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Abstract
The site preference and elastic properties of Fe-, Co-, and Cu-doped Ni${}_{2}$MnGa alloys are investigated by using the first-principles exact muffin-tin orbital method in combination with coherent-potential approximation. It is shown that Fe atom prefers to occupy the Mn and Ni sublattices even in Ga-deficient alloys; Co has strong tendency to occupy the Ni sublattice in all types of alloys; Cu atoms always occupy the sublattice of the host elements in deficiency. For most of the alloys with stable site occupations, both the electron density $n$ and the shear modulus ${C}^{\ensuremath{'}}$ can be considered as predictors of the composition dependence of the martensitic transition temperature ${T}_{M}$ of the alloys. The physics underlying the composition-dependent ${C}^{\ensuremath{'}}$ are discussed based on the calculated density of states.
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