First-principles study of lattice instabilities in the ferromagnetic martensite Ni2MnGa

Abstract

The phonon dispersion relations and elastic constants for ferromagnetic Ni2MnGa in the cubic and tetragonally distorted Heusler structures are computed using density-functional and density-functional perturbation theory within the spin-polarized generalized-gradient approximation. For 0.9<c/a<1.06, the TA2 tranverse acoustic branch along [110] and symmetry-related directions displays a dynamical instability at a wavevector that depends on c/a. Through examination of the Fermi-surface nesting and electron-phonon coupling, this is identified as a Kohn anomaly. In the parent cubic phase the computed tetragonal shear elastic constant, C=(C11-C12)/2, is close to zero, indicating a marginal elastic instability towards a uniform tetragonal distortion. We conclude that the cubic Heusler structure is unstable against a family of energy-lowering distortions produced by the coupling between a uniform tetragonal distortion and the corresponding [110] modulation. The computed relation between the c/a ratio and the modulation wavevector is in excellent agreement with structural data on the premartensitic (c/a = 1) and martensitic (c/a = 0.94) phases of Ni2MnGa.

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