Spin Gap and Superconductivity in Weakly Coupled Ladders: Interladder One-particle vs. Two-particle Crossover
Abstract
Effects of the interladder one-particle hopping, t, on the low-energy asymptotics of a weakly coupled Hubbard ladder system have been studied, based on the perturbative renormalization-group approach. We found that for finite intraladder Hubbard repulsion, U, there exists a crossover value of the interladder one-particle hopping, t c. For 0<t<t c, the spin gap metal (SGM) phase of the isolated ladder transits at a finite transition temperature, Tc, to the d-wave superconducting (SCd) phase via a two-particle crossover. In the temperature region, T<Tc, interladder coherent Josephson tunneling of the Cooper pairs occurs, while the interladder coherent one-particle process is strongly suppressed. For t c<t, around a crossover temperature, Tcross, the system crosses over to the two-dimensional (2D) phase via a one-particle crossover. In the temperature region, T<Tcross, the interladdercoherent band motion occurs.
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