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| Format: | Preprint |
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2025
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| Online Access: | https://arxiv.org/abs/2508.12122 |
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| _version_ | 1866913993840394240 |
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| author | Adams, Ophelia |
| author_facet | Adams, Ophelia |
| contents | The profinite iterated monodromy group (pfIMG) is a self-similar group associated to dynamical systems. We show that its proper open self-similar subgroups correspond to highly rigid semiconjugacies, which we partly classify in general. For polynomials, we show that only the twisted Chebyshev maps can arise. Next, we define and construct self-similar closures of subgroups of pfIMGs, and show that this preserves many group-theoretic properties of the original subgroup. As a consequence, we conclude that pfIMGs with open subgroups satisfying certain properties (e.g. prosolvable or pronilpotent) either satisfy that property themselves, or arise from one of these exceptional semiconjugacies.
This is applied to answer some questions posed in [BGJT25] about open Frattini subgroups of pfIMGs: unicritical polynomials of composite degree do not have an open Frattini subgroup, and a polynomial with an open Frattini subgroup is often pro-\(p\). |
| format | Preprint |
| id |
arxiv_https___arxiv_org_abs_2508_12122 |
| institution | arXiv |
| publishDate | 2025 |
| record_format | arxiv |
| spellingShingle | Semiconjugacy and Self-Similar Subgroups of pfIMGs Adams, Ophelia Number Theory 37P05 (Primary) 20E08, 20D25 (Secondary) The profinite iterated monodromy group (pfIMG) is a self-similar group associated to dynamical systems. We show that its proper open self-similar subgroups correspond to highly rigid semiconjugacies, which we partly classify in general. For polynomials, we show that only the twisted Chebyshev maps can arise. Next, we define and construct self-similar closures of subgroups of pfIMGs, and show that this preserves many group-theoretic properties of the original subgroup. As a consequence, we conclude that pfIMGs with open subgroups satisfying certain properties (e.g. prosolvable or pronilpotent) either satisfy that property themselves, or arise from one of these exceptional semiconjugacies. This is applied to answer some questions posed in [BGJT25] about open Frattini subgroups of pfIMGs: unicritical polynomials of composite degree do not have an open Frattini subgroup, and a polynomial with an open Frattini subgroup is often pro-\(p\). |
| title | Semiconjugacy and Self-Similar Subgroups of pfIMGs |
| topic | Number Theory 37P05 (Primary) 20E08, 20D25 (Secondary) |
| url | https://arxiv.org/abs/2508.12122 |