What question did this study set out to answer?

This research aims to develop a method to solve the extended Hubbard model for quasi-one-dimensional systems using exact diagonalization.

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February 8, 2026Open Access

An exact diagonalization approach to the electronic structure of quasi-one-dimensional systems

Key Points

This research aims to develop a method to solve the extended Hubbard model for quasi-one-dimensional systems using exact diagonalization.
Developed an exact diagonalization approach in momentum space.
Focused on a limited number of k-points with parameterization.
Applied the method to the extended Hubbard model.
Analyzed low-energy excitation spectra of graphene nanoribbons.
Captured low-energy excitation spectra with high accuracy.
Reproduced essential features of GW-BSE calculations.
Findings closely aligned with experimental results.

Abstract

An exact diagonalization approach is developed to solve the extended Hubbard model in momentum space, aiming to investigate the electronic and optical properties of quasi-one-dimensional systems. By taking only a small number of k-points, with appropriate parameterization, our method is able to capture the low-energy excitation spectra of graphene nanoribbons, reproduce the essential features of the GW-BSE calculations, and give rise to a result closely aligned with the experiment.

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Cite This Study

Huang et al. (Thu,) studied this question.

synapsesocial.com/papers/698829520fc35cd7a88498fe https://doi.org/https://doi.org/10.1063/5.0310421

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