Abstract
Pulsed neutron and high energy X-ray diffraction experiments on single- and two-phase Al2O3–Y2O3 and single-phase Al2O3–La2O3 glasses suggest that a polyamorphic phase transition occurs via changes in the Y–O coordination and connectivity. The transformation from a high temperature to a low temperature amorphous phase is mainly associated with the formation of YO8 polyhedra at the expense of YO7 polyhedra. The transition produces a more ordered network structure with increased oxygen connectivity, while maintaining the overall metal∶oxygen stoichiometry. It is estimated that for the two-phase sample studied ∼12% of the Y ions had transformed to the higher coordinate form in the supercooled liquid as the onset of the glass transition was reached.
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