Structural Evolution of 1D Spectral Function from Low- to High-Energy Limits
Abstract
By exactly analyzing the spin-1/2 Luttinger liquid (LL) and numerically solving a model of a mobile impurity electron in the LL, we obtain the one-electron spectral function in a one-dimensional (1D) metal in an entire range of at zero temperature. For near the Fermi point , is featured by two prominent peaks of spinon and (anti)holon representing spin-charge separation, but we also find an additional cusp structure between them. For , this structure evolves as a main peak in by swallowing the antiholon mode and its dispersion relation approaches the one of a free electron, implying the existence of an electron excitation in the whole region, but not quite a quasiparticle in the Fermi liquid due to ever existing power-law decay of the excitation.
Cite
@article{arxiv.1307.1399,
title = {Structural Evolution of 1D Spectral Function from Low- to High-Energy Limits},
author = {Hideaki Maebashi and Yasutami Takada},
journal= {arXiv preprint arXiv:1307.1399},
year = {2014}
}
Comments
5 pages, 3 figures