Seebeck Coefficient of Two-dimensional Dirac Electrons in Organic Conductor under Pressure

Abstract

The Seebeck coefficient, which is proportional to a ratio of the thermoelectric conductivity to electrical conductivity has been examined for Dirac electrons in the organic conductor α-(BEDT-TTF)2I3 [BEDT-TTF denotes a molecule given by bis(ethylenedithio)tetrathiafulvalene] under a uniaxial pressure using a two-dimensional tight-binding model with both impurity and electron--phonon (e--p) scatterings. We calculate an anomalous temperature (T) dependence of the Seebeck coefficient S with = x (perpendicular to the molecular stacking axis) and y, which shows S > 0 with a maximum at high temperatures and S < 0 with a minimum at low temperatures.The microscopic mechanism of such a sign change of S is clarified in terms of the spectral conductivity. The result is compared with experiments on α-(BEDT-TTF)2I3.

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