FeRh ground state and martensitic transformation
Copyright policy )FeRh ground state and martensitic transformation
Cubic B2 FeRh exhibits a metamagnetic transition [(111) antiferromagnet (AFM) to ferromagnet (FM)] around 353 K and remains structurally stable at higher temperatures. However, the calculated zero-Kelvin phonons of AFM FeRh exhibit imaginary modes at M-points in the Brillouin zone, indicating a premartensitic instability, which is a precursor to a martensitic transformation at low temperatures. Combining electronic-structure calculations with ab initio molecular dynamics, conjugate gradient relaxation, and the solid-state nudged-elastic band (SSNEB) methods, we predict that AFM B2 FeRh becomes unstable at ambient pressure and transforms without a barrier to an AFM(111) orthorhombic (martensitic) groundstate below 90K. We also consider competing structures, in particular, a tetragonal AFM(100) phase that is not the global groundstate, as proposed [Phys. Rev. B 94, 180407(R) (2016)], but a constrained solution.
5 pages, 3 figures, 2 tables
- Iowa State University United States
- Ames Laboratory United States
Chemical Physics (physics.chem-ph), Condensed Matter - Materials Science, Physics - Chemical Physics, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, DegreeDisciplines::Physical Sciences and Mathematics::Physics::Condensed Matter Physics, Computational Physics (physics.comp-ph), 530, Physics - Computational Physics
Chemical Physics (physics.chem-ph), Condensed Matter - Materials Science, Physics - Chemical Physics, Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, DegreeDisciplines::Physical Sciences and Mathematics::Physics::Condensed Matter Physics, Computational Physics (physics.comp-ph), 530, Physics - Computational Physics
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