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Generalization of the mixed-space cluster expansion method for arbitrary lattices

Kang Wang, Du Cheng, Bi‐Cheng Zhou

2023npj Computational Materials15 citationsDOIOpen Access PDF

Abstract

Abstract Mixed-space cluster expansion (MSCE), a first-principles method to simultaneously model the configuration-dependent short-ranged chemical and long-ranged strain interactions in alloy thermodynamics, has been successfully applied to binary FCC and BCC alloys. However, the previously reported MSCE method is limited to binary alloys with cubic crystal symmetry on a single sublattice. In the current work, MSCE is generalized to systems with multiple sublattices by formulating compatible reciprocal space interactions and combined with a crystal-symmetry-agnostic algorithm for the calculation of constituent strain energy. This generalized approach is then demonstrated in a hypothetical HCP system and Mg-Zn alloys. The current MSCE can significantly improve the accuracy of the energy parameterization and account for all the fully relaxed structures regardless of lattice distortion. The generalized MSCE method makes it possible to simultaneously analyze the short- and long-ranged configuration-dependent interactions in crystalline materials with arbitrary lattices with the accuracy of typical first-principles methods.

Topics & Concepts

Reciprocal latticeBinary numberGeneralizationLattice (music)Cluster expansionDistortion (music)Cluster (spacecraft)ReciprocalStatistical physicsSymmetry (geometry)Crystal systemSpace (punctuation)Work (physics)Crystal structureMaterials scienceMathematicsThermodynamicsPhysicsMathematical analysisComputer scienceChemistryCrystallographyGeometryQuantum mechanicsDiffractionProgramming languageOptoelectronicsLinguisticsAmplifierAcousticsPhilosophyOperating systemArithmeticCMOSMagnesium Alloys: Properties and ApplicationsMetal and Thin Film MechanicsThermal Expansion and Ionic Conductivity
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