Plaquette chirality patterns for robust zero-gap states in α-type organic conductor

Abstract

Dirac electrons with a zero-gap state (ZGS) in organic conductor α-(BEDT-TTF)2I3 result from a fine tuning of the seven nearest neighbors transfer integrals (a1, a2, a3, b1, b2, b3, b4) between the four molecules of the unit cell. In this work we show that for given moduli |a1|,...|b4|, the possibility of having Dirac electron with a ZGS at 3/4 (or 1/4) filling strongly depends on the specific configurations of signs of the seven transfer integral. More precisely it is possible to classify the sign configurations into essentially four classes determined by a= sign (a2a3) and b= sign (b1b2b3b4). Using extended numerics, we show that for both weak and large inhomogeneity in the moduli, the class (a,b)=(-,-) is the most favorable to find Dirac electrons with ZGS at 3/4 (or 1/4) filling. For the class (a,b)=(+,+) in the opposite case, we never found any ZGS at either 1/4 or 3/4 filling. The last two classes given by (a,b)=(+,-) and (a,b)=(-,+) corresponding to an intermediate situation; they allow for ZGS at 3/4 (resp. 1/4) filling but are much less favorable than class (a,b)=(-,-). As a matter of fact, all previous numerical studies of Dirac electrons and ZGS in α-(BEDT-TTF)2I3 correspond to class (a,b)=(-,+).