The Kauffman Polynomial: Difference between revisions

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{{Knot Image Pair|5_2|gif|T(8,3)|jpg}}


It is well known that the Jones polynomial is related to the Kauffman polynomial via
It is well known that the Jones polynomial is related to the Kauffman polynomial via

Revision as of 06:53, 3 September 2005


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

Failed to parse (SVG (MathML can be enabled via browser plugin): Invalid response ("Math extension cannot connect to Restbase.") from server "https://wikimedia.org/api/rest_v1/":): {\displaystyle L(\backoverslash)+L(\slashoverback) = z\left(L(\smoothing)+L(\hsmoothing)\right)}

and by the initial condition where is the unknot BigCirc symbol.gif.

KnotTheory` knows about the Kauffman polynomial:

(For In[1] see Setup)

In[1]:= ?Kauffman
Kauffman[K][a, z] computes the Kauffman polynomial of a knot or link K, in the variables a and z.
In[2]:= Kauffman::about
The Kauffman program was written by Scott Morrison.

Thus, for example, here's the Kauffman polynomial of the knot 5_2:

In[3]:= Kauffman[Knot[5, 2]][a, z]
Out[3]= 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
5 2.gif
5_2
T(8,3).jpg
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[4]:= K = TorusKnot[8, 3];
In[5]:= Simplify[{ (-1)^(Length[Skeleton[K]]-1)Kauffman[K][-q^(-3/4), q^(1/4)+q^(-1/4)], Jones[K][q] }]
Out[5]= 7 9 16 7 9 16 {q + q - q , q + q - q }

[Kauffman] ^  L. H. Kauffman, An invariant of regular isotopy, Trans. Amer. Math. Soc. 312 (1990) 417-471.