arXiv:1101.1412 Abstract | arXiv Analytics

arXiv:1101.1412 [math.GT]Abstract References Reviews Resources

Homogeneous links, Seifert surfaces, digraphs and the reduced Alexander polynomial

Published 2011-01-07, updated 2011-07-14Version 2

We give a geometric proof of the following result of Juhasz. \emph{Let $a_g$ be the leading coefficient of the Alexander polynomial of an alternating knot $K$. If $|a_g|<4$ then $K$ has a unique minimal genus Seifert surface.} In doing so, we are able to generalise the result, replacing `minimal genus' with `incompressible' and `alternating' with `homogeneous'. We also examine the implications of our proof for alternating links in general.

Comments: 37 pages, 28 figures; v2 Main results generalised from alternating links to homogeneous links. Title changed

DOI: 10.1007/s10711-012-9786-1

Categories: math.GT

Subjects: 57M25, 57M27, 57M15

Keywords: reduced alexander polynomial, homogeneous links, unique minimal genus seifert surface, geometric proof

Tags: journal article

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arXiv:1101.1412 [math.GT]Abstract References Reviews Resources

Homogeneous links, Seifert surfaces, digraphs and the reduced Alexander polynomial

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arXiv:1101.1412 [math.GT]AbstractReferencesReviewsResources

Homogeneous links, Seifert surfaces, digraphs and the reduced Alexander polynomial

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arXiv:1101.1412 [math.GT]Abstract References Reviews Resources