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Femtosecond laser textured porous nanowire structured glass for enhanced thermal imaging

Tingni Wu, Zhipeng Wu, Yuchun He, Zhuo Zhu, Lingxiao Wang, Kai Yin

2022Chinese Optics Letters74 citationsDOIOpen Access PDF

Abstract

Infrared (IR) thermal imaging has aroused great interest due to its wide application in medical, scientific, and military fields. Most reported approaches for regulating thermal radiation are aimed to realize IR camouflage and are not applicable to enhance thermal imaging. Here, we introduce a simple and effective method to process porous glass by femtosecond laser scanning, where distributed nanocavities and nanowires were produced, which caused improvement of the treated glass emissivity. The as-prepared sample possessed better IR thermal radiation performance but lower transmittance to visible light. We also demonstrated its applicability by placing it in different backgrounds, where the IR image temperature of lasertreated glass was closer to the actual environment, and this strategy may provide a new vision for enhanced thermal imaging.

Topics & Concepts

Materials scienceFemtosecondOpticsLaserEmissivityThermalTransmittanceCamouflageInfraredOptoelectronicsNanowireThermal radiationComputer scienceArtificial intelligencePhysicsMeteorologyThermodynamicsLaser Material Processing TechniquesPhotoacoustic and Ultrasonic ImagingOcular and Laser Science Research
Femtosecond laser textured porous nanowire structured glass for enhanced thermal imaging | Litcius