2011
DOI: 10.1103/physrevb.84.201201
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Spin-orbit coupling effect in (Ga,Mn)As films: Anisotropic exchange interactions and magnetocrystalline anisotropy

Abstract: The magnetocrystalline anisotropy (MCA) of (Ga,Mn)As films has been studied on the basis of ab initio electronic structure theory by performing magnetic torque calculations. An appreciable contribution to the in-plane uniaxial anisotropy can be attributed to an extended region adjacent to the surface. Calculations of the exchange tensor allow to ascribe a significant part to the MCA to the exchange anisotropy, caused either by a tetragonal distortion of the lattice or by the presence of the surface or interfac… Show more

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Cited by 23 publications
(11 citation statements)
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“…On the theoretical side, enduring progress in the reliability of ab initio methods is expected. From the DFS perspective, in addition to the issue of results' convergence as a function of the energy cut-off, density of k points, and the number of atoms in the supercells, three experimentally relevant challenges, of differing numerical complexity, can be given: (i) the incorporation of the spin-orbit interaction that significantly affects the band structure of DFSs and accounts for magnetic anisotropy effects -some progress in that direction has already been reported (Mankovsky et al, 2011); (ii) the improved treatment of the exchange-correlation functional, so that more realistic values of the band-gap and d-level positions can be predicted as well as Mott-Hubbard localization of d electrons handled adequately -here also improved computational schemes are being implemented (see, e. g., Di Stroppa and Kresse, 2009); (iii) the development of methods that would be able to tackle Anderson-Mott localization phenomena, such as the appearance of the Coulomb gap in the density of states at the Fermi level.…”
Section: Discussionmentioning
confidence: 99%
“…On the theoretical side, enduring progress in the reliability of ab initio methods is expected. From the DFS perspective, in addition to the issue of results' convergence as a function of the energy cut-off, density of k points, and the number of atoms in the supercells, three experimentally relevant challenges, of differing numerical complexity, can be given: (i) the incorporation of the spin-orbit interaction that significantly affects the band structure of DFSs and accounts for magnetic anisotropy effects -some progress in that direction has already been reported (Mankovsky et al, 2011); (ii) the improved treatment of the exchange-correlation functional, so that more realistic values of the band-gap and d-level positions can be predicted as well as Mott-Hubbard localization of d electrons handled adequately -here also improved computational schemes are being implemented (see, e. g., Di Stroppa and Kresse, 2009); (iii) the development of methods that would be able to tackle Anderson-Mott localization phenomena, such as the appearance of the Coulomb gap in the density of states at the Fermi level.…”
Section: Discussionmentioning
confidence: 99%
“…The cubic magnetocrystalline anisotropy K c reflects the zinc-blende crystal structure of the host semiconductor. The origin of the additional uniaxial anisotropy component along the in-plane diagonal K u is associated with a more subtle symmetry breaking mechanism introduced during the epilayer growth (Birowska et al, 2012;Kopecky et al, 2011;Mankovsky et al, 2011). The sizable magnitudes of K c and K u and the different doping trends of these two in-plane magnetic anisotropy constants (see Fig.…”
Section: Micromagnetic Parametersmentioning
confidence: 95%
“…This suggests that Mn e 1g orbitals are less influenced by SO, possibly due to it being present at deep below the Fermi level, where inversion asymmetry induced SO may not be effective. 29 Based on the results of CIS plots, a schematic band energy diagram is shown in Fig. 3(b), which reflects that the O-2p states are spread throughout the valence band and their contribution dominates over the Mn-3d states near the Fermi level.…”
mentioning
confidence: 97%