English

Deriving the one-electron Spectral Function for the 1D Hubbard Model

Strongly Correlated Electrons 2023-11-30 v2

Abstract

This pre-print deals with the one dimensional Hubbard model, as described by the Pseudofermion Dynamical Theory (PDT), with the purpose of (1) deriving a novel expression for the one electron spectral function for all values of the on-site repulsion U/tU/t and filling n(0,1)n \in (0,1), at vanishing magnetisation m0m \rightarrow 0, and (2) discover how to correctly compare the results originating from two different theoretical frameworks in the U/tU/t \rightarrow \infty limit, as a first-test of the novel expressions obtained in this paper. Thus, an exact expression of the spectral function is obtained, which is furthermore successfully compared with previously known results in the UU \rightarrow \infty limit. Following the PDT, the expression for the one electron spectral function factorises into a spin part and a charge part for all values of the on-site repulsion U/tU/t, where the dynamical quantum objects are spin zero and η\eta-spin (charge) zero singlet pairs of so-called rotated electrons, which in turn are obtained from the original electrons by a unitary transformation. The spectral function is exemplified for U/t=400U/t = 400, with the purpose of comparing it with the same function obtained by other authors (and other means) in the UU \rightarrow \infty limit. The main pillars of the PDT is presented in a summarised form. For example, we will only be interested in excited energy eigenstates which originate the most significant singular features of the spectral map in the (k,ω)(k,\omega) plane, safely ignoring higher order contributions. Even though emphasis is given on step-by-step derivations where necessary, derivations that have been done elsewhere and/or do not notably contribute to the physical understanding, are sometimes avoided. Therefore, references for further study are given throughout the paper.

Keywords

Cite

@article{arxiv.2311.16954,
  title  = {Deriving the one-electron Spectral Function for the 1D Hubbard Model},
  author = {D. Bozi},
  journal= {arXiv preprint arXiv:2311.16954},
  year   = {2023}
}

Comments

27 pages, 9 figures. version-edit: title page now contains correct contact information

R2 v1 2026-06-28T13:34:23.421Z