The near-zero thermal expansion of A2O(PO4)2 oxides (A = Th, U, Zr, and Hf) is investigated by first-principles calculations, and the role of structural flexibility, strongly related to transverse vibrations, is clarified. The results of lattice dynamics simulations indicate that the low positive or negative thermal expansion of A2O(PO4)2 mainly originates from the competition between phonon modes with positive and negative Grüneisen parameters in the low-frequency range. This work provides new insights to help the discovery and design of new materials with ultralow or controlled thermal expansion.
Origin of Near-Zero Thermal Expansion in A2O(PO4)2 Oxides over an Ultrawide Temperature Range
Sanson A.;
2022
Abstract
The near-zero thermal expansion of A2O(PO4)2 oxides (A = Th, U, Zr, and Hf) is investigated by first-principles calculations, and the role of structural flexibility, strongly related to transverse vibrations, is clarified. The results of lattice dynamics simulations indicate that the low positive or negative thermal expansion of A2O(PO4)2 mainly originates from the competition between phonon modes with positive and negative Grüneisen parameters in the low-frequency range. This work provides new insights to help the discovery and design of new materials with ultralow or controlled thermal expansion.File in questo prodotto:
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