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Yamada Polynomial and associated link of $θ$-curves

The discovery of polynomial invariants of knots and links, ignited by V. F. R. Jones, leads to the formulation of polynomial invariants of spatial graphs. The Yamada polynomial, one of such invariants, is frequently utilized for practical distinguishment of spatial graphs. Especially for $θ$-curves, the polynomial is an ambient isotopy invariant after a normalization. On the other hand, to each $θ$-curve, a 3-component link can be associated as an ambient isotopy invariant. The benefit of associated links is that invariants of links can be utilized as invariants of $θ$-curves. In this paper we investigate the relation between the normalized Yamada polynomial of $θ$-curves and the Jones polynomial of their associated links, and show that the two polynomials are equivalent for brunnian $θ$-curves as a corollary. For our purpose the Jaeger polynomial of spatial graphs is observed, a specialization of which is equivalent to the Yamada polynomial.

preprint2022arXivOpen access
Youngsik Huh
math.COmath.GT
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Youngsik Huh

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