Periodic points of rational area-preserving homeomorphisms

Rohil Prasad

doi:10.1017/etds.2025.10

Periodic points of rational area-preserving homeomorphisms

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Abstract

An area-preserving homeomorphism isotopic to the identity is said to have rational rotation direction if its rotation vector is a real multiple of a rational class. We give a short proof that any area-preserving homeomorphism of a compact surface of genus at least two, which is isotopic to the identity and has rational rotation direction, is either the identity or has periodic points of unbounded minimal period. This answers a question of Ginzburg and Seyfaddini and can be regarded as a Conley conjecture-type result for symplectic homeomorphisms of surfaces beyond the Hamiltonian case. We also discuss several variations, such as maps preserving arbitrary Borel probability measures with full support, maps that are not isotopic to the identity and maps on lower genus surfaces. The proofs of the main results combine topological arguments with periodic Floer homology.

Original language	English (US)
Pages (from-to)	2890-2907
Number of pages	18
Journal	Ergodic Theory and Dynamical Systems
Volume	45
Issue number	9
DOIs	https://doi.org/10.1017/etds.2025.10
State	Published - Sep 1 2025
Externally published	Yes

All Science Journal Classification (ASJC) codes

General Mathematics
Applied Mathematics

Keywords

Hamiltonian dynamics
low-dimensional dynamics
smooth dynamics
symplectic dynamics

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10.1017/etds.2025.10

Cite this

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title = "Periodic points of rational area-preserving homeomorphisms",

abstract = "An area-preserving homeomorphism isotopic to the identity is said to have rational rotation direction if its rotation vector is a real multiple of a rational class. We give a short proof that any area-preserving homeomorphism of a compact surface of genus at least two, which is isotopic to the identity and has rational rotation direction, is either the identity or has periodic points of unbounded minimal period. This answers a question of Ginzburg and Seyfaddini and can be regarded as a Conley conjecture-type result for symplectic homeomorphisms of surfaces beyond the Hamiltonian case. We also discuss several variations, such as maps preserving arbitrary Borel probability measures with full support, maps that are not isotopic to the identity and maps on lower genus surfaces. The proofs of the main results combine topological arguments with periodic Floer homology.",

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T1 - Periodic points of rational area-preserving homeomorphisms

AU - Prasad, Rohil

N1 - Publisher Copyright: © The Author(s), 2025. Published by Cambridge University Press.

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Y1 - 2025/9/1

N2 - An area-preserving homeomorphism isotopic to the identity is said to have rational rotation direction if its rotation vector is a real multiple of a rational class. We give a short proof that any area-preserving homeomorphism of a compact surface of genus at least two, which is isotopic to the identity and has rational rotation direction, is either the identity or has periodic points of unbounded minimal period. This answers a question of Ginzburg and Seyfaddini and can be regarded as a Conley conjecture-type result for symplectic homeomorphisms of surfaces beyond the Hamiltonian case. We also discuss several variations, such as maps preserving arbitrary Borel probability measures with full support, maps that are not isotopic to the identity and maps on lower genus surfaces. The proofs of the main results combine topological arguments with periodic Floer homology.

AB - An area-preserving homeomorphism isotopic to the identity is said to have rational rotation direction if its rotation vector is a real multiple of a rational class. We give a short proof that any area-preserving homeomorphism of a compact surface of genus at least two, which is isotopic to the identity and has rational rotation direction, is either the identity or has periodic points of unbounded minimal period. This answers a question of Ginzburg and Seyfaddini and can be regarded as a Conley conjecture-type result for symplectic homeomorphisms of surfaces beyond the Hamiltonian case. We also discuss several variations, such as maps preserving arbitrary Borel probability measures with full support, maps that are not isotopic to the identity and maps on lower genus surfaces. The proofs of the main results combine topological arguments with periodic Floer homology.

KW - Hamiltonian dynamics

KW - low-dimensional dynamics

KW - smooth dynamics

KW - symplectic dynamics

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DO - 10.1017/etds.2025.10

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JO - Ergodic Theory and Dynamical Systems

JF - Ergodic Theory and Dynamical Systems

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ER -

Periodic points of rational area-preserving homeomorphisms

Abstract

All Science Journal Classification (ASJC) codes

Keywords

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