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Bibliographic Details
Main Author: Konrad, Emilia
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2507.06084
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author Konrad, Emilia
author_facet Konrad, Emilia
contents This paper introduces a new Floer homology for periodic Reeb orbits on the boundaries of Liouville domains. The construction of this Constrained Floer Homology (CFH) is based on the symplectic area functional, restricted to loops satisfying a vanishing Hamiltonian mean value condition. While CFH shares its chain groups with Rabinowitz Floer homology (RFH), it avoids the use of a Lagrange multiplier, enabling a more intrinsic product structure. Our first main result shows that the Fredholm theory for CFH reduces to that of RFH: in particular, the standard Morse-Bott condition is sufficient. We then establish the required a priori bounds to ensure compactness of the moduli spaces. A key technical challenge is the non-local term that arises when differentiating along the constraint. To control it, we impose the additional geometric assumption that the Liouville vector field is of gradient type - i.e., that the ambient manifold satisfies a strengthened Weinstein condition.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Constrained Symplectic Area Functional and its Floer Homology
Konrad, Emilia
Symplectic Geometry
53D40
This paper introduces a new Floer homology for periodic Reeb orbits on the boundaries of Liouville domains. The construction of this Constrained Floer Homology (CFH) is based on the symplectic area functional, restricted to loops satisfying a vanishing Hamiltonian mean value condition. While CFH shares its chain groups with Rabinowitz Floer homology (RFH), it avoids the use of a Lagrange multiplier, enabling a more intrinsic product structure. Our first main result shows that the Fredholm theory for CFH reduces to that of RFH: in particular, the standard Morse-Bott condition is sufficient. We then establish the required a priori bounds to ensure compactness of the moduli spaces. A key technical challenge is the non-local term that arises when differentiating along the constraint. To control it, we impose the additional geometric assumption that the Liouville vector field is of gradient type - i.e., that the ambient manifold satisfies a strengthened Weinstein condition.
title The Constrained Symplectic Area Functional and its Floer Homology
topic Symplectic Geometry
53D40
url https://arxiv.org/abs/2507.06084