"Rubberband" Brunnian Links: Difference between revisions
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in = <nowiki>DrawMorseLink[RBB3=RubberBandBrunnian[3]]</nowiki> | |
in = <nowiki>DrawMorseLink[RBB3=RubberBandBrunnian[3]]</nowiki> | |
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img= |
img= Rubberband_Brunnian_Links_Out_3.gif | |
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out= <nowiki>-Graphics-</nowiki>}} |
out= <nowiki>-Graphics-</nowiki>}} |
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n = 7 | |
n = 7 | |
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in = <nowiki>DrawMorseLink[RBB4=RubberBandBrunnian[4]]</nowiki> | |
in = <nowiki>DrawMorseLink[RBB4=RubberBandBrunnian[4]]</nowiki> | |
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img= |
img= Rubberband_Brunnian_Links_Out_6.gif | |
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out= <nowiki>-Graphics-</nowiki>}} |
out= <nowiki>-Graphics-</nowiki>}} |
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n = 10 | |
n = 10 | |
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in = <nowiki>DrawMorseLink[RBB5=RubberBandBrunnian[5]]</nowiki> | |
in = <nowiki>DrawMorseLink[RBB5=RubberBandBrunnian[5]]</nowiki> | |
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img= |
img= Rubberband_Brunnian_Links_Out_9.gif | |
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out= <nowiki>-Graphics-</nowiki>}} |
out= <nowiki>-Graphics-</nowiki>}} |
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We can also check that when one component is removed the remaining link is trivial: |
We can also check that when one component is removed the remaining link is trivial: |
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<!--$$Import["http://katlas.org/w/index.php?title=SubLink.m&action=raw"];$$--> |
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<!--$$SubLink[pd_PD, js_List] := Module[ |
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{k, t0, t, t1, t2, S, P}, |
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t0 = Flatten[List @@@ Skeleton[pd][[js]]]; |
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t = pd /. x_X :> Select[x, MemberQ[t0, #] &]; |
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t = DeleteCases[t, X[]]; |
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k = 1; |
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While[ |
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k <= Length[t], |
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If[ Length[t[[k]]] < 4, |
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t = Delete[t, k] /. (Rule @@ t[[k]]), ++k]; |
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]; |
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t1 = List @@ Union @@ t; |
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t2 = Thread[(t1) -> Range[Length[t1]]]; |
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S = t /. t2; |
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P = If[S != PD[] && Length[S] >= 3, S, PD[Knot[0, 1]], S] |
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]; |
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SubLink[pd_PD, j_] := SubLink[pd, {j}]; |
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SubLink[L_, js_] := SubLink[PD[L], js];$$--> |
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<!--Robot Land, no human edits to "END"--> |
<!--Robot Land, no human edits to "END"--> |
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{{In| |
{{In| |
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n = 12 | |
n = 12 | |
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in = <nowiki>Import["http://katlas.org/w/index.php?title=SubLink.m&action=raw"];</nowiki>}} |
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in = <nowiki>SubLink[pd_PD, js_List] := Module[ |
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{k, t0, t, t1, t2, S, P}, |
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t0 = Flatten[List @@@ Skeleton[pd][[js]]]; |
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t = pd /. x_X :> Select[x, MemberQ[t0, #] &]; |
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t = DeleteCases[t, X[]]; |
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k = 1; |
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While[ |
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k <= Length[t], |
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If[ Length[t[[k]]] < 4, |
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t = Delete[t, k] /. (Rule @@ t[[k]]), ++k]; |
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]; |
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t1 = List @@ Union @@ t; |
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t2 = Thread[(t1) -> Range[Length[t1]]]; |
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S = t /. t2; |
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P = If[S != PD[] && Length[S] >= 3, S, PD[Knot[0, 1]], S] |
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]; |
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SubLink[pd_PD, j_] := SubLink[pd, {j}]; |
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SubLink[L_, js_] := SubLink[PD[L], js];</nowiki>}} |
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<!--END--> |
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in = <nowiki>(b = BrunnianBraid[4]) // BraidPlot </nowiki> | |
in = <nowiki>(b = BrunnianBraid[4]) // BraidPlot </nowiki> | |
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img= |
img= Rubberband_Brunnian_Links_Out_17.gif | |
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out= <nowiki>-Graphics-</nowiki>}} |
out= <nowiki>-Graphics-</nowiki>}} |
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in = <nowiki>(bb = DeleteStrand[4, b]) // BraidPlot</nowiki> | |
in = <nowiki>(bb = DeleteStrand[4, b]) // BraidPlot</nowiki> | |
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img= |
img= Rubberband_Brunnian_Links_Out_20.gif | |
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out= <nowiki>-Graphics-</nowiki>}} |
out= <nowiki>-Graphics-</nowiki>}} |
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Latest revision as of 14:03, 20 October 2013
A "Rubberband" Brunnian link is obtained by connecting unknots in a closed chain as illustrated in the diagram of the 10-component link, where the last knot gets connected to the first one.
If we number the strands in one section of the link as shown and proceed with numbering each following section in the same manner, we can get its PD form. The PD of any "Rubberband" link can be generated in this way by varying the desired number of components:
(For In[1] see Setup)
In[1]:=
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K0 =
PD[X[1, 10, 5, 12], X[2, 12, 6, 14], X[5, 11, 8, 13],
X[6, 13, 9, 15], X[10, 0, 16, 4], X[11, 4, 17, 8], X[14, 7, 19, 3],
X[15, 9, 18, 7]];
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In[2]:=
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RubberBandBrunnian[n_] :=
Join @@ Table[K0 /. j_Integer :> j + 16 k, {k, 0, n - 1}] /. {16
n -> 0, 16 n + 1 -> 1, 16 n + 2 -> 2, 16 n + 3 -> 3}
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For instance, let us draw the links with three, four, and five components and compute their Jones polynomials:
In[4]:=
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DrawMorseLink[RBB3=RubberBandBrunnian[3]]
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Out[4]=
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-Graphics-
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In[5]:=
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Jones[RBB3][q]
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Out[5]=
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2 3 4 5 7 8 9 10
-q + 5 q - 11 q + 14 q - 10 q + 11 q - 18 q + 24 q - 18 q +
11 13 14 15 16 17
11 q - 10 q + 14 q - 11 q + 5 q - q
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In[7]:=
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DrawMorseLink[RBB4=RubberBandBrunnian[4]]
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Out[7]=
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-Graphics-
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In[8]:=
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Jones[RBB4][q]
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Out[8]=
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3/2 5/2 7/2 9/2 11/2 13/2 15/2
-q + 7 q - 24 q + 49 q - 56 q + 18 q + 51 q -
17/2 19/2 21/2 23/2 25/2 27/2
111 q + 131 q - 100 q + 32 q + 32 q - 100 q +
29/2 31/2 33/2 35/2 37/2 39/2
131 q - 111 q + 51 q + 18 q - 56 q + 49 q -
41/2 43/2 45/2
24 q + 7 q - q
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In[10]:=
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DrawMorseLink[RBB5=RubberBandBrunnian[5]]
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Out[10]=
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-Graphics-
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In[11]:=
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Jones[RBB5][q]
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Out[11]=
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2 3 4 5 6 7 8 9
-q + 9 q - 40 q + 110 q - 189 q + 167 q + 57 q - 414 q +
10 11 12 13 14 15 16
660 q - 581 q + 189 q + 305 q - 672 q + 816 q - 672 q +
17 18 19 20 21 22 23
305 q + 189 q - 581 q + 660 q - 414 q + 57 q + 167 q -
24 25 26 27 28
189 q + 110 q - 40 q + 9 q - q
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We can also check that when one component is removed the remaining link is trivial:
In[12]:=
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Import["http://katlas.org/w/index.php?title=SubLink.m&action=raw"];
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In[13]:=
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S = SubLink[RubberBandBrunnian[5], {1, 2, 3, 4}];
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In[14]:=
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J=Factor[Jones[S][q]]
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Out[14]=
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6 3
-(q (1 + q) )
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Similarly, in the case of Brunnian braids, removing one strand gives us a trivial braid. We can verify that using the following two programs. The first one constructs a Brunnian braid while the second one removes a selected strand:
In[15]:=
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BR /: Inverse[BR[n_, l_List]] := BR[n, -Reverse[l]];
BR /: BR[n1_, l1_] ** BR[n2_, l2_] := BR[Max[n1, n2], Join[l1, l2]];
BrunnianBraid[2] = BR[2, {1, 1}];
BrunnianBraid[n_] /; n > 2 := Module[
{b0},
b0 = BrunnianBraid[n - 1];
((b0 ** BR[n, {n - 1, n - 1}]) ** Inverse[b0]) **
BR[n, {1 - n, 1 - n}]
]
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In[16]:=
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DeleteStrand[k_, BR[n_, l_List]] := BR[n - 1, DeleteStrand[k, l]];
DeleteStrand[k_, {}] = {};
DeleteStrand[k_, {j1_, js___}] := Which[
k < Abs[j1], {j1 - Sign[j1]}~Join~DeleteStrand[k, {js}],
k == Abs[j1], DeleteStrand[k + 1, {js}],
k == Abs[j1] + 1, DeleteStrand[k - 1, {js}],
k > Abs[j1] + 1, {j1}~Join~DeleteStrand[k, {js}]
]
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Testing for the Brunnian braid with four strands, we get:
In[18]:=
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(b = BrunnianBraid[4]) // BraidPlot
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Out[18]=
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-Graphics-
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In[19]:=
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Jones[b][q]
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Out[19]=
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-(11/2) 4 6 5 5 1 3/2
-q + ---- - ---- + ---- - ---- - ------- - Sqrt[q] - 5 q +
9/2 7/2 5/2 3/2 Sqrt[q]
q q q q
5/2 7/2 9/2 11/2
5 q - 6 q + 4 q - q
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In[21]:=
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(bb = DeleteStrand[4, b]) // BraidPlot
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Out[21]=
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-Graphics-
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In[22]:=
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Jones[#][q] & /@ {bb, BR[3, {}]}
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Out[22]=
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1 1
{2 + - + q, 2 + - + q}
q q
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