WP-L Joint and Virtual Laboratories Final Review Meeting Brussels, 22 April 2008

1. WP-L Joint and Virtual LaboratoriesFinal Review MeetingBrussels, 22 April 2008 Alwyn Seeds University College London

2. WP-L Joint Experiments • Scope: Creation of links between the laboratories of the partners, enhancing research by sharing capabilities. • WP-L Leader: A. J. Seeds (UCL) • Advisory Board: Antonio Teixeira, University of Aveiro (Portugal) Valter Ferrero, Polytechnic of Torino (Italy) Francesco Matera, Fondazione Ugo Bordoni (Italy) Kyriakos Vlachos, University of Patras (Greece) Dieter Jaeger, University of Duisburg-Essen (Germany) • 15 Partners involved in experiments: ACREO, AIT, DTU-COM, FT, ISCOM, IT, NTUA, ORC, PoliMi, RACTI, TU/e, UCL, UDE, UPC, UPVLC

3. WP-L Objectives • Updating of catalogue/checklist of equipment and facilities- Completed • Definition of rules for joint experiments and resource sharing between participating partners- Completed • Definition of a joint experiments plan among the participating partners- Completed • Carrying out a number of joint experiments- Completed • Reporting the results of those joint experiments- Completed

4. Scientific and Technical Impact • The availability of experimental facilities from other partners enabled participants to carry out experiments not otherwise possible for them. • The training of many researchers was enhanced by participation in joint experiments. • Joint Publications, including many in high impact journals and conferences, resulted from the Joint Experiments.

5. WP-L Commitments • N° joint experiments (>10 in two years) 12 have been funded • N° joint papers (>10 in two years) Awaiting completion of submissions • N° mobility actions (>10 in two years) > 12 achieved

6. WP-L Role and contribution of partners • UCL Co-ordinates the Work-Package. • 15 Partners committed to WP-L so far. • 15 Partners participating in joint experiments. • Partners from 10 member Countries participate in WP-L joint experiments.

7. Existing lab structures definition • Objective • Allow partners to become familiar with facilities available for use within the NoE. • To provide impetus for Joint Experiments, or other collaborative activities. • Methodology • Inputs requested from partners with a declared interest in WP-L. • Data collated. • Set of Web pages, browsable by equipment type or by partner, created and published. • Ongoing • Web pages updated as required by the involved partners to form tool for use in Integrated Laboratories programme of e-Photon/ONe+

8. WP-L Phase 1 Joint Experiments Design and Development of a High-speed, Semiconductor Fibre Laser RACTI: Eu 3,000, AIT: Eu 3,000 Incorporating a Performance Monitoring Technology in Wavelength Converted All-optical Networks at 40 Gb/s and above UPVLC Eu 2,000, DTU-COM Eu 2,450 Application of bi-directional EDWA in Access Network PoliMi: Eu 3,000, UPC: Eu 3,000 Investigation of Photonic Crystal Fibre Non-linearities and Optical Properties IT: Eu 3,000, ISCOM: Eu 2,500, PoliMi: Eu 500 Ultra-fast Photodiode Evaluation UDE: Eu 3,000, UCL: Eu 3,000

9. WP-L Phase 2 Joint Experiments SQRT Circuit integration IT: Eu 6000, UPC: Eu 2000 Ultrafast Characterisation of Semiconductor Optical Amplifiers UPVLC: Eu 1500, ORC: Eu 700 All-optical High Speed Wavelength Converter Based on XPM in HNLF DTU: Eu 1,500, UPVLC: Eu 5,600, TU/e: Eu 0 Analysis of the Robustness of Modulation Formats and Amplification Schemes and Impact on System Performance and Engineering ACREO Eu 4,000, FT Eu 2,000 BER Perfomance Evaluation of OCG-OA for Burst Traffic PoliMi: 5,740, ISCOM: 1,120, IT: Eu 1,090 Multi-channel Wavelength Conversion using a Quadruple SOA-MZI Array NTUA: Eu€2.5k, RACTI: Eu €2k, UPVLC: Eu 0,5k Development and Evaluation of an OADM enabled Wavelength-division-multiplexing (WDM) System for the Transparent adding/dropping of Wavelengths at Specific Network Locations AIT: Eu 2,000, RACTI: Eu 2,000, IT: Eu 1,300

10. WP-L Joint Experiment Ultra-fast Photodiode Characterisation at UDE and UCL

11. Measurement System at UCL : Injection locked heterodyne system

12. Device Frequency Response Measured at UCL

13. Measurement Setup at UDE :External Cavity Laser Heterodyne system Pol. Mixer + Bias EDFA Laser 1 DUT Laser 2 Pol. RF Spectrum Analyser Lasers 1 & 2 are external cavity lasers

14. Device Frequency Response Measured at UDE

15. Comparison of Measurements Made at UCL and UDE

16. Multi-channel Wavelength Conversion Using a Quadruple SOA-MZI Array WP-L Joint Experiment Participants: ICCS/ NTUA RACTI

17. Objectives To demonstrate the processing power and multi-functionality of a quadruple SOA-MZI array by implementing a 4x wavelength converter To fully exploit the potentials of such compact device in all-optical node sub-systems • SOA small-signal gain (30 dB) • Operating up to 40 Gb/s • Low fiber/waveguide losses (<2 dB) • Low polarization sensitivity • 32 electrical connections • 24 fibres attached

18. Experiment Experimental Setup • Tested for 10 Gb/s NRZ pulses

19. Experimental results input data WC output 1.68 dB penalty Channel 1 MZI1 1.22 dB penalty Channel 2 MZI2 0.63 dB penalty Channel 3 MZI3 Channel 4 MZI 4 0.70 dB penalty

20. Milestones M.L.1 [T0+1] Determination of task force and chairman- Complete M.L.2 [T0+2] Publication of procedures and forms for proposals of joint experiments, and for collection of feedback from joint experiments- Complete

21. Deliverables D.L.1 [T0+4] Web pages describing resources available for joint experiments, and providing an area for the publication of joint experiment proposals and feedback- Complete D.L.2 [T0+6] Plan for joint experiments- Complete D.L.3 [T0+12] First report on Integrated Laboratories activities- Complete D.L.4 [T0+13] Updated plan for joint experiments- Complete D.L.5 [T0+24] Second report on Integrated Laboratories activities- Complete

22. Main Achievements in Y2 • N° joint experiments agreed • Y1: 5 • Y2: 7 • N° joint papers 6 • Public deliverables DL1 to DL5

23. Joint Publications in Y2 • M. Forzati, Berntson, J. Mårtensson, E. Pincemin, P. Gavignet, NRZ-OOK Transmission of 16x40 Gb/s over 2800 km SSMF Using Asynchronous Phase Modulation, to be presented at Conference on Lasers and Electro-Optics (CLEO) 2008. San José, CA, p. CThAA3. • T. T. Ng, A. Perez, S. Sales, D. J. Richardson, and P. Petropoulos, "Characterization of XGM and XPM in a SOA-MZI using a Linear Frequency Resolved Gating Technique," presented at LEOS'07, Lake Buena Vista, FL, 2007. • A. Perez-Pardo, T.T. Ng, P. Petropoulos, S. Sales and D.J. Richardson, "Analysis of the Dynamic Responses of SOA Wavelength Converters using Linear Frequency Resolved Gating Technique", Photonics Technology Letters, accepted (2008). • J. Prat (UPC), M. Omella (UPC), P. Poggiolini (PoliTO), G. Bosco (PoliTO), R. Killey (UCL), A. Teixeira (IT), R. Sousa (IT), "Electronic equalization of photodetection by means of an SQRT module” (Invited), ICTON 2007, Rome, July 2007.

24. Joint Publications in Y2 • M.N.Petersen (DTU), K.Schulze (UPVLC), F.Ramos (UPVLC), Dispersion monitoring in all-optical networks using wavelength conversion based on FWM, Electronics Letters, Vol. 43, No. 10, pp. 582-583, October 2007. • J.A.Lazaro (UPC), K.Ennser (PoliMI), G.Della Valle (PoliMI), S.Taccheo (PoliMI), V.Polo (UPC), J.Prat (UPC), Reflective ONUs by integration of Erbium Doped Waveguide Amplifiers, ECOC 2007, Vol. 3, pp. 95-96, Berlin, September 2007.