The electronic structures and magnetic properties of Si(3)CaC(4) in zinc-blende phase has been studied by employing the first-principles method based on density functional theory (DFT). The calculations predict stable ferromagnetic ground state in Si(3)CaC(4), resulting from calcium substitution for silicon. The calculated total magnetic moment is 2.00 mu(B) per supercell, which mainly arises from the Ca and neighboring C atoms. Band structures and density of states studies show half-metallic (HM) ferromagnetic property for Si(3)CaC(4). The ferromagnetic coupling is generally observed between the Ca and C atoms. The ferromagnetism of Si(3)CaC(4) can be explained by the hole-mediated double exchange mechanism. The sensitivity of half-metallicity of Si(3)CaC(4) as a function of lattice constant is also discussed, and the half-metallicity can be kept in a wider lattice constant range.
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[huang, h. m.] hubei univ automot technol, sch sci, shiyan 442002, peoples r china. [yao, k. l.] huazhong univ sci & technol, sch phys, wuhan 430074, peoples r china. [yao, k. l.] chinese acad sci, int ctr mat phys, shenyang 110015, peoples r china.;huang, hm (reprint author), hubei univ automot technol, sch sci, shiyan 442002, peoples r china;smilehhm@163.com
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