Bosonization approach to charge and spin dynamics of 1D fermions with band-curvature

Abstract

We consider one-dimensional (1D) spin-1/2 fermions in a clean quantum wire, with forward scattering interactions and a non-linear single-particle spectrum, k = v|k| + k2/2m where v is the Fermi velocity and 1/m is the band-curvature. We calculate the dynamical structure factor (DSF) of the model at small wave-vector q with the help of the bosonization technique. For spinless fermions, we show that, starting from the single-parametric spectrum: = u |q|, bosonization emulates the 2-parametric excitation spectrum: = u |q| q2/2m*, where m* decreases with increasing repulsive interactions. Moreover, away from the excitation-cone, i.e. u |q|, bosonization yields the 2-pair excitation continuum of the DSF. For spinful fermions, we show that the spin-charge coupling (SCC) due to band-curvature affects charge and spin DSF in an asymmetric way. For the charge DSF, SCC manifests as a two-peak structure: a charge peak at = u |q| but also a spin peak at = uσ |q|, as charge fluctuations may decay via chargeless spin-singlet excitations. For the magnetic DSF, SCC manifests as a continuous transfer of magnetic spectral weight to frequencies > uσ |q|, as spin fluctuations decay via pairs of chargeless spin and spinless charge-neutral excitations.

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