Renormalization-Group Approach to a Three-Legs Fermionic Ladder

Abstract

We study the spin and charge phase diagram of a three-legs ladder (at zero temperature) as a function of fermion density and of transverse single-particle hopping by means of a Renormalization-Group analysis rigorously controlled in the weak-coupling limit. Periodic boundary conditions in the direction transverse to the ladder produce frustrated magnetic excitations yielding a spin-gapped phase in a large region about and at half filling. Spin correlations are instead enhanced when open transverse boundary conditions are considered, yielding an ungapped phase in a wide region about half filling (as observed in the Srn-1Cun+1O2n stripes compounds) and at half filling down to a critical value of the transverse hopping t. At that critical value, the system undergoes a Mott transition at half filling by decreasing t.

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