A Scaling Approach for Interacting Quantum Wires -a Possible Explanation for the 0.7 Anomalous Conductance

Abstract

We consider a weakly interacting finite wire with short and long range interactions. The long range interactions enhance the 4kF scattering and renormalize the wire to a strongly interacting limit. For large screening lengths, the renormalized charge stiffness Luttinger parameter Keff. decreases to Keff.< 1/2, giving rise to a Wigner crystal at T=0 with an anomalous conductance at finite temperatures. For short screening lengths, the renormalized Luttinger parameter Keff. is restricted to 1/2≤ Keff.≤ 1. As a result, at temperatures larger than the magnetic exchange energy we find an interacting metal which for Keff.≈ 1/2 is equivalent to the Hubbard U∞ model, with the anomalous conductance G≈e2h .