Nanosecond pulsed illumination at 532-1064 nm on the Si-SiO2 interface in atmospheric SeBDs enhances plasma emission and reduced electric field via wavelength-dependent photogeneration of carriers in the depletion region, analogous to MOS photodetector behavior.
Picosecond laser texturization of mc-silicon for photovoltaics: A comparison between 1064 nm, 532 nm and 355 nm radiation wavelengths.Applied Surface Science, 371:196–202
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Photonic Interactions with Semiconducting Barrier Discharges
Nanosecond pulsed illumination at 532-1064 nm on the Si-SiO2 interface in atmospheric SeBDs enhances plasma emission and reduced electric field via wavelength-dependent photogeneration of carriers in the depletion region, analogous to MOS photodetector behavior.