Determination of single crystal elastic moduli of KTb3F10 by resonant ultrasound spectroscopy.

Autor: Balodhi, Ashiwini, Chang, Kelvin, Stevens, Kevin T., Chakrapani, Sunil K., Ennaceur, Susan M., Migliori, Albert, Zevalkink, Alexandra
Předmět:
Zdroj: Journal of Applied Physics; 10/28/2020, Vol. 128 Issue 16, p165104-1-165104-5, 5p
Abstrakt: KTb3F10 (KTF) has been developed in recent years as a candidate Faraday rotator material because of its cubic symmetry, high figures of merit, and low absorption coefficient. While considerable efforts have focused on crystal growth and optical properties, investigations of fundamental thermodynamic behavior of KTF have been limited. Here, we report elastic moduli C11, C12, and C44 of single crystalline KTF measured by resonant ultrasound spectroscopy from 280 K up to 300 K and the obtained temperature derivatives of each modulus. We additionally report the single crystal elastic moduli of the rare-earth garnet Y3Al5O12 (YAG), yielding results that agree well with the prior literature. We found C11 = 135:62 GPa, C12 = 58:11 GPa, and C44 = 44:81 GPa for KTF and C11 = 332:43 GPa, C12 = 109:58 GPa, and C44 = 114:81 GPa for YAG at room temperature. The present results have been compared with previous experimental and theoretical results and with common oxide and fluoride optical materials, revealing the relative softness of KTF. The low elastic moduli of KTF are, in turn, responsible for its low thermal conductivity and low Debye frequency compared to other laser host materials. [ABSTRACT FROM AUTHOR]
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