# Bounded particle interactions driven by a nonlocal dual Chern-Simons   model

**Authors:** Van S\'ergio Alves, E. C. Marino, Leandro O. Nascimento, J. F., Medeiros Neto, Rodrigo F. Ozela, Rudnei O. Ramos

arXiv: 1901.00513 · 2019-10-03

## TL;DR

This paper introduces a duality between a nonlocal Chern-Simons modified pseudo-QED and the Chern-Simons Higgs model, revealing bounded electron pairs and potential for topological matter states.

## Contribution

It demonstrates the quantum duality of a nonlocal Chern-Simons pseudo-QED with the Chern-Simons Higgs model and analyzes the resulting particle interactions and bound states.

## Key findings

- Bound electron pairs with inverse proportionality to topological mass
- Explicit gauge invariance and unitarity of the nonlocal model
- Potential for topological states of matter from particle interactions

## Abstract

Quantum electrodynamics (QED) of electrons confined in a plane and that yet can undergo interactions mediated by an unconstrained photon has been described by the so-called {\it pseudo-QED} (PQED), the (2+1)-dimensional version of the equivalent dimensionally reduced original QED. In this work, we show that PQED with a nonlocal Chern-Simons term is dual to the Chern-Simons Higgs model at the quantum level. We apply the path-integral formalism in the dualization of the Chern-Simons Higgs model to first describe the interaction between quantum vortex particle excitations in the dual model. This interaction is explicitly shown to be in the form of a Bessel-like type of potential in the static limit. This result {\it per se} opens exciting possibilities for investigating topological states of matter generated by interactions, since the main difference between our new model and the PQED is the presence of a nonlocal Chern-Simons action. Indeed, the dual transformation yields an unexpected square root of the d'Alembertian operator, namely, $(\sqrt{-\Box})^{-1}$ multiplied by the well-known Chern-Simons action. Despite the nonlocality, the resulting model is still gauge invariant and preserves the unitarity, as we explicitly prove. {}Finally, when coupling the resulting model to Dirac fermions, we then show that pairs of bounded electrons are expected to appear, with a typical distance between the particles being inversely proportional to the topologically generated mass for the gauge field in the dual model.

## Full text

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## References

24 references — full list in the complete paper: https://tomesphere.com/paper/1901.00513/full.md

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Source: https://tomesphere.com/paper/1901.00513