Design of a Stable Heusler Alloy with Switchable Metal-to-Half-Metal Transition at Finite Temperature

Buchelnikov, Vasiliy D.; Sokolovskiy, Vladimir V.; Miroshkina, Olga N.; Baigutlin, Danil R.; Zagrebin, Mikhail A.; Barbiellini, Bernardo; Singh, Bahadur; Bansil, Arun; Lähderanta, Erkki (2021-10-04)
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Post-print / Final draft

Buchelnikov, Vasiliy D.
Sokolovskiy, Vladimir V.
Miroshkina, Olga N.
Baigutlin, Danil R.
Zagrebin, Mikhail A.
Barbiellini, Bernardo
Singh, Bahadur
Bansil, Arun
Lähderanta, Erkki
04.10.2021

Advanced Theory and Simulations

4

11

Wiley

School of Engineering Science

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© 2021 Wiley-VCH GmbH
https://doi.org/10.1002/adts.202100311
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi-fe2022013111516

Tiivistelmä

The electronic structure and metallicity of Si-doped Mn2VGe Heusler alloys within the first-principles density-functional theory framework are discussed. Mn2VGe is found to assume two stable structures at (cubic) lattice constants of 5.7 and 6.05 Å, which are well-separated in energy and correspond to half-metallic (low-spin) and metallic (high-spin) phases, respectively. Substitution of Ge by Si reduces the energy difference between these two phases, which become nearly degenerate at an Si concentration of ≈3.125 at% at zero temperature. The analysis shows that the switching between the high- and low-spin phases for this composition can be triggered via a pressure of 2.8 GPa at 300 K. Si-doped Mn2VGe can thus provide an ultrafast, low power, cost-effective materials platform for spintronics applications.

Lähdeviite

Buchelnikov, V. D., Sokolovskiy, V. V., Miroshkina, O. N., Baigutlin, D. R., Zagrebin, M. A., Barbiellini, B., Singh, B., Bansil, A., Lähderanta, E. (2021). Design of a Stable Heusler Alloy with Switchable Metal-to-Half-Metal Transition at Finite Temperature. Advanced Theory and Simulations, vol. 54, issue 11. DOI: 10.1002/adts.202100311

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