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CZECH TECHNICAL UNIVERSITY IN PRAGUE
STUDY PLANS
2019/2020

Integrated Optics

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Code Completion Credits Range Language
XP34CNO ZK 4 2P+2C Czech
Lecturer:
Jiří Čtyroký (guarantor), Vítězslav Jeřábek (guarantor)
Tutor:
Jiří Čtyroký (guarantor), Vítězslav Jeřábek (guarantor)
Supervisor:
Department of Microelectronics
Synopsis:

Theoretical and technological principles of IO Basic materials for IO. Light propagation in waveguide structures. Methods of waveguide structure design. Prismatic and graticule coupling elements. Graticule structures. Modal spectroscopy. Fundamental physical effects and interactions for IO. Preparation of dielectric waveguides and structures. Passive waveguide structures. Electro-optical modulators. Applicable measurement methods. Devices based on nonlinear effects. Semiconductor integrated opto-electronic structures.

Requirements:

c

Syllabus of lectures:

1. Theoretical and technological principles of IO

2. Basic materials for IO

3. Light propagation in waveguide structures

4. Methods of waveguide structure design

5. Prismatic and graticule coupling elements

6. Graticule structures

7. Modal spectroscopy

8. Fundamental physical effects and interactions for IO

9. Preparation of dielectric waveguides and structures

10. Passive waveguide structures

11. Electro-optical modulators

12. Applicable measurement methods

13. Devices based on nonlinear effects

14. Semiconductor integrated opto-electronic structures

Syllabus of tutorials:

1. Measurement of the optical planar waveguides and the planar power dividers.

2. Measurement of the optical planar wavelength selective dividers and nonlinear elements

3. Measurement of the spectral and dynamic properties of detectors and the planar receivers.

4. Measurement of the spectral properties of the optical planar active nonlinear waveguide.

5. Measurement of the optical waveguide properties by elipsometry method.

6. Measurement of the optical active planar nonlinear waveguides by the supercontinuum source.

7. Measurement of the optical sensors, Raman sensors, credit.

Study Objective:
Study materials:

1. B.E.A. Saleh, M.C Teich: Fundamentals of Photonics , J.Wiley and Sons, Inc., New York, 1991

2. R.G. Hunsperger: Integrated Optics: Theory and Technology, Springer-Verlag, 2002

3. D.Wood: Optoelectronic Semiconductor Device, Prentice Hall, N.Y., London, 1994

4. H.Nishihara, M.Haruna: Optical Integrated Circuits, McGraw-Hill, New York, 1987

5. Ch.L. Chen: Elements of Optoelectronics&Fiber Optics, IRWIN, 1996

6. M.J. Adams: An Introduction to Optical Waveguides, JohnWiley&Sons Ltd., Toronto, 1981

7. E. Seckinger: Broadband Circuits for Optical Fiber Communication, JohnWiley&Sons Ltd., New Jersey, 2005

8. G. P. Agrawal: Lightwave Technology, JohnWiley&Sons Ltd., New Jersey, 2005

9. On the recommendation of the lecturer

Note:
Further information:
https://moodle.fel.cvut.cz/course/view.php?id=3727
Time-table for winter semester 2019/2020:
Time-table is not available yet
Time-table for summer semester 2019/2020:
Time-table is not available yet
The course is a part of the following study plans:
Data valid to 2020-08-05
For updated information see http://bilakniha.cvut.cz/en/predmet11432904.html