A new paper was submitted by Consortium members at SPIE Photonics West 2021: "Airborne campaign results of a compact 2-4um broadband supercontinuum-based spectrometer system for multi-species atmospheric gas analysis at ppm level" Abstract: A compact broadband atmospheric gas spectrometer has been developed in the framework of the EU-H2020 FLAIR project. The system is composed of a mid-IR 2-4um broadband supercontinuum source, a temperature controlled 10- meter-long multipass

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The FLAIR team performed a week-long measurement campaign over the waters of the Kategatt, the strait linking the Nord Sea with the Baltic Sea. In collaboration with Explicit, a Danish company specialized in airborne pollutant detection, and Charlie9, a Helicopter company based near Copenhagen, more than 120 ships could be targeted, and their exhaust fumes analyzed. The FLAIR system has been tuned to target methane, a potent greenhouse gas, with absorption lines matching the

DTU built long wavelength mid-infrared supercontinuum source that is intended for operation in an airborne gas spectroscopy system for pollution monitoring as a part of the EU project FLying ultrA-broadband single-shot InfraRed Sensor (FLAIR). The 3MHz SC laser emit 86.6 mW output power with a spectrum spanning 1.46 µm-10.46 µm and packaged in a form factor of 47.4 cm x 30.0 cm x 13.45 cm. The average power fluctuation of the supercontinuum laser is 0.43% standard deviatio

On June 24th 2020 FLAIR Consortium successfully performed first flying test in Beromünster, Switzerland. Collaborative research journey started in 2016 led to its first testing flight to validate FLAIR system functionality. For the initial flight was used Zeppelin platform and test was controlled by scientists from EMPA and CSEM. Test successfully measured elevated methane concentration when flying above the controlled release installation. At the moment FLAIR Consortium eval

Radboud University is currently developing a compact, fast scanning, transportable Fourier Transform Spectrometer (FTS) which is compatible with high repetition rate mid-infrared supercontinuum sources. This FTS system will be used in combination with the novel mid-infrared supercontinuum source, recently developed in DTU. “The spectrometer covers a broad wavelength range of 2-12 µm and uses the pulsed nature of the mid-infrared supercontinuum light to reduce the measurement

Information about project Advisory Board members #Horizon2020 #photonics21 #FLAIR #advisoryboard

CSEM in Switzerland is currently designing and implementing an alternative detector prototype. The initial spectrometer with the VIPA is showing adequate resolution to resolve the fine structure of N2O gas spectral footprint. However, it appeared that the detection limit is currently 2 orders of magnitude too high to measure diluted samples as requested in the FLAIR project. The revised design promises reduced optical losses and larger power per spectral unit achieved through

We are happy to release first movie about the project! Thanks to our great Consortium members for taking active part and participation in shooting: Swiss Federal Laboratories for Materials Science and Technology (EMPA), Tekever Autonomous Systems, NKT Photonics A/S, New Infrared Technologies (NIT), Technical University of Denmark (Department of Photonics Engineering), Radboud University (The research group in the Institute of Molecules and Materials), SenseAir AB and Swiss Ce

Premier is coming soon... #h2020flair #h2020 #photonics21 #FLAIR