Mott transition and dimerization in the one-dimensional SU(n) Hubbard model
Abstract
The one-dimensional SU(n) Hubbard model is investigated numerically for n=2,3,4, and 5 at half filling and 1/n filling using the density-matrix renormalization-group (DMRG) method. The energy gaps and various quantum information entropies are calculated. In the half-filled case, finite spin and charge gaps are found for arbitrary positive U if n > 2. Furthermore, it is shown that the transition to the gapped phase at U c=0 is of Kosterlitz-Thouless type and is accompanied by a bond dimerization both for even and odd n. In the 1/n-filled case, the transition has similar features as the metal-insulator transition in the half-filled SU(2) Hubbard model. The charge gap opens exponentially slowly for U>U c=0, the spin sector remains gapless, and the ground state is non-dimerized.
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