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Optoelectronics, Photonics and Telecoms Group Lab-STICC, UMR CNRS 6285 – Pole MOM

Optoelectronics, Photonics and Telecoms Group Lab-STICC, UMR CNRS 6285 – Pole MOM (Lab-STICC : Laboratory for Knowledge, Communication, and Information Science and Technology) (MOM : Microwave, Optoelectronics, and Materials). Contact ENIB: Ammar Sharaiha, sharaiha@enib.fr.

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Optoelectronics, Photonics and Telecoms Group Lab-STICC, UMR CNRS 6285 – Pole MOM

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  1. Optoelectronics, Photonics and Telecoms Group Lab-STICC, UMR CNRS 6285 – Pole MOM (Lab-STICC : Laboratory for Knowledge, Communication, and Information Science and Technology) (MOM : Microwave, Optoelectronics, and Materials) Contact ENIB: Ammar Sharaiha, sharaiha@enib.fr

  2. ENIB : Graduate School for Engineering Sciences in Electronics, Computer Sciences and Mecatronics • 700 students, 20 Phd students • 100 people • Two research Laboratories : • Lab-STICC : Two research teams from ENIB associated to either Lab-STICC Pole MOM (Telecoms, Optoelectronics and Photonics) or Lab-STICC Pole CID (Virtual Reality, Image Processing) • LBMS : research activities in shape memory alloys and adaptif Systems ENIB

  3. 3 Graduate Schools for Engineering Sciences (ENIB, Télécom Bretagne, ENSTA Bretagne) & 2 Universities (UBO, UBS) • 450 people (faculty, staff and graduate students) • 3 research poles : • MOM (Microwave, Optoelectronics, and Materials) CACS (Communication, Algorithms, Circuits and Systems) CID (Knowledge, Information, and Decision) Lab-STICC

  4. Lab-STICC: geographic situation ENIB Télécom-Bretagne ENSTA -Bretagne UBO UBO UBS

  5. Optoelectronics, Photonics and Telecoms Group in ENIB Optoelectronics, Photonics and Telecoms Group ENIB Staff in Lab-STICC Pole MOM

  6. Research Axis I. Optoelectronics and Photonics for Telecommunications (OPTEL) II. Photonics and Optical Transmission for Sensor Applications (PHOTCAP)

  7. Topics • Functions and systems based on semiconductor optical amplifiers • Functions and systems based on acousto- optic interactions • Structural properties of components • Power over fiber • Sea floor observatory OPTEL <-> Images and Networks Center PHOTCAP <-> Brittany Maritime Cluster

  8. OPTEL : Functions and systems based on semiconductor optical amplifiers (1/3) • Modelling • Large optical bandwidth SOA • Amplification of advanced modulation formats, CO-OFDM • Up & down mixing (all-optical, electro-optical) • Direct modulation using OFDM

  9. OPTEL : Functions and systems based on acousto-optic interactions (2/3) • Characterization of acousto-optic cells • Development of RF command • 2x2 switches • Wideband deflectors • Tunable filters

  10. OPTEL : Structural properties of components (3/3) • Analytical and numerical modelling of photonic structures • Magneto-photonic crystals, nonlinear photonic crystals • Modelling of interfacial stress in photonic crystals • Modeling of photopolymer-based DFB lasers,…

  11. PHOTCAP : Power over Fiber (1/2) • Power transmission over fiber to supply energy to sensors for sea-floor observatories • Modelling and characterizations of the Raman effect • Simultaneous transmission in co & contra directions of data and CW power

  12. PHOTCAP : Optoelectronic interfaces design with sensor (2/2) • Definition and implementation of communication protocols, modulation formats… • Design of digital and optoelectronic circuits with low power consumption

  13. Partners • ACADEMIC AND INDUSTRIAL PARTNERS IN FRANCE: • UBO, Télécom Bretagne, ENSSAT, Ifremer • Thales, Alcatel-Lucent Bell Labs, Orange Lab, III-V Lab,… • INTERNATIONAL PARTNERS: • University College London (UK) • University of Algarve (Portugal) • University of Limerick (Ireland) • AUL (Lebanon) • University of Tichrine (Syria) • Polytechnic University of Hong Kong (China) • Radboud University (Nijmegen, The Netherlands) • National Academy of Sciences (Donetsk, Ukraine) • COPL – Université Laval (Québec, Canada) • Hanyang University (Seoul, Korea),…

  14. Equipment 100 Gb/s advanced formats modulation transmitter and PDM coherent receiver platform High bit rate Radio over Fiber platform (RoF) at 60 GHz Power over Fiber platform Static and dynamic optical characterization platform Optical characterization: Optical array analysis, tunable laser sources (1460 nm - 1650 nm), ray scanner, programmable attenuators, programmable optical filters, EDFA optical amplifiers, 200 mW pump lasers, 20 mW lasers covering the 1510 nm – 1590 nm band System characterization: Optical modulation analyzer (100 Gb/s applications),error bit rate analysis (2.5 Gb/s and 12.5 Gb/s), signal and pseudo-random signal generators (1, 3, 4 & 20 GHz), rapid photodiodes (12 GHz and 32 GHz), rapid oscilloscopes (28 GHz), optical modulators (12 GHz), spectrum analyzer (26.5 Ghz, 60 GHz) and network analyzers (6 GHz) (electric), broadband electrical amplifiers, I and Q signal generators, vector signal analyzer (optical and RF), arbitrary waveform generator (AWG, 4 Gsa/s) Specific optical components: SOAs, Reflective SOA, acousto-optical cells, photodetectors (12 GHz, 20 GHz and 70 GHZ), modulators (I&Q @ 40GHz, MZI @ 10 & 40 GHz, EAM @ 60 GHz) Computational methods and softwares: ADS (Agilent Technologies), OptiSystem, VPIphotonics, Matlab, Mathematica, Labview, Visilog, Langages C, C++,...

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