arXiv:2405.15378 Abstract | arXiv Analytics

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Dominating surface-group representations via Fock-Goncharov coordinates

Published 2024-05-24Version 1

Let $S$ be a punctured surface of negative Euler characteristic. We show that given a generic representation $\rho:\pi_1(S) \rightarrow \mathrm{PSL}_n(\mathbb{C})$, there exists a positive representation $\rho_0:\pi_1(S) \rightarrow \mathrm{PSL}_n(\mathbb{R})$ that dominates $\rho$ in the Hilbert length spectrum as well as in the translation length spectrum, for the translation length in the symmetric space $\mathbb{X}_n= \mathrm{PSL}_n(\mathbb{C})/\mathrm{PSU}(n)$. Moreover, the $\rho_0$-lengths of peripheral curves remain unchanged. The dominating representation $\rho_0$ is explicitly described via Fock-Goncharov coordinates. Our methods are linear-algebraic, and involve weight matrices of weighted planar networks.

Comments: 39 pages

Categories: math.GT

Keywords: dominating surface-group representations, fock-goncharov coordinates, peripheral curves remain, translation length spectrum, hilbert length spectrum

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