Giant Thermal Vibrations in the Framework Compounds Ba1-xSrxAl2O4

Abstract

Synchrotron X-ray diffraction (XRD) experiments were performed on the network compounds Ba1-xSrxAl2O4 at temperatures between 15 and 800 K. The ferroelectric phase of the parent BaAl2O4 is largely suppressed by the Sr-substitution and disappears for x≥0.1. Structural refinements reveal that the isotropic atomic displacement parameter (B iso) in the bridging oxygen atom for x≥0.05 is largely independent of temperature and retains an anomalously large value in the adjacent paraelectric phase even at the lowest temperature. The B iso systematically increases as x increases, exhibiting an especially large value for x≥0.5. According to previous electron diffraction experiments for Ba1-xSrxAl2O4 with x≥0.1, strong thermal diffuse scattering occurs at two reciprocal points relating to two distinct soft modes at the M- and K-points over a wide range of temperatures below 800 K [Y. Ishii et al., Sci. Rep. 6, 19154 (2016)]. Although the latter mode disappears at approximately 200 K, the former does not condense, at least down to 100 K. On the contrary, it still survives at low-temperature. The anomalously large B iso observed in this study is ascribed to these soft modes existing in a wide temperature range.