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Crystal growth, measurement and modeling of the optical activity of $\alpha$-GeO$_2$. Comparison with $\alpha$-SiO$_2$

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posted on 2025-01-25, 17:00 authored by Alexandra Pena, Corinne Felix, Bertrand Menaert, Benoit Boulanger
This work aimed first at growing high quality bulk $\alpha$-GeO$_2$ crystals in their Quartz iso-structural form ($\alpha$-SiO$_2$), using a high temperature flux method. By optimizing the flux composition and the geometry and orientation of the seeds, it has been possible to achieve growth yields up to 90 % leading for the first time to bulk single crystals up to 3.5 cm$^3$. Thanks to the optical quality and size of the obtained crystals, the second step of this study was the measurement of the optical activity of $\alpha$-GeO$_2$ between 0.3 and 2 $\mu$m. This gave access to the value of one of the independent components of the gyration tensor (g33) as a function of the wavelength. An $\alpha$-SiO$_2$ slab have been used to validate our methodology. Both crystals show a magnitude of optical activity of 3.4x10$^{-5}$ rad/$\mu$m in the near IR range and great variations where the higher values are 3.4x10$^{-3}$ rad/$\mu$m and 1.7x10$^{-3}$ rad/$\mu$m at 0.3 $\mu$m for $\alpha$-GeO$_2$ and $\alpha$-SiO$_2$, respectively. The measurements are perfectly described by an empirical model that we propose and which relies on the macroscopic first-order electrical susceptibility and on the pitch of the structural helix compared to the wavelength of light.

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