Publisher DOI: 10.1103/PhysRevB.84.144431
Title: Ab initio study of the magnetic ordering in Si/Mn digital alloys
Language: 
Authors: Otrokov, M. M. 
Ernst, Arthur 
Tugushev, V. V. 
Ostanin, Sergey 
Buczek, Pawel  
Sandratskii, Leonid M. 
Fischer, G. 
Hergert, W. 
Mertig, Ingrid 
Kuznetsov, V. M. 
Chulkov, E. V. 
Issue Date: 31-Oct-2011
Publisher: American Physical Society
Journal or Series Name: Physical Review B : Condensed Matter and Materials Physics 
Volume: 84
Issue: 14
Startpage: 144431
Abstract: 
We present a first-principles study of the electronic structure and exchange interactions in Si/Mn digital magnetic alloy (DMA) consisting of Mn monolayers embedded in a Si matrix stacking along [001] direction. The main focus of our study is on the dependence of magnetic properties on the morphology of the Mn monolayer. Three different structural models for the Mn monolayer are considered: manganese in substitutional (i), interstitial (ii), and both interstitial and substitutional (iii) positions. The atomic positions in Si/Mn DMA are determined by means of the VASP code and then serve as input for multiple-scattering calculations of the electronic and magnetic structure. The magnetic force theorem is used to evaluate the exchange coupling parameters. A Heisenberg model based on those parameters is used to estimate magnon frequencies and magnetic phase-transition temperatures for different anisotropies. The magnetic properties of Si/Mn DMA are found to be strongly dependent on the underlying crystalline structure. © 2011 American Physical Society.
URI: http://hdl.handle.net/20.500.12738/10857
ISSN: 2469-9977
Institute: Max-Planck-Institut für Mikrostrukturphysik 
Type: Article
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