Difference between revisions of "ApCoCoA-1:Thompson group"
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Gb:=NC.GB(Relations,31,1,100,1000); | Gb:=NC.GB(Relations,31,1,100,1000); | ||
Gb; | Gb; | ||
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| + | ====Example in Symbolic Data Format==== | ||
Revision as of 12:30, 28 March 2014
Description
The Thompson group can be regarded as the group of piecewise-linear, orientation-preserving homeomorphisms of the unit interval which have breakpoints only at dyadic points and on intervals of differentiability the slopes are powers of two. A representation is given by:
T = <a,b | [ab^{-1},a^{-1}ba] = [ab^{-1},a^{-2}ba^{2}] = 1>
or alternative:
Th = <x_{0},x_{1},x_{2},... | x_{k}^{-1}x_{n}x_{k} = x_{n+1} for all k < n>
Reference
NEW PRESENTATIONS OF THOMPSON'S GROUPS AND APPLICATIONS: UFFE HAAGERUP AND GABRIEL PICIOROAGA
Computation
/*Use the ApCoCoA package ncpoly.*/
Use ZZ/(2)[a,b,c,d];
NC.SetOrdering("LLEX");
Define CreateRelationsThompson()
Relations:=[];
// add the inverse relations
Append(Relations,[[a,c],[1]]);
Append(Relations,[[c,a],[1]]);
Append(Relations,[[b,d],[1]]);
Append(Relations,[[d,b],[1]]);
//add the relation [ad,a^{-1}ba] = 1
// the commutator of [ad,a^{-1}ba] is a,d,c,b,a,b,c,c,d,a
Append(Relations,[[a,d,c,b,a,b,c,c,d,a],[1]]);
//add the relation [ad,a^{-1}ba] = 1
// the commutator of [ad,a^{-2}ba^2] is a,d,c,c,b,a,a,b,c,c^2,d,a^2
Append(Relations,[[a,d,c,c,b,a,a,b,c,c^2,d,a^2],[1]]);
Return Relations;
EndDefine;
Relations:=CreateRelationsThompson();
Relations;
Gb:=NC.GB(Relations,31,1,100,1000);
Gb;
Example in Symbolic Data Format
<FREEALGEBRA createdAt="2014-01-20" createdBy="strohmeier">
<vars>a,b,c,d</vars>
<uptoDeg>11</uptoDeg>
<basis>
<ncpoly>a*c-1</ncpoly>
<ncpoly>c*a-1</ncpoly>
<ncpoly>b*d-1</ncpoly>
<ncpoly>d*b-1</ncpoly>
<ncpoly>a*d*c*b*a*b*c*c*d*a-1</ncpoly>
<ncpoly>a*d*c*c*b*a*a*b*c*c^2*d*a^2-1</ncpoly>
</basis>
<Comment>The partial LLex Gb has 393 elements</Comment>
<Comment>Thompson_group</Comment>
</FREEALGEBRA>
<Comment> Commutators
[g,h] = ghg^{-1}h^{-1}
[ad,cba]=a*d*c*b*a*b*c*c*d*a
[ad,ccbaa]=a*d*c*c*b*a*a*b*c*c^2*d*a^2
</Comment>
Alternative Computation
/*Use the ApCoCoA package ncpoly.*/
// Define the variable k,n of the thompson group
// MEMORY.N has to be MEMORY.K+2
MEMORY.N:=5;
MEMORY.K:=3;
Use ZZ/(2)[x[1..MEMORY.N],y[1..MEMORY.N]];
NC.SetOrdering("LLEX");
Define CreateRelationsthomp()
Relations:=[];
For Index1 := 1 To MEMORY.N Do
Append(Relations,[[x[Index1],y[Index1]],[1]]);
Append(Relations,[[y[Index1],x[Index1]],[1]]);
EndFor;
For Index2 := 1 To MEMORY.K Do
For Index1 := 2 To MEMORY.N-1 Do
If (Index1 > Index2) Then
Append(Relations,[[y[Index2],x[Index1],x[Index2]],[x[Index1+1]]]);
EndIf
EndFor;
EndFor;
Return Relations;
EndDefine;
Relations:=CreateRelationsthomp();
Relations;
Gb:=NC.GB(Relations,31,1,100,1000);
Gb;
