Incommensurate Antiferromagnetic Insulating State in (MDT-TS)(AuI2)x

Abstract

We theoretically study the metal-insulator transition in a molecular conductor (MDT-TS)(AuI2)x composed with an incommensurate ratio (x = 0.441), where the conduction band originated from the HOMO of donor MDT-TS molecules is incommensurately filled. We consider a two-dimensional Hubbard model taking account of anisotropic transfer integrals in the donor layer, under a periodic potential due to the anions (AuI2)- which mismatches the donor lattice period, and investigate the ground state within mean-field approximation. An antiferromagnetic insulating state with induced charge disproportionation is obtained in the large U region; this corresponds to the incommensurate Mott insulating state predicted previously [H. Yoshioka et al.: 7420051922] based on a simplified one-dimensional model.