2017
DOI: 10.48550/arxiv.1712.09126
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Geometric generation of the wrapped Fukaya category of Weinstein manifolds and sectors

Abstract: We prove that the wrapped Fukaya category of any 2ndimensional Weinstein manifold (or, more generally, Weinstein sector) W is generated by the unstable manifolds of the index n critical points of its Liouville vector field. Our proof is geometric in nature, relying on a surgery formula for Floer homology and the fairly simple observation that Floer homology vanishes for Lagrangian submanifolds that can be disjoined from the isotropic skeleton of the Weinstein manifold. Note that we do not need any additional a… Show more

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Cited by 14 publications
(41 citation statements)
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“…A positive answer would also imply that any regular Lagrangian disk in T * S n std can be disjoined from some cotangent fiber. Corollary 1.3 already shows that for any regular disk D n ⊂ T * S n std , there exists another regular disk C n , namely the co-core of the handle H n Λ , which is disjoint from D n and generates the wrapped Fukaya category of T * S n std ; see [4]. We also point out that there is another natural decomposition of regular Lagrangian disks.…”
mentioning
confidence: 73%
See 1 more Smart Citation
“…A positive answer would also imply that any regular Lagrangian disk in T * S n std can be disjoined from some cotangent fiber. Corollary 1.3 already shows that for any regular disk D n ⊂ T * S n std , there exists another regular disk C n , namely the co-core of the handle H n Λ , which is disjoint from D n and generates the wrapped Fukaya category of T * S n std ; see [4]. We also point out that there is another natural decomposition of regular Lagrangian disks.…”
mentioning
confidence: 73%
“…As noted before, Theorem 1.1 does not hold in dimension 4 since there are Lagrangian formal classes not realized by any genuine Lagrangians. However an analogous construction in dimension four was considered by Yasui [18], who constructed many Lagrangians disks in B 4 std by trivially extending the Lagrangian unknot…”
Section: Theorem 21 ([13]mentioning
confidence: 99%
“…To be more precise, the skeleton depends on a choice of the Weinstein structure. We further show that the cocores to some of the critical handles, which are the Kostant sections, generate the partially wrapped Fukaya category of J G (using general results from [GPS1,GPS2,CDGG]).…”
Section: Theorem 11 (Well Known)mentioning
confidence: 84%
“…where W(V ) is the wrapped Fukaya category of V . An early version of this result based on Legendrian surgery is due to Bourgeois-Ekholm-Eliashberg ( [6], elaborated in [13]) which concerned Hochschild homology; a definitive version based on duality appeared in [20, Theorem 1.1] (see also the more recent [10]).…”
Section: Symplectic Cohomology For Invertible Polynomials 21 Symplect...mentioning
confidence: 99%