Averaged cluster approach to including chemical short-range order in KKR-CPA

ORAL

Abstract

The single-site Korringa-Kohn-Rostoker coherent potential approximation (KKR-CPA) ignores short-range ordering present in disordered metallic systems. We establish a technique to fix this shortcoming by embedding an averaged cluster that displays chemical short-range order (SRO). The degree of SRO can be tuned by externally defined order parameters. This averaged cluster can be embedded in the single-site CPA medium or a self-consistently obtained effective medium that contains SRO information. The validity of this method is demonstrated by applying it to two alloy systems—the CuZn body-centered cubic (BCC) solid solution, and AlCrTiV, a four-element BCC high entropy alloy. A comparison between the non-self-consistent and self-consistent modes is also provided for the two above-mentioned systems.

*This work is based on open-source ab initio software package MuST, a project supported in part by NSF Office of Advanced Cyberinfrastructure and the Division of Materials Research within the NSF Directorate of Mathematical and Physical Sciences under award number 1931367, 1931445, and 1931525. The conception and implementation of CA-CPA was supported by the Department of Energy under Grant No. de-sc0014506.

Presenters

  • Vishnu Raghuraman

    • Carnegie Mellon Univ
    • Department of Physics, Carnegie Mellon University

Authors

  • Vishnu Raghuraman

    • Carnegie Mellon Univ
    • Department of Physics, Carnegie Mellon University

  • Yang Wang

    • Carnegie Mellon University
    • Pittsburgh Supercomput Ctr
    • Pittsburgh Supercomputing Center
    • Carnegie Mellon Univ
    • Pittsburgh Supercomput Ctr, Carnegie Mellon University

  • Michael Widom

    • Physics, Carnegie-Mellon University, Pittsburgh, PA 15213, USA
    • Carnegie Mellon Univ
    • Department of Physics, Carnegie Mellon University