The Coloured Jones Polynomials
KnotTheory` can compute the coloured Jones polynomial of braid
closures, using the same formulas as in [Garoufalidis Le]:
(For In[1] see Setup)
In[2]:= ?ColouredJones
ColouredJones[br, n][q] computes the coloured Jones polynomial of the closure of the braid br in colour n (i.e., in the (n+1)-dimensional representation) and with respect to the variable q. ColouredJones[K, n][q] does the same for knots for which a braid representative is known to this program. |
In[3]:= ColouredJones::about
The ColouredJones program was written jointly with Stavros Garoufalidis, based on formulas provided to us by Thang Le. |
Thus, for example, here's the coloured Jones polynomial of the knot 4_1 in the 4-dimensional representation of :
| In[4]:= |
ColouredJones[Knot[4, 1], 3][q] |
| Out[4]= | -12 -11 -10 2 2 3 3 2 4 6 8 10 11 12
3 + q - q - q + -- - -- + -- - -- - 3 q + 3 q - 2 q + 2 q - q - q + q
8 6 4 2
q q q q
|
And here's the coloured Jones polynomial of the same knot in the two dimensional representation of ; this better be equal to the ordinary Jones polynomial of 4_1!
| In[5]:= |
ColouredJones[Knot[4, 1], 1][q] |
| Out[5]= | -2 1 2
1 + q - - - q + q
q
|
| In[6]:= |
Jones[Knot[4, 1]][q] |
| Out[6]= | -2 1 2
1 + q - - - q + q
q
|
In[7]:= ?CJ`Summand
CJ`Summand[br, n] returned a pair {s, vars} where s is the summand in the the big sum that makes up ColouredJones[br, n][q] and where vars is the list of variables that need to be summed over (from 0 to n) to get ColouredJones[br, n][q]. CJ`Summand[K, n] is the same for knots for which a braid representative is known to this program. |
The coloured Jones polynomial of 3_1 is computed via a single summation. Indeed,
The symbols in the above formula require a definition:
More precisely, qPochhammer[a, q, k] is
and qBinomial[n, k, q] is
The function qExpand replaces every occurence of a qPochhammer[a, q, k]
symbol or a qBinomial[n, k, q] symbol by its definition:
Hence,
Finally,
[Garoufalidis Le] ^ S. Garoufalidis and T. Q. T. Le, The Colored Jones Function is -Holonomic, Georgia Institute of Technology preprint, September 2003, arXiv:math.GT/0309214.
