Bordered Floer homology for manifolds with torus boundary via immersed curves

Hanselman, Jonathan; Rasmussen, Jacob; Watson, Liam

doi:10.1090/jams/1029

Bordered Floer homology for manifolds with torus boundary via immersed curves
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by Jonathan Hanselman, Jacob Rasmussen and Liam Watson

J. Amer. Math. Soc. 37 (2024), 391-498

DOI: https://doi.org/10.1090/jams/1029

Published electronically: August 23, 2023

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Abstract:

This paper gives a geometric interpretation of bordered Heegaard Floer homology for manifolds with torus boundary. If $M$ is such a manifold, we show that the type D structure $\widehat {CFD}(M)$ may be viewed as a set of immersed curves decorated with local systems in $\partial M$. These curves-with-decoration are invariants of the underlying three-manifold up to regular homotopy of the curves and isomorphism of the local systems. Given two such manifolds and a homeomorphism $h$ between the boundary tori, the Heegaard Floer homology of the closed manifold obtained by gluing with $h$ is obtained from the Lagrangian intersection Floer homology of the curve-sets. This machinery has several applications: We establish that the dimension of $\widehat {HF}$ decreases under a certain class of degree one maps (pinches) and we establish that the existence of an essential separating torus gives rise to a lower bound on the dimension of $\widehat {HF}$. In particular, it follows that a prime rational homology sphere $Y$ with $\widehat {HF}(Y)<5$ must be geometric. Other results include a new proof of Eftekhary’s theorem that L-space homology spheres are atoroidal; a complete characterization of toroidal L-spaces in terms of gluing data; and a proof of a conjecture of Hom, Lidman, and Vafaee on satellite L-space knots.

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