# Quantum oscillations in Weyl semimetals - a surface theory approach

**Authors:** Jan Borchmann, T. Pereg-Barnea

arXiv: 1704.07282 · 2017-10-03

## TL;DR

This paper develops a surface theory for Weyl semimetals to analyze quantum oscillations, revealing how bulk tunneling and Weyl point proximity influence phase offsets in oscillation patterns.

## Contribution

It introduces an effective surface theory that captures surface-bulk interactions and explains phase offsets in quantum oscillations near Weyl points.

## Key findings

- Surface quantum oscillations are affected by bulk tunneling.
- Proximity of Weyl points causes phase offsets in oscillations.
- Bulk chiral Landau levels are essential for orbit completion.

## Abstract

We develop an effective surface theory for the surface states of a Weyl semimetal. This theory includes the peculiar Fermi arc states on the surface as well as leakage of the states from the surface to the bulk. Subjecting the model to a magnetic field perpendicular to the surface results in quantum oscillations. The oscillations are different from the usual ones since they do not involve a closed Fermi surface cross section. It has been shown previously that the Quantum oscillations can be understood semiclassically as resulting from motion of electrons on the surface Fermi arcs as well as tunneling through chiral Landau levels associated with the bulk. In this work we develop an effective surface theory and use it to analyze the quantum oscillation in the semiclassical regime and beyond. Specifically, we show that when a pair of Weyl points are close to each other the surface quantum oscillations acquire a phase offset which originates from the bulk. While the surface states are responsible for a large part of the electron motion, tunneling through the bulk is necessary for completing the orbit. This tunneling makes use of the bulk, zero energy, chiral Landau level in each Weyl node. When the nodes are close in momentum space their chiral levels overlap and a gap at zero energy is formed. This gap causes the phase offset in the surface quantum oscillations.

## Full text

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## Figures

18 figures with captions in the complete paper: https://tomesphere.com/paper/1704.07282/full.md

## References

44 references — full list in the complete paper: https://tomesphere.com/paper/1704.07282/full.md

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Source: https://tomesphere.com/paper/1704.07282