Phelma Formation 2022

Fonctions O/E & optomicroondes & interface O/E

  • Number of hours

    • Lectures 18.0
    • Tutorials 6.0

    ECTS

    ECTS 2.0

Goal(s)

Knowledge in optoectronics for fast modulation of the light emitted by laser diodes. Good aptitude to evaluate performances in the electrical and optical domain of fiber systems including fast optical sources, modulators and detectors.
Having also kwowledge on optical control of microwave devices.


Contact Beatrice CABON

Content(s)

1- Optoelectronic link

  • Direct modulation of a laser diode
  • External modulation
  • Rapid photodetectors
  • Optoelectronic link gain

2. Microwave-photonic signal processing

  • Optical filtering
  • Optical frequency conversion

3. Optical control of microwave devices

  • passive devices, photoswitch and photo-induced phase shifting
  • active devices, HBT.


Prerequisites

Basics on microwave and optics

Test

Exam, 2 hours



Note unique d'examen.

Additional Information

Course list
Curriculum->SEI->Semester 5

Bibliography


[1] I. et M. Joindot, 'Les télécommunications par fibre optique', Collection Technique et Scientifique des Télécommunications, Editions Dunod 1996.
Ref. bibliothèque PHELMA E03-JOI
[2] Govind P.Agrawal : 'Fiber-Optic Communication Systems', A Wiley Interscience Publication, Wiley series in Microwave and Optical Engineering, John Wiley & Sons Inc., 2nd edition, New York, 1997
Ref. bibliothèque PHELMA E03-JOI I07-AGR
[3] OMW, proceedings of the 1st, 2nd, and 3rd International summer-school (3 proceedings)
Ref. bibliothèque PHELMA Q09 OMW
[4] A. Vilcot, B. Cabon, J. Chazelas, ‘Microwave Photonics, From Component to Applications and Systems’, Kluwer Academic Publishers, Boston, 2003, ISBN 1-4020-7362-3
[5] C. Rumelhard, C. Algani, A.L. Billabert, ‘Microwave Photonics Links’ Components and Circuits, John Wiley & Sons, 2011, ISBN 978-1-84821-226-8