Critically fixed Thurston maps: classification, recognition, and twisting
Abstract
An orientation-preserving branched covering map is called a critically fixed Thurston map if fixes each of its critical points. It was recently shown that there is an explicit one-to-one correspondence between M\"obius conjugacy classes of critically fixed rational maps and isomorphism classes of planar embedded connected graphs. In the paper, we generalize this result to the whole family of critically fixed Thurston maps. Namely, we show that each critically fixed Thurston map is obtained by applying the blow-up operation, introduced by Kevin Pilgrim and Tan Lei, to a pair , where is a planar embedded graph in without isolated vertices and is an orientation-preserving homeomorphism of that fixes each vertex of . This result allows us to provide a classification of combinatorial equivalence classes of critically fixed Thurston maps. We also develop an algorithm that reconstructs (up to isotopy) the pair associated with a critically fixed Thurston map . Finally, we solve some special instances of the twisting problem for the family of critically fixed Thurston maps obtained by blowing up pairs .
Keywords
Cite
@article{arxiv.2212.14759,
title = {Critically fixed Thurston maps: classification, recognition, and twisting},
author = {Mikhail Hlushchanka and Nikolai Prochorov},
journal= {arXiv preprint arXiv:2212.14759},
year = {2026}
}
Comments
62 pages, 18 figures, to appear in Proceeding of the LMS