The Kauffman Polynomial: Difference between revisions
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Revision as of 06:44, 17 December 2008
The Kauffman polynomial (see [Kauffman]) of a knot or link is where is the writhe of (see How is the Jones Polynomial Computed?) and where is the regular isotopy invariant defined by the skein relations
(here is a strand and is the same strand with a kink added) and
and by the initial condition where is the unknot .
KnotTheory`
knows about the Kauffman polynomial:
(For In[1] see Setup)
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Thus, for example, here's the Kauffman polynomial of the knot 5_2:
In[4]:=
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Kauffman[Knot[5, 2]][a, z]
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Out[4]=
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2 4 6 5 7 2 2 4 2 6 2 3 3
-a + a + a - 2 a z - 2 a z + a z - a z - 2 a z + a z +
5 3 7 3 4 4 6 4
2 a z + a z + a z + a z
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5_2 |
T(8,3) |
It is well known that the Jones polynomial is related to the Kauffman polynomial via
where is some knot or link and where is the number of components of . Let us verify this fact for the torus knot T(8,3):
In[5]:=
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K = TorusKnot[8, 3];
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In[6]:=
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Simplify[{
(-1)^(Length[Skeleton[K]]-1)Kauffman[K][-q^(-3/4), q^(1/4)+q^(-1/4)],
Jones[K][q]
}]
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Out[6]=
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7 9 16 7 9 16
{q + q - q , q + q - q }
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[Kauffman] ^ L. H. Kauffman, An invariant of regular isotopy, Trans. Amer. Math. Soc. 312 (1990) 417-471.