovec S. 14:30–16:00 (lecture parallel1 parallel nr.106) Dejvice Katedra 317, blok B2 roomT2:B3-554 Páta P. Fliegel K. 12:45–14:15 (lecture parallel1 parallel nr.109) Dejvice Laboratoř K337roomT2:B3-554 Páta P. Fliegel K. 14:30–16:00 (lecture parallel1 parallel nr.110) Dejvice Laboratoř K337
Fri

The course is a part of the following study plans:

• Electronics and Communication Technology - structured studies (compulsory course)