Physical properties of self-flux and WO3-containing solutions useful for growing type III KGd(PO3)4 single crystals

Density, surface tension and dynamic viscosity of self-flux and WO3-containing solutions useful for growing type III KGd(PO3)4 single crystals have been measured at temperature near the saturation temperature. The thermal behavior of these physical properties has also been studied. Solutions containing WO3 show a higher density than self-flux solutions and the density decreases linearly when the temperature increases, in the two cases. Near the saturation temperature, self-flux solutions present a surface tension slightly lower than that of WO3-containing solutions. The dynamic viscosity of WO3-containing solutions is slightly lower than that of self-flux solutions when this property was measured at the same temperature. We observed that, in WO3-containing solutions, the saturation temperature is lower than in self-flux solutions. Thus, at the growth temperatures, the two solutions present dynamic viscosities only slightly different, so we expect that the introduction of WO3 up to 10 mol% in the growth solution does not represent any important improvement in its hydrodynamics and this small change does not compensate for the possibility of introduction of tungsten impurities in the crystal structure affecting the physical properties expected for these crystals. Taking into account the values measured for these physical properties, we choose the initial conditions for growing type III KGd(PO3)4 single crystals from self-flux solutions.