Joshua D. Barr, Justin P. Bergfield, Charles A. Stafford
Published 2011-07-29, updated 2012-09-13Version 4
We develop a \pi-electron effective field theory (\pi-EFT) wherein the two-body Hamiltonian for a \pi-electron system is expressed in terms of three effective parameters: the \pi-orbital quadrupole moment, the on-site repulsion, and a dielectric constant. As a first application of this \pi-EFT, we develop a model of screening in molecular junctions based on image multipole moments, and use this to investigate the reduction of the HOMO-LUMO gap of benzene. Beyond this, we also use \pi-EFT to calculate the differential conductance spectrum of the prototypical benzenedithiol-Au single-molecule junction and the \pi-electron contribution to the van der Waals interaction between benzene and a metallic electrode.
Comments: 13 pages, 9 figures
Journal: Phys. Rev. B 86, 115403 (2012)
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