Calculated electronic and magnetic properties of the half-metallic, transition metal based Heusler compounds
TLDR
In this paper, results of ab initio band structure calculations for A2BC Heusler compounds that have A and B sites occupied by transition metals and C by a main group element are presented.Abstract:
In this paper, results of ab initio band structure calculations for A2BC Heusler compounds that have A and B sites occupied by transition metals and C by a main group element are presented. This class of materials includes some interesting half-metallic and ferromagnetic properties. The calculations have been performed in order to understand the properties of the minority band gap, the peculiar transport properties and magnetic behaviour found in these materials. Among the interesting aspects of the electronic structure of the materials are the contributions from both A and B atoms to the total magnetic moment. The magnitude of the total magnetic moment shows a trend consistent with the Slater–Pauling type behaviour in several classes of these compounds. The total magnetic moment also depends on the kind of C atoms although they do not directly contribute to it. In Co2 compounds, a change of the C element changes the contribution of the t2g states to the moment at the Co sites. The localized moment in these magnetic compounds resides at the B site. Other than in the classical Cu2-based Heusler compounds, the A atoms in Co2, Fe2 and Mn2-based compounds may contribute significantly to the total magnetic moment. It is shown that the inclusion of electron–electron correlation in the form of LDA + U calculations helps to understand the magnetic properties of those compounds that already exhibit a minority gap in calculations where it is neglected. Besides the large group of Co2 compounds, half-metallic ferromagnetism was here found only in such compounds that contain Mn.read more
Citations
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Simple rules for the understanding of Heusler compounds
TL;DR: Heusler compounds as discussed by the authors are a remarkable class of intermetallic materials with 1:1:1 or 2:1-1 composition comprising more than 1500 members, and their properties can easily be predicted by the valence electron count.
Journal Article
First-principles calculations of electronic structure and spectra of strongly correlated systems: the LDA+U method
TL;DR: In this paper, a generalization of the Local Density Approximation (LDA) method for the systems with strong Coulomb correlations is presented which gives a correct description of the Mott insulators.
Journal ArticleDOI
Understanding the trend in the Curie temperatures of Co2-based Heusler compounds: Ab initio calculations
TL;DR: In this paper, the Curie temperatures for the Heusler compounds Co{sub 2}TiAl, Co-sub 2]VGa, CoSub 2}VSn, Cosub 2 VSn, CrGa, CrAl, MnSi, CoCoSn, and CoCoSi are determined from the electronic structure obtained with the local density functional approximation and/or the generalized gradient approximation.
Journal ArticleDOI
High-Throughput Machine-Learning-Driven Synthesis of Full-Heusler Compounds
Anton O. Oliynyk,Erin Antono,Taylor D. Sparks,Leila Ghadbeigi,Michael W. Gaultois,Bryce Meredig,Arthur Mar +6 more
TL;DR: A machine learning model has been trained to discover Heusler compounds, which are intermetallics exhibiting diverse physical properties attractive for applications in thermoelectric and spintronic materials as discussed by the authors.
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Structural, electronic, and magnetic properties of tetragonal Mn3-xGa: Experiments and first-principles calculations
Jürgen Winterlik,Benjamin Balke,Gerhard H. Fecher,Claudia Felser,Maria do Carmo Martins Alves,Fabiano Bernardi,Jonder Morais +6 more
TL;DR: In this article, the electronic, magnetic, and structural properties of binary intermetallic compounds were investigated and it was found that all these materials are hard magnetic, with energy products ranging from $10.1\phantom{\rule{0.3em}{0ex}}\mathrm{m}}^{\ensuremath{-}3}$ for high Mn content to $61.1$ for low Mn content.
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