Roman Malyshev
YOU?
Author Swipe
View article: Anisotropic-Strain Control of The Magnetic Structure in Mn\textsubscript{3}GaN
Anisotropic-Strain Control of The Magnetic Structure in Mn\textsubscript{3}GaN Open
A first principles study is conducted to explore the changes in the magnetic structure of Mn\textsubscript{3}GaN under anisotropic biaxial strain. Mn\textsubscript{3}GaN is an antiperovskite with a structure similar to that of an ideal cub…
View article: Shear Strain-Induced Multiferroic Response in the Altermagnetic Semiconductor CuFeS$_2$
Shear Strain-Induced Multiferroic Response in the Altermagnetic Semiconductor CuFeS$_2$ Open
CuFeS$_2$ is an altermagnetic semiconductor that is lattice-matched with silicon and has a high Néel temperature. It is nonpolar and magnetically compensated in its structural ground state. However, the crystal belongs to a magnetic symmet…
View article: Effect of Biaxial Strain on Cation Octahedral Rotations and Magnetic Structure of the Antiperovskite Mn$_{3}$GaN
Effect of Biaxial Strain on Cation Octahedral Rotations and Magnetic Structure of the Antiperovskite Mn$_{3}$GaN Open
Density functional theory is used to study the effect of compressive and tensile biaxial strain on Mn$_{3}$GaN. Mn$_{3}$GaN is a non-collinear antiferromagnetic antiperovskite with a similar structure to that of an ideal cubic oxide perovs…
View article: Low-energy Properties of Electrons and Holes in CuFeS$_2$
Low-energy Properties of Electrons and Holes in CuFeS$_2$ Open
The antiferromagnetic semiconductor CuFeS$_2$ belongs to a magnetic symmetry class that is of interest for spintronics applications. In addition, its crystal lattice is compatible with Si, making it possible to integrate it with non-magnet…