# Parity singlets and doublets of massive spin-3 particles in $D=2+1$ via   Nother gauge embedding

**Authors:** D.Dalmazi, E. L. Mendon\c{c}a, A. L. R. dos Santos

arXiv: 1905.09853 · 2019-05-27

## TL;DR

This paper explores the derivation of higher-order spin-3 particle models in 2+1 dimensions using Noether Gauge Embedding, revealing dualities between different order theories and establishing field mappings.

## Contribution

It introduces a systematic NGE approach to generate sixth order spin-3 models from fifth order models and establishes dualities between Singh-Hagen and higher-order theories.

## Key findings

- Derived sixth order spin-3 self-dual model from fifth order via NGE.
- Established duality between Singh-Hagen and higher-order models.
- Provided explicit dual maps between fields in different models.

## Abstract

Here we demonstrate that the sixth order (in derivatives) spin-3 self-dual model can be obtained from the fifth order self-dual model via a Noether Gauge Embedding (NGE) of longitudinal Weyl transformations $\eta_{(\mu\nu}\partial_{\alpha)}\Phi$. In the case of doublet models we can show that the massive spin-3 Singh-Hagen theory is dual to a fourth and to a sixth order theory, via a double round of the NGE procedure by imposing traceless longitudinal (reparametrization-like) symmetries $\partial_{(\mu}\tilde{\xi}_{\nu\alpha)}$ in the first round and transverse Weyl transformations $\eta_{(\mu\nu}\psi^T_{\alpha)}$ in the second one. Our procedure automatically furnishes the dual maps between the corresponding fields.

## Full text

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## References

12 references — full list in the complete paper: https://tomesphere.com/paper/1905.09853/full.md

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Source: https://tomesphere.com/paper/1905.09853