# Pair spin-orbit interaction in low-dimensional electron systems

**Authors:** Yasha Gindikin, Vladimir A. Sablikov

arXiv: 1905.06340 · 2020-02-12

## TL;DR

This paper reviews the pair spin-orbit interaction (PSOI) in low-dimensional electron systems, highlighting its significant effects on electron binding, collective excitations, and potential instabilities in materials with strong spin-orbit coupling.

## Contribution

It provides a comprehensive analysis of PSOI's nature, manifestations, and effects in one- and two-dimensional structures, including bound states and collective mode behavior.

## Key findings

- PSOI can induce electron attraction in certain spin configurations.
- Strong PSOI leads to mixing of spin and charge excitations.
- At high PSOI, the system exhibits softening of collective modes indicating instability.

## Abstract

The pair spin-orbit interaction (PSOI) is the spin-orbit component of the electron-electron interaction that originates from the Coulomb fields of the electrons. This relativistic component, which has been commonly assumed small in the low-energy approximation, appears large and very significant in materials with the strong SOI. The PSOI, being determined by the spins and momenta of electrons, has highly unusual properties among which of most interest is the mutual attraction of the electrons in certain spin configurations. We review the nature of the PSOI in solids and its manifestations in low-dimensional systems that have been studied to date. The specific results depend on the configuration of the Coulomb fields in a particular structure. The main actual structures are considered: one-dimensional quantum wires and two-dimensional layers, both suspended and placed in various dielectric media, as well as in the presence of a metallic gate. We discuss the possible types of the two-electron bound states, the conditions of their formation, their spectra together with the spin and orbital structure. In a many-particle system, the PSOI breaks the spin-charge separation as a result of which spin and charge degrees of freedom are mixed in the collective excitations. At sufficiently strong PSOI, one of the collective modes softens. This signals of the instability, which eventually leads to the reconstruction of the homogeneous state of the system.

## Full text

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## Figures

16 figures with captions in the complete paper: https://tomesphere.com/paper/1905.06340/full.md

## References

87 references — full list in the complete paper: https://tomesphere.com/paper/1905.06340/full.md

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Source: https://tomesphere.com/paper/1905.06340