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arxiv: 2502.10964 · v1 · pith:GQYNGI5L · submitted 2025-02-16 · math.AT · math.AG

The equivariant degree and an enriched count of rational cubics

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classification math.AT math.AG
keywords equivariantdegreecountcubicslocalmathbbrationalwhen
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We define the equivariant degree and local degree of a proper $G$-equivariant map between smooth $G$-manifolds when $G$ is a compact Lie group and prove a local to global result. We show the local degree can be used to compute the equivariant Euler characteristic of a smooth, compact $G$-manifold and the Euler number of a relatively oriented $G$-equivariant vector bundle when $G$ is finite. As an application, we give an equivariantly enriched count of rational plane cubics through a $G$-invariant set of 8 general points in $\mathbb{C}\mathbb{P}^2$, valued in the representation ring and Burnside ring of a finite group. When $\mathbb{Z}/2$ acts by pointwise complex conjugation this recovers a signed count of real rational cubics.

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