Accurate Characterization of the Properties of the Rare-Earth-Doped Crystal for Laser Cooling

Abstract: We present a method for calibrating a commercial thermal camera adopted to accurately measure the temperature change of the sample in a laser-induced temperature modulation spectrum (LITMoS) test, which is adopted for measuring two crucial parameters of the external quantum efficiency ηext and the background absorption coefficient αb for assessing the laser cooling grade of the rare-earth-doped materials. After calibration, the temperature resolution of the calibrated thermal camera is better than 0.1 K. For t… Show more

“…Two parameters, namely, the external quantum efficiency η ext and the background absorption coefficient α b , are important for assessing the laser cooling grade of the rareearth-doped materials. A promising method for measuring of these crucial parameters has been presented by Duan X. et al [7]. After calibration, the temperature resolution of the thermal camera was better than 0.1 K.…”

Editorial for the Special Issue: “Laser Cooling of Solids: Novel Advances and Applications”

“…Two parameters, namely, the external quantum efficiency η ext and the background absorption coefficient α b , are important for assessing the laser cooling grade of the rareearth-doped materials. A promising method for measuring of these crucial parameters has been presented by Duan X. et al [7]. After calibration, the temperature resolution of the thermal camera was better than 0.1 K.…”

Editorial for the Special Issue: “Laser Cooling of Solids: Novel Advances and Applications”

Characteristics investigation of Yb3+:YAG crystals for optical refrigeration

Laser cooling of Yb3+:LuLiF4 crystal below cryogenic temperature to 121 K