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Exchange interactions and magnetic phases of transition metal oxides: benchmarking advanced ab initio methods

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arxiv 1105.0647 v3 pith:Q5Z54SZY submitted 2011-05-03 cond-mat.str-el

Exchange interactions and magnetic phases of transition metal oxides: benchmarking advanced ab initio methods

classification cond-mat.str-el
keywords advancedfunctionalsdensityfirst-principlesmagneticmetalmethodstransition
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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The magnetic properties of the transition metal monoxides MnO and NiO are investigated at equilibrium and under pressure via several advanced first-principles methods coupled with Heisenberg Hamiltonian MonteCarlo. The comparative first-principles analysis involves two promising beyond-local density functionals approaches, namely the hybrid density functional theory and the recently developed variational pseudo-self-interaction correction method, implemented with both plane-wave and atomic-orbital basis sets. The advanced functionals deliver a very satisfying rendition, curing the main drawbacks of the local functionals and improving over many other previous theoretical predictions. Furthermore, and most importantly, they convincingly demonstrate a degree of internal consistency, despite differences emerging due to methodological details (e.g. plane waves vs. atomic orbitals)

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