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Rigidity of the escaping set of polynomial automorphisms of $\mathbb{C}^2$

Published 12 Jan 2026 in math.CV and math.DS | (2601.07681v1)

Abstract: Let $H$ be a polynomial automorphism of $\mathbb{C}2$ of positive entropy and degree $d \ge 2$. We prove that the escaping set $U+$ (or equivalently, the non-escaping set $K+$), of $H$ is rigid under the action of holomorphic automorphisms of $\mathbb{C}2$. Specifically, every holomorphic automorphism of $\mathbb{C}2$ that preserves $U+$ takes the form $L \circ Hs$ where $s \in \mathbb{Z}$ and $L$ belongs to a finite cyclic group of affine maps that preserve the escaping set. Second, note that the sub-level sets ${G+ < c}$, $c > 0$, of the Greens function $G+$ associated with the map $H$ are canonical examples of Short $\mathbb{C}2$s. As a consequence of the above theorem, we show that the holomorphic automorphisms of these Short $\mathbb{C}2$s are affine automorphisms of $\mathbb{C}2$ preserving the escaping set $U+$. Hence, the automorphism group of these Short $\mathbb{C}2$s are the same for every $c>0$ and is a finite cyclic group.

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