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14 September 2018 High-temperature measurements of AlON using a CO2 laser
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Abstract
IR sensors continue to be a powerful tool for a broad range of sensing applications including night vision, surveillance and other mission functions. Sensors are often exposed to challenging scenarios such as targeting under extreme conditions including detection under extremely high temperature and speed, such as in hypersonic applications. Thermal protection is vital for sensor performance under unfavorable conditions. Transparent ceramic is one of the window materials used against thermal impact due to its excellent optical transmission, transparency, and durability under extreme conditions. In this paper, we focus on investigating the behavior of Aluminum Oxynitride (AlON) optical ceramics at high temperatures. AlON has been reported to have transparency and transmission over 80% from the UV all the way to the mid-wave IR cutting off around 5μm. A 25.4mm × 25.4mm × 6mm square and 1.5mm × 1.5mm × 10.16mm AlON samples were heated up to ~907K. A 50W CO2 laser was used as a heating source for the material under test (MUT). Significant thermal distribution was measured using a long-wave IR thermal camera to observe the MUT surface. In addition, heating results show that there was severe thermal stress in the MUT. We are currently optimizing the optical beam dimensions and projection shape towards a sample in order to minimize the stress and heat towards 1273K. Finally, we validated our experimental results with thermo-optic simulations and modeling.
© (2018) COPYRIGHT Society of Photo-Optical Instrumentation Engineers (SPIE). Downloading of the abstract is permitted for personal use only.
A. Arends, W-Y Jang, J. Park, R. Schueler, C. A. Rosenbury, and A. Urbas "High-temperature measurements of AlON using a CO2 laser", Proc. SPIE 10742, Optical Manufacturing and Testing XII, 1074218 (14 September 2018); https://doi.org/10.1117/12.2319763
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