Energy spectrum of the organic quasi-1D conductors with NNN and correlated hopping

• Main Authors: Yu.Skorenkyy, O.Kramar
• Format: Article
• Language: English
• Published: Institute for Condensed Matter Physics 2006-01-01
• Series: Condensed Matter Physics
• Subjects: quasi-one-dimensional organic conductors; next-nearest-neighbors hopping; correlated hopping; indirect exchange interaction
• Online Access: http://dx.doi.org/10.5488/CMP.9.1.161

A model for organic quasi-one-dimensional conductors (TMTTF)₂X and (TMTSF)₂X is considered. The anisotropic character of these compounds is modelled by two different hopping parameters: t between nearest neighbors (NN) in a chain of tetramethyl-tetrathiafulvalene (TMTTF) or tetramethyl-tetraselenfulvalene (TMTSF) molecules and t< between the chains (NNN - between next nearest neighbors). Taking into account the correlated hopping of electrons allows us to describe the effect of site occupancy on hopping processes. In a regime of strong intraatomic correlation, high energy processes are cut off by applying two successive canonical transformations. An effective model is obtained for concentration of electrons n<1 which contains kinetic exchange terms of antiferromagnetic (AF) nature. Oppositely, NNN hopping and correlated hopping disfavor the AF order. The energy spectrum of the effective model is calculated. Application of the obtained results to quasi-one-dimensional conductors is discussed.