Polaron versus bipolaron in conducting polymers: a density matrix renormalization group study
Abstract
Competition between polaron and bipolaron inconjugated polymers with nondegenerate ground state is systematically studied in the extended Hubbard-Peierls model with the symmetry-breaking Brazovskii-Kirova term, using the density matrix renormalization group method combined with lattice optimization in the adiabatic approximation. We demonstrate that the relative stability of a bipolaron over two separated polarons sensitively depends on both on-site Hubbard U and nearest-neighbor repulsion V. When U is much larger than V, the bipolaron state is more stabilized compared with mean field calculations.
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