Three-Dimensional Dirac Electrons at the Fermi Energy in Cubic Inverse
  Perovskites: Ca_3PbO and its Family

Blaha P.; Fukuyama H.; Fuseya Y.; Geim A. K.; Gunlycke D.; Haddadi K.; Hasan M. Z.; Katayama S.; MacDonald A. H.; Novoselov K. S.; Ortiz C.; Rycerz A.; Sun Y.; Tajima N.; Wehrli L.; Widera A.; Wolff P. A.; Zhang Y.

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Three-Dimensional Dirac Electrons at the Fermi Energy in Cubic Inverse Perovskites: Ca_3PbO and its Family

Authors: Blaha P.
Fukuyama H.
Fuseya Y.
Geim A. K.
Gunlycke D.
Haddadi K.
Hasan M. Z.
Katayama S.
MacDonald A. H.
Novoselov K. S.
Ortiz C.
Rycerz A.
Sun Y.
Tajima N.
Wehrli L.
Widera A.
Wolff P. A.
Zhang Y.
Publication date: 18 August 2011
Publisher: 'Japan Society of Applied Physics'
Doi

Abstract

The band structure of cubic inverse perovskites, Ca_3PbO and its family, are investigated with the first-principles method. A close observation of the band structure reveals that six equivalent Dirac electrons with a very small mass exist on the line connecting the Gamma- and X-points, and at the symmetrically equivalent points in the Brillouin zone. The discovered Dirac electrons are three-dimensional and remarkably located exactly at the Fermi energy. A tight-binding model describing the low-energy band structure is also constructed and used to discuss the origin of the Dirac electrons in this material. Materials related to Ca_3PbO are also studied, and some design principles for the Dirac electrons in this series of materials are proposed.Comment: 4.2 pages, refined versio

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