The A2 Invariant: Difference between revisions

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Revision as of 06:42, 5 January 2009


We compute the (or quantum ) invariant using the normalization and formulas of [Khovanov], which in itself follows [Kuperberg]:

(For In[1] see Setup)

In[1]:= ?A2Invariant
A2Invariant[L][q] computes the A2 (sl(3)) invariant of a knot or link L as a function of the variable q.

As an example, let us check that the knots 10_22 and 10_35 have the same Jones polynomial but different invariants:

In[2]:= Jones[Knot[10, 22]][q] == Jones[Knot[10, 35]][q]
Out[2]= True
In[3]:= A2Invariant[Knot[10, 22]][q]
Out[3]= -12 -8 -6 -4 2 4 6 8 10 12 14 -1 + q + q + q - q + -- - q - 2 q + q - q + q + q + 2 q 18 q
In[4]:= A2Invariant[Knot[10, 35]][q]
Out[4]= -14 -12 -10 -8 2 2 2 6 8 10 14 16 q + q - q + q - -- + -- + q - q + q - 2 q + q - q + 4 2 q q 18 20 q + q

The invariant attains 2163 values on the 2226 knots and links known to KnotTheory:

In[5]:= all = Join[AllKnots[], AllLinks[]];
In[6]:= Length /@ {Union[A2Invariant[#][q]& /@ all], all}
Out[6]= {2163, 2226}

[Khovanov] ^  M. Khovanov, link homology I, arXiv:math.QA/0304375.

[Kuperberg] ^  G. Kuperberg, Spiders for rank 2 Lie algebras, Comm. Math. Phys. 180 (1996) 109-151, arXiv:q-alg/9712003.