# Symmetries of complex analytic vector fields with an essential   singularity on the Riemann sphere

**Authors:** Alvaro Alvarez-Parrilla, Jes\'us Muci\~no-Raymundo

arXiv: 1904.11667 · 2021-10-19

## TL;DR

This paper classifies symmetries of complex analytic vector fields with an essential singularity on the Riemann sphere, providing explicit normal forms and a detailed analysis of their automorphism groups.

## Contribution

It introduces a comprehensive framework for understanding the symmetries of a broad family of complex vector fields with essential singularities, including explicit normal forms and symmetry classifications.

## Key findings

- Calculated isotropy groups for the vector fields.
- Established conditions for trivial and non-trivial symmetries.
- Presented explicit global normal forms for the vector fields.

## Abstract

We consider the family   $\mathcal{E}(s,r,d)=\Big\{ X(z)=\frac{Q(z)}{P(z)}\ e^{E(z)} \frac{\partial}{\partial z} \Big\},$   with $Q, P, E$ polynomials, deg${Q}=s$, deg$(P)=r$ and deg$(E)=d$, of singular complex analytic vector fields $X$ on the Riemann sphere $\widehat{\mathbb{C}}$. For $d\geq1$, $X\in\mathcal{E}(s,r,d)$ has $s$ zeros and $r$ poles on the complex plane and an essential singularity at infinity. Using the pullback action of the affine group $Aut(\mathbb{C})$ and the divisors for $X$, we calculate the isotropy groups $Aut(\mathbb{C})_{X}$ and the discrete symmetries for $X\in\mathcal{E}(s,r,d)$. Each subfamily $\mathcal{E}(s,r,d)_{id}$, of those $X$ with trivial isotropy group in $Aut(\mathbb{C})$, is endowed with a holomorphic trivial principal $Aut(\mathbb{C})$-bundle structure. Necessary and sufficient conditions in order to ensure the equality $\mathcal{E}(s,r,d)=\mathcal{E}(s,r,d)_{id}$ and those $X\in\mathcal{E}(s,r,d)$ with non-trivial isotropy are realized. Explicit global normal forms for $X\in\mathcal{E}(s,r,d)$ are presented. A natural dictionary between vector fields, 1-forms, quadratic differentials and functions is extended to include the presence of non-trivial discrete symmetries $\Gamma<Aut(\mathbb{C})$.

## Full text

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## Figures

18 figures with captions in the complete paper: https://tomesphere.com/paper/1904.11667/full.md

## References

34 references — full list in the complete paper: https://tomesphere.com/paper/1904.11667/full.md

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Source: https://tomesphere.com/paper/1904.11667