Dynamic structure factor of Luttinger liquids with quadratic energy dispersion and long-range interactions

Abstract

We calculate the dynamic structure factor S (omega, q) of spinless fermions in one dimension with quadratic energy dispersion k2/2m and long range density-density interaction whose Fourier transform fq is dominated by small momentum-transfers q << q0 << kF. Here q0 is a momentum-transfer cutoff and kF is the Fermi momentum. Using functional bosonization and the known properties of symmetrized closed fermion loops, we obtain an expansion of the inverse irreducible polarization to second order in the small parameter q0 / kF. In contrast to perturbation theory based on conventional bosonization, our functional bosonization approach is not plagued by mass-shell singularities. For interactions which can be expanded as fq = f0 + f02 q2/2 + O (q4) with finite f02 we show that the momentum scale qc = 1/ | m f02 | separates two regimes characterized by a different q-dependence of the width gammaq of the collective zero sound mode and other features of S (omega, q). For qc << q << kF we find that the line-shape in this regime is non-Lorentzian with an overall width gammaq of order q3/(m qc) and a threshold singularity at the lower edge.