Two-dimensional pentagonal crystals and possible spin-polarized Dirac dispersion relations

Two-dimensional pentagonal crystals and possible spin-polarized Dirac dispersion relations

Based on first-principles calculations we show that the two-dimensional pentagonal (pt) structures, the compositions of pt-BN2, pt-C, and pt-Fe2S, are stable. As a common feature, they are composed of 3 components: 2 stretched honeycomb sublattices and 1 square sublattice, conferring flexibility of...

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Veröffentlicht in:Journal of applied physics 2014-03, Vol.115 (11)
Hauptverfasser: Tang, Chi-Pui, Xiong, Shi-Jie, Shi, Wu-Jun, Cao, Jie
Format: Artikel
Sprache:eng
Schlagworte:
ANISOTROPY
Applied physics
BORON NITRIDES
CONDENSED MATTER PHYSICS, SUPERCONDUCTIVITY AND SUPERFLUIDITY
Cones
CRYSTAL STRUCTURE
CRYSTALS
Dispersion
DISPERSION RELATIONS
Electrons
First principles
FLEXIBILITY
GRAPHENE
Honeycomb construction
IRON SULFIDES
SPIN
SPIN ORIENTATION
TWO-DIMENSIONAL CALCULATIONS
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Zusammenfassung:Based on first-principles calculations we show that the two-dimensional pentagonal (pt) structures, the compositions of pt-BN2, pt-C, and pt-Fe2S, are stable. As a common feature, they are composed of 3 components: 2 stretched honeycomb sublattices and 1 square sublattice, conferring flexibility of tailoring the properties peculiar to the graphene. Although the Dirac dispersion relation is removed in metallic pt-BN2 and insulating pt-C due to the hybridization of two honeycomb sublattices, it survives in pt-Fe2S because of the suppression of such hybridization between different spins. As a result, in the dispersion relation of pt-Fe2S spin-polarized and anisotropic Dirac cones occur. We suggest that such type of dispersion relation can be used to produce spin-filter effect by applying electric bias in a specific direction.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.4868679