Abstract
We studied the electronic and the structural properties of iron monosilicide in low-pressure ɛ-phase structure and in the high-pressure CsCl structure via pseudopotential plane wave density functional calculations within the local spin density approximation (LSDA) and the generalized gradient approximation (GGA). The relaxation of the internal parameters of ɛ-FeSi opens up the band gap in the LSDA while it only increases the magnitude of the band gap in the GGA The structural transition from the ɛ-phase to the CsCl-phase is estimated to occur at about 19 GPa in GGA, in good agreement with the synthesis of the CsCl-phase of FeSi at 24 GPa.
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