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Structural Ordering in Liquid Gallium under Extreme Conditions

James W. E. Drewitt, Francesco Turci, Benedict J. Heinen, Simon G. MacLeod, Fei Qin, Annette Kleppe, O. T. Lord

2020Physical Review Letters28 citationsDOIOpen Access PDF

Abstract

The atomic-scale structure, melting curve, and equation of state of liquid gallium has been measured to high pressure (p) and high temperature (T) up to 26 GPa and 900 K by in situ synchrotron x-ray diffraction. Ab initio molecular dynamics simulations up to 33.4 GPa and 1000 K are in excellent agreement with the experimental measurements, providing detailed insight at the level of pair distribution functions. The results reveal an absence of dimeric bonding in the liquid state and a continuous increase in average coordination number n[over ¯]_{Ga}^{Ga} from 10.4(2) at 0.1 GPa approaching ∼12 by 25 GPa. Topological cluster analysis of the simulation trajectories finds increasing fractions of fivefold symmetric and crystalline motifs at high p-T. Although the liquid progressively resembles a hard-sphere structure towards the melting curve, the deviation from this simple description remains large (≥40%) across all p-T space, with specific motifs of different geometries strongly correlating with low local two-body excess entropy at high p-T.

Topics & Concepts

GalliumMaterials scienceMolecular dynamicsDiffractionSynchrotronPair distribution functionHard spheresThermodynamicsCoordination numberCrystallographyMolecular physicsPhysicsChemistryIonQuantum mechanicsNuclear physicsMetallurgyOpticsMaterial Dynamics and Propertiesnanoparticles nucleation surface interactionsTheoretical and Computational Physics
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