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Comparison of different in situ optical temperature probing techniques for cryogenic Yb:YLF

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We present, what is to our knowledge, the first detailed set of experiments comparing different in situ optical temperature estimation methods for Yb:YLF (Yb:LiYF4) crystals used in cryogenic laser applications.… Click to show full abstract

We present, what is to our knowledge, the first detailed set of experiments comparing different in situ optical temperature estimation methods for Yb:YLF (Yb:LiYF4) crystals used in cryogenic laser applications. The proposed temperature estimation methods are based on the temperature dependence of emission spectra of Yb:YLF in E//c axis, and looks at either the variation of the spectral intensity ratio of different wavelengths, or to the full-width half-maximum (FWHM) of the emission lines, or to the overall absolute integrated spectral change with respect to a reference temperature (also known as Differential Luminescence Thermometry: DLT). We have shown that by using the DLT method we can estimate the temperature of Yb:YLF crystals in the 78-300 K range with an accuracy better than ±1 K. The other methods work well in the 78-150 K range, and provide a fast temperature estimation with ±2 K accuracy. The benefit of the proposed technique has been demonstrated via evaluation of thermal contact quality of different Yb:YLF crystals, where we have seen that, a temperature estimation accuracy of ±5 K is feasible even for samples under nonhomogeneous thermal load. We hope the findings presented in this work to be useful to laser engineers and scientists working with cryogenic Yb:YLF systems.

Keywords: temperature estimation; temperature; situ optical; optical temperature; different situ; ylf

Journal Title: Optical Materials Express
Year Published: 2020

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