Polynomial Inscriptions
We prove that for every smooth Jordan curve $\gamma \subset \mathbb{C}$ and for every set $Q \subset \mathbb{C}$ of six concyclic points, there exists a non-constant quadratic polynomial $p \in \mathbb{C}[z]$ such that $p(Q) \subset \gamma$. The proof relies on a theorem of Fukaya and Irie. We also...
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| Zusammenfassung: | We prove that for every smooth Jordan curve $\gamma \subset \mathbb{C}$ and
for every set $Q \subset \mathbb{C}$ of six concyclic points, there exists a
non-constant quadratic polynomial $p \in \mathbb{C}[z]$ such that $p(Q) \subset
\gamma$. The proof relies on a theorem of Fukaya and Irie. We also prove that
if $Q$ is the union of the vertex sets of two concyclic regular $n$-gons, there
exists a non-constant polynomial $p \in \mathbb{C}[z]$ of degree at most $n-1$
such that $p(Q) \subset \gamma$. The proof is based on a computation in Floer
homology. These results support a conjecture about which point sets $Q \subset
\mathbb{C}$ admit a polynomial inscription of a given degree into every smooth
Jordan curve $\gamma$. |
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| DOI: | 10.48550/arxiv.2412.09546 |