How essential is a spanning surface?

arXiv - MATH - Geometric Topology Pub Date : 2024-08-30 DOI:arxiv-2408.16948
Thomas Kindred
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引用次数: 0

Abstract

Gabai proved that any plumbing, or Murasugi sum, of $\pi_1$-essential Seifert surfaces is also $\pi_1$-essential, and Ozawa extended this result to unoriented spanning surfaces. We show that the analogous statement about geometrically essential surfaces is untrue. We then introduce new numerical invariants, the algebraic and geometric essence of a spanning surface $F\subset S^3$, which measure how far $F$ is from being compressible, and we extend Ozawa's theorem by showing that plumbing respects the algebraic version of this new invariant. We also introduce a ``twisted'' generalization of plumbing and use it to compute essence for many examples, including checkerboard surfaces from reduced alternating diagrams. Finally, we extend all of these results to plumbings and twisted plumbings of spanning surfaces in arbitrary 3-manifolds.
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跨接面有多重要?
Gabai证明了任何$\pi_1$-essential Seifertsurfaces的plumbing或Murasugi sum也是$\pi_1$-essential,Ozawa将这一结果扩展到了面向跨曲面。我们证明了关于几何本质曲面的类似说法是不真实的。然后,我们引入了新的数值不变式,即跨曲面 $F (SubsetS^3$)的代数和几何本质,它可以度量 $F 距离可压缩性有多远。我们还引入了plumbing的 "扭曲 "广义,并用它计算了许多例子的本质,包括还原交替图中的棋盘曲面。最后,我们将所有这些结果扩展到任意3-manifolds中跨曲面的垂线和扭曲垂线。
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arXiv - MATH - Geometric Topology
arXiv - MATH - Geometric Topology
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