Growth and characterization of optical and thermal properties of LiGdF4 single crystal

The opportunity of growing of several centimeters in length LiGdF4 single crystals by Bridgman-Stockbarger technique was demonstrated and the optically perfect LiGdF4 single crystals with 8 mm and 55 mm in length were grown. The phase composition, thermal conductivity, basic optical and spectral-kinetic properties of LiGdF4 single crystals were studied for the first time. For LiGdF4 crystal, the resulting linear thermal expansion co-efficients alpha is 11% larger, than for both LiYF4 and LiYbF4 crystals. The obtained thermal conductivity dependence k(T) is more pronounced compared to LiLuF4 and LiYF4. The absorption spectrum of the LiGdF4 crystal shows absorption bands corresponding to the 8S7/2 - (6Dj, 6Ij, and 6Pj) transitions of Gd3+ ions. The measured room temperature lifetime of 6Pj multiplet of Gd3+ ions was equal to 4.25 +/- 0.05 ms. The values of the temperature gradient of the LiGdF4 refractive index do not strongly depend on the wavelength.

Automated summary

The opportunity to grow LiGdF4 single crystals with length of several centimeters using the Bridgman-Stockbarger technique was demonstrated. Optically perfect LiGdF4 crystals measuring 8 mm and 55 mm in length were successfully grown. The phase composition, thermal conductivity, basic optical and spectral-kinetic properties of LiGdF4 crystals were studied for the first time. The results showed that LiGdF4 crystal has a larger linear thermal expansion coefficient and a more pronounced thermal conductivity dependence compared to other crystals.