Tight contact structures on Seifert surface complements

Tamás Kálmán; Daniel V. Mathews

doi:10.1112/topo.12144

Tight contact structures on Seifert surface complements

Tamás Kálmán, Daniel V. Mathews

School of Mathematics

Research output: Contribution to journal › Article › Research › peer-review

1 Citation (Scopus)

Abstract

We consider complements of standard Seifert surfaces of special alternating links. On these handlebodies, we use Honda's method to enumerate those tight contact structures whose dividing sets are isotopic to the link, and find their number to be the leading coefficient of the Alexander polynomial. The Euler classes of the contact structures are identified with hypertrees in a certain hypergraph. Using earlier work, this establishes a connection between contact topology and the Homfly polynomial. We also show that the contact invariants of our tight contact structures form a basis for sutured Floer homology. Finally, we relate our methods and results to Kauffman's formal knot theory.

Original language	English
Pages (from-to)	730-776
Number of pages	47
Journal	Journal of Topology
Volume	13
Issue number	2
DOIs	https://doi.org/10.1112/topo.12144
Publication status	Published - 1 Jun 2020

Keywords

57M15
57M27
57R17 (primary)
57R58 (secondary)

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10.1112/topo.12144

Cite this

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abstract = "We consider complements of standard Seifert surfaces of special alternating links. On these handlebodies, we use Honda's method to enumerate those tight contact structures whose dividing sets are isotopic to the link, and find their number to be the leading coefficient of the Alexander polynomial. The Euler classes of the contact structures are identified with hypertrees in a certain hypergraph. Using earlier work, this establishes a connection between contact topology and the Homfly polynomial. We also show that the contact invariants of our tight contact structures form a basis for sutured Floer homology. Finally, we relate our methods and results to Kauffman's formal knot theory.",

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AU - Mathews, Daniel V.

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N2 - We consider complements of standard Seifert surfaces of special alternating links. On these handlebodies, we use Honda's method to enumerate those tight contact structures whose dividing sets are isotopic to the link, and find their number to be the leading coefficient of the Alexander polynomial. The Euler classes of the contact structures are identified with hypertrees in a certain hypergraph. Using earlier work, this establishes a connection between contact topology and the Homfly polynomial. We also show that the contact invariants of our tight contact structures form a basis for sutured Floer homology. Finally, we relate our methods and results to Kauffman's formal knot theory.

AB - We consider complements of standard Seifert surfaces of special alternating links. On these handlebodies, we use Honda's method to enumerate those tight contact structures whose dividing sets are isotopic to the link, and find their number to be the leading coefficient of the Alexander polynomial. The Euler classes of the contact structures are identified with hypertrees in a certain hypergraph. Using earlier work, this establishes a connection between contact topology and the Homfly polynomial. We also show that the contact invariants of our tight contact structures form a basis for sutured Floer homology. Finally, we relate our methods and results to Kauffman's formal knot theory.

KW - 57M15

KW - 57M27

KW - 57R17 (primary)

KW - 57R58 (secondary)

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JO - Journal of Topology

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ER -

Tight contact structures on Seifert surface complements

Abstract

Keywords

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Quantum invariants and hyperbolic manifolds in three-dimensional topology

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Tight contact structures on Seifert surface complements

Abstract

Keywords

Access to Document

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Quantum invariants and hyperbolic manifolds in three-dimensional topology

Cite this