O. Bengone scite author profile

The so-called local density approximation plus the multi-orbital mean-field Hubbard model (LDA+U) has been implemented within the all-electron projector augmented-wave method (PAW), and then used to compute the insulating antiferromagnetic ground state of NiO and its optical properties. The electronic and optical properties have been investigated as a function of the Coulomb repulsion parameter U . We find that the value obtained from constrained LDA (U = 8 eV) is not the best possible choice, whereas an intermediate value (U = 5 eV) reproduces the experimental magnetic moment and optical properties satisfactorily. At intermediate U , the nature of the band gap is a mixture of charge transfer and Mott-Hubbard type, and becomes almost purely of the charge-transfer type at higher values of U . This is due to the enhancement of the oxygen 2p states near the top of the valence states with increasing U value.

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Disordered magnetic multilayers: Electron transport within the coherent potential approximation

Carva

et al. 2006

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Electronic structure and magnetism of Mn-doped GaN

2003

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Mn doped semiconductors are extremely interesting systems due to their novel magnetic properties suitable for the spintronics applications. It has been shown recently by both theory and experiment that Mn doped GaN systems have a very high Curie temperature compared to that of Mn doped GaAs systems. To understand the electronic and magnetic properties, we have studied Mn doped GaN system in detail by a first principles plane wave method. We show here the effect of varying Mn concentration on the electronic and magnetic properties. For dilute Mn concentration, d states of Mn form an impurity band completely separated from the valence band states of the host GaN. This is in contrast to the Mn doped GaAs system where Mn d states in the gap lie very close to the valence band edge and hybridizes strongly with the delocalized valence band states. To study the effects of electron correlation, LSDA+U calculations have been performed. Calculated exchange interaction in (Mn,Ga)N is short ranged in contrary to that in (Mn,Ga)As where the strength of the ferromagnetic coupling between Mn spins is not decreased substantially for large Mn-Mn separation. Also, the exchange interactions are anisotropic in different crystallographic directions due to the presence or absence of connectivity between Mn atoms through As bonds.

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O. Bengone

Implementation of the projector augmented-wave LDA+U method: Application to the electronic structure of NiO

Disordered magnetic multilayers: Electron transport within the coherent potential approximation

Electronic structure and magnetism of Mn-doped GaN

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