Beschreibung
Infrared (IR) imaging is crucial for military surveillance, targeting, and detection systems. In common with all electro-optical imaging devices, they are vulnerable to in-band laser strikes, causing pixel saturation, image dazzling and potential array damage. An obvious safeguard is inserting a filter that blocks the expected laser wavelengths without significantly reducing the imager’s performance. The perfect countermeasure! However, our results indicate a side effect: a high power-density laser that permits dazzling even in the transmission band of the filter. A continuous wave Quantum Cascade Laser (QCL) with a peak wavelength of 4.57 microns and output power of approximately 300 mW irradiates the thermal infrared imager sensing in the Mid-Wave Infrared (MWIR). The IR imager has a filter wheel with two dielectric-stacked infrared bandpass filters outside the laser’s wavelength, positioned internally between the detector dewar and telescope. The images were radiometrically calibrated over four integration times under conditions with and without each filter. In summary, our observations indicate a counterintuitive result. There are dazzling effects observed through filters out of band to the laser wavelength.Zeitraum | 16 Sept. 2024 |
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Ereignistitel | SPIE Sensors + Imaging Symposium: SPIE Remote Sensing and SPIE Security + Defence |
Veranstaltungstyp | Sonstiges |
Ort | Edinburgh, Großbritannien/Vereinigtes KönigreichAuf Karte anzeigen |
Bekanntheitsgrad | International |
Dokumente & Verweise
Verbundene Inhalte
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Aktivitäten
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SPIE Sensors + Imaging Symposium
Aktivität: Teilnahme an oder Organisation einer Veranstaltung › Teilnahme an einer Konferenz, einem Workshop
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SPIE Security + Defence: High-Power Lasers and Technologies for Optical Countermeasures II
Aktivität: Teilnahme an oder Organisation einer Veranstaltung › Organisation einer Konferenz, einem Workshop (outside RMA)
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Ausstattungen/Einrichtungen
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Optronics Laboratory
Austattung/Einrichtung: Laboratory
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Projekte
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Laser countermeasures to combat ‘smart’ infrared imaging guided threats: [Laser Countermeasures IR]
Projekt: Forschung › Research