# Ground states of long-range interacting fermions in one spatial   dimension

**Authors:** Zhi-Hua Li

arXiv: 1904.12244 · 2019-04-30

## TL;DR

This paper investigates the ground state phases of one-dimensional long-range interacting fermions, revealing the conditions for Luttinger liquid validity, the nature of metal-insulator transitions, and discrepancies with theoretical predictions.

## Contribution

It provides a comprehensive phase diagram for long-range 1D fermions and tests the limits of Luttinger liquid theory using density matrix renormalization group methods.

## Key findings

- Luttinger liquid theory holds for $\alpha$ above a threshold
- Identified a metallic phase with finite charge gaps for $0 \\leq \\alpha \\leq 1$
- Discrepancies found between bosonization formulas and numerical results

## Abstract

We explore systematically the ground state properties of one dimensional fermions with long-range interactions decaying in a power law $\sim1/r^\alpha$ through the density matrix renormalization group algorithm. By comparing values of Luttinger liquid parameters precisely measured in two different ways, we show convincing evidence that Luttinger liquid theory is valid if $\alpha$ is larger than some threshold, otherwise the theory breakdown. Combining analysis on structure factor, charge gap and charge stiffness, we determine how the metal-insulator transition point develops as the interaction range is continuously tuned. A region in the range of $0\leq\alpha\leq1$ and small interactions has finite charge gaps, but, interestingly, it shows metallic nature at the same time. From these, we obtain approximate phase diagrams for the entire parameter space and for band fillings equal 1/2 and 1/3. Finally, we compare certain bosonization and field theory formula with our quasi-exact numerical results, from which disagreements are found.

## Full text

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## Figures

16 figures with captions in the complete paper: https://tomesphere.com/paper/1904.12244/full.md

## References

45 references — full list in the complete paper: https://tomesphere.com/paper/1904.12244/full.md

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Source: https://tomesphere.com/paper/1904.12244