Quantum phase transitions and collapse of the Mott gap in the $d=1+ε$ dimensional half-filled Hubbard model

Details Quantum phase transitions and collapse of the Mott gap in the $d=1+ε$ dimensional half-filled Hubbard model Quantum phase transitions and collapse of the Mott gap in the $d=1+ε$ dimensional half-filled Hubbard model

1999-10-28

arxiv.org/abs/cond-mat/9910471v2

Physics

Condensed Matter

Strongly Correlated Electrons

12 pages, 10 eps figures

Scientific paper

10.1103/PhysRevB.62.2377

We study the low-energy asymptotics of the half-filled Hubbard model with a circular Fermi surface in $d=1+\epsilon$ continuous dimensions, based on the one-loop renormalization-group (RG) method. Peculiarity of the $d=1+\epsilon$ dimensions is incorporated through the mathematica structure of the elementary particle-partcile (PP) and particle-hole (PH) loops: infrared logarithmic singularity of the PH loop is smeared for $\epsilon>0$. The RG flows indicate that a quantum phase transition (QPT) from a metallic phase to the Mott insulator phase occurs at a finite on-site Coulomb repulsion $U$ for $\epsilon>0$. We also discuss effects of randomness.

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