Open AccessA half-metallic half-Heusler alloy having the largest atomic-like magnetic moment at optimized lattice constant
Author(s) -
R. Zhang,
L. Damewood,
C. Y. Fong,
Lin Yang,
RuWen Peng,
Claudia Felser
Publication year - 2016
Publication title -
aip advances
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.421
H-Index - 58
ISSN - 2158-3226
DOI - 10.1063/1.4967365
Subject(s) - lattice constant , electronegativity , magnetic moment , condensed matter physics , materials science , alloy , metal , transition metal , atomic number , lattice (music) , alkali metal , atomic radius , physics , atomic physics , chemistry , metallurgy , quantum mechanics , diffraction , biochemistry , acoustics , catalysis
For half-Heusler alloys, the general formula is XYZ, where X can be a transition or alkali metal element, Y is another transition metal element, typically Mn or Cr, and Z is a group IV element or a pnicitide. The atomic arrangements within a unit-cell show three configurations. Before this study, most of the predictions of half-metallic properties of half-Heusler alloys at the lattice constants differing from their optimized lattice constant. Based on the electropositivity of X and electronegativity of Z for half-Heusler alloys, we found that one of the configurations of LiCrS exhibits half-metallic properties at its optimized lattice constant of 5.803Å, and has the maximum atomic-like magnetic moment of 5μB. The challenges of its growth and the effects of the spin-orbit effect in this alloy will be discussed
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