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INTERREGSAFESIDE

INTERREG: SAFESIDE

Full Name: Analysesysteem voor branden en gaslekken op basis van infrarood spectroscopie

Duration: 1/1/2017-1/6/2021

Partners:

  • MultiTel
  • UMons
  • ULCO
  • University of Reims
  • UGent

Objective:

  • The aim of the project SAFESIDE is to develop new portable and remote spectroscopic characterization solutions to detect the nature of gases in the air with, in particular, the application of the measurement of fire smoke or uncontrolled discharge on risk sites or on an accident site when transporting a hazardous substance. At the end of the project we want to have systems that are transportable and allow the analysis of gas at short distances and distances of the order of 200 meters without contact. The systems will have been validated by extensive testing campaigns that will determine their robustness according to the accident scenario (type of compounds involved, weather conditions, etc.). The final devices will be made available to the different teams involved in the project on each side of the border. An awareness campaign will be carried out in particular at industrial sites, intervention services ….

INTEC's Role:

  • Development of transfer printing to realise a multi-gas spectroscopic sensor based on an array of laser diodes or a widely tunable laser

Project Web site: https://www.safeside-project.eu/

People involved

Research topics involved

Publications in the framework of this project (14)

    International Journals

  1. B. Haq, J. Rahimi Vaskasi, J. Zhang, Agnieszka Gocalinska, Emanuele Pelucchi, Brian Corbett, G. Roelkens, Micro-transfer-printed III-V-on-silicon C-band distributed feedback lasers, Optics Express, 28(22), p.32793-32801 doi:10.1364/OE.404847 (2020).
  2. B. Haq, S. Kumari, K. Van Gasse, J. Zhang, A. Gocalinska, E. Pelucchi, B. Corbett, G. Roelkens, Micro-Transfer-Printed III-V-on-Silicon C-Band Semiconductor Optical Amplifiers, Lasers & Photonics Reviews, p.1900364 doi:10.1002/lpor.201900364 (2020)  Download this Publication (3.7MB).
  3. R. Wang, B. Haq, S. Sprengel, A. Malik, A. Vasiliev, G. Boehm, I. Symonyte, A. Vizbaras, K. Vizbaras, J. Van Campenhout, R. Baets, M.C. Amann, G. Roelkens, Widely tunable III-V/silicon lasers for spectroscopy in the short-wave infrared, IEEE Journal on Selected Topics in Quantum Electronics (invited), 25(6), p.1502412 (12 pages) doi:10.1109/jstqe.2019.2924109 (2019)  Download this Publication (5MB).
  4. R. Wang, S. Sprengel, A. Vasiliev, G. Boehm, J. Van Campenhout, G. Lepage, P. Verheyen, R. Baets, M.-C. Amann, G. Roelkens, Widely tunable 2.3 um III-V-on-silicon Vernier lasers for broadband spectroscopic sensing, Photonics Research, 6(9), p.858 doi:10.1364/prj.6.000858 (2018)  Download this Publication (2.2MB).
      International Conferences

    1. J. Zhang, C. Op de Beeck, B. Haq, J. Goyvaerts, S. Cuyvers, S. Kumari, G. Muliuk, A. Hermans, E. Gocolinska, B. Corbett, A. Jose Trindade, C. Bowers, J. Van Campenhout, G. Lepage, P. Verheyen, B. Kuyken, D. Van Thourhout, G. Morthier, R. Baets, G. Roelkens, Micro-Transfer-Printing for III-V/Si PICs, (invited) publication in Asian Communication and Photonics Conference, China,  (to be published).
    2. B. Haq, S. Kumari, J. Zhang, A.Gocalinska, E.pelucchi, B.Corbett, G. Roelkens, Micro-transfer-printed III-V-on-Silicon DBR lasers, Frontiers in Optics, (2020)  Download this Publication (430KB).
    3. B. Haq, S. Kumari, J. Zhang, K. Van Gasse, A. Gocalinska, E. Pelucchi, B. Corbett, G. Roelkens, micro-transfer-printed III-V-on-silicon C-band SOAs with 17dB gain, IEEE Photonics conference, (2019)  Download this Publication (2.1MB).
    4. G. Roelkens, R. Wang, A. Vasiliev, S. Radosavljevic, X. Jia, N. Teigell Beneitez, B. Haq, F. Pavanello, M. Muneeb, G. Lepage, P. Verheyen, J. Van Campenhout, S. Sprengel, G. Boehm, M.C. Amann, I. Simonyte, K. Vizbaras, A.Vizbaras, R. Baets, III-V/Si photonic integrated circuits for the mid-infrared, IEEE International Conference on Group IV Photonics (invited), Mexico, p.FE1 doi:10.1109/group4.2018.8478755 (2018)  Download this Publication (1.3MB).
    5. G. Roelkens, R. Wang, A. Vasiliev, S. Radosavljevic, F. Pavanello, A. Malik, M. Muneeb, R. Baets, S. Sprengel, G. Boehm, M.C. Amann, I. Simonyte, A. Vizbaras, K. Vizbaras, III-V-on-silicon photonic integrated circuits for spectroscopic sensing in the mid-infrared, Advanced Photonics Congress (invited), Switzerland, p.IM4B.1 doi:10.1364/iprsn.2018.im4b.1 (2018)  Download this Publication (176KB).
    6. R. Wang, S. Sprengel, G. Boehm, R. Baets, M.-C. Amann, G. Roelkens, Widely tunable III-V-on-silicon Vernier lasers operating in the 2.3 um wavelength range, Conference on Lasers and Electro-Optics 2018 (invited), United States, p.paper STh1B.3 (2 pages) doi:10.1364/cleo_si.2018.sth1b.3 (2018)  Download this Publication (286KB).
    7. R. Wang, M. Muneeb, A. Vasiliev, A. Malik, S. Sprengel, G. Boehm, I. Simonyc, A. Vizbaras, K. Vizbaras, R. Baets, M.-C. Amann, G. Roelkens, III-V/silicon photonic integrated circuits for spectroscopic sensing in the 2 μm wavelength range, SPIE Photonics West (invited), United States, p.1053603 (7 pages) doi:10.1117/12.2287380 (2018)  Download this Publication (730KB).
    8. R. Wang, S. Sprengel, G. Boehm, R. Baets, M.-C. Amann, G. Roelkens, Widely tunable 2.3 μm InP-based type-II DFB laser array heterogeneously integrated on silicon for sensing, International workshop on opportunities and challenges in mid-infrared laser-based gas sensing 2017, Poland, p.25 (2017)  Download this Publication (2MB).
    9. R. Wang, S. Sprengel, G. Boehm, R. Baets, M.-K. Amann, G. Roelkens, Heterogeneously Integrated InP-based Type-II DFB Laser Array on Silicon, European Conference on Integrated Optics (ECIO), Netherlands, p.T2.1 (2017)  Download this Publication (527KB).
    10. R. Wang, A. Malik, I. Symonytc, A. Vizbaras, K. Vizbaras, G. Roelkens, Widely tunable GaSb-silicon hybrid lasers at 2 μm, 43rd Freiburg Infrared Colloquium, Germany, p.47-48 (2017)  Download this Publication (2.3MB).