The Kauffman Polynomial: Difference between revisions

Latest revision as of 18:23, 21 February 2013

KnotTheory`/Navigation

The Mathematica Package KnotTheory`

The Kauffman polynomial $F(K)(a,z)$ (see [Kauffman]) of a knot or link $K$ is $a^{-w(K)}L(K)$ where $w(L)$ is the writhe of $K$ (see How is the Jones Polynomial Computed?) and where $L(K)$ is the regular isotopy invariant defined by the skein relations

L(s_{+})=aL(s),\qquad L(s_{-})=a^{-1}L(s)

(here $s$ is a strand and $s_{\pm }$ is the same strand with a $\pm$ kink added) and

Failed to parse (unknown function "\backoverslash"): {\displaystyle L(\backoverslash)+L(\slashoverback) = z\left(L(\smoothing)+L(\hsmoothing)\right)}

and by the initial condition $L(U)=1$ where $U$ is the unknot .

KnotTheory` knows about the Kauffman polynomial:

(For In[1] see Setup)

In[2]:=	?Kauffman
Kauffman[K][a, z] computes the Kauffman polynomial of a knot or link K, in the variables a and z.

In[3]:=	Kauffman::about
The Kauffman polynomial program was written by Scott Morrison.

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

`In[4]:=`	`Kauffman[Knot[5, 2]][a, z]`
`Out[4]=`	`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

T(8,3)

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

J(L)(q)=(-1)^{c+1}L(K)(-q^{-3/4},\,q^{1/4}+q^{-1/4})

,

where $K$ is some knot or link and where $c$ is the number of components of $K$ . Let us verify this fact for the torus knot T(8,3):

In[5]:= K = TorusKnot[8, 3];

`In[6]:=`	`Simplify[{ (-1)^(Length[Skeleton[K]]-1)Kauffman[K][-q^(-3/4), q^(1/4)+q^(-1/4)], Jones[K][q] }]`
`Out[6]=`	`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.

@@ Line 22: / Line 22: @@
 in = <nowiki>Kauffman</nowiki> |
 out= <nowiki>Kauffman[K][a, z] computes the Kauffman polynomial of a knot or link K, in the variables a and z.</nowiki> |
-about= <nowiki>The Kauffman program was written by Scott Morrison.</nowiki>}}
+about= <nowiki>The Kauffman polynomial program was written by Scott Morrison.</nowiki>}}
 <!--END-->
@@ Line 42: / Line 42: @@
 It is well known that the Jones polynomial is related to the Kauffman polynomial via
-<center><math>J(L)(q) = (-1)^cL(K)(-q^{-3/4},\,q^{1/4}+q^{-1/4})</math>,</center>
+<center><math>J(L)(q) = (-1)^{c+1}L(K)(-q^{-3/4},\,q^{1/4}+q^{-1/4})</math>,</center>
 where <math>K</math> is some knot or link and where <math>c</math> is the number of components of <math>K</math>. Let us verify this fact for the torus knot [[T(8,3)]]:

The Kauffman Polynomial: Difference between revisions

Latest revision as of 18:23, 21 February 2013

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