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Article Abstract
We investigate the resistance to the laser flux of a complex multilayer structure containing liquid crystal, focusing on the behavior of a spatial light modulator operating in the femtosecond regime. Our findings show that exceptionally high third-harmonic generation at the interfaces between the liquid crystal layer and its substrates, driven by the discontinuity in third-order nonlinear susceptibility, is the primary cause of laser damage. A quantitative study of the chromatic laser-induced damage threshold (LIDT) of a thermo-optically addressed spatial light modulator (TOA-SLM) is then presented. Since the device operates over an ultrabroadband spectrum, the study focuses on the behavior in the ultrashort pulse regime. The chromatic analysis offers a detailed map of the device's operational limits in ultrafast optics. With a maximum LIDT value of , the modulator is an excellent candidate for integration into ultrafast optical systems. Additionally, the study examines the laser-induced functional threshold (LIFT), showing that the device remains fully operational nearly up to its damage threshold.
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| http://dx.doi.org/10.1364/AO.545125 | DOI Listing |
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