Difference between revisions of "ApCoCoA-1:Braid groups"

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=== <div id="Braid_groups">[[:ApCoCoA:Symbolic data#Braid_groups|Braid groups]]</div> ===
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=== <div id="Braid_Groups">[[:ApCoCoA:Symbolic data#Braid_groups|Braid Groups]]</div> ===
 
==== Description ====
 
==== Description ====
 
The Braid groups are infinite for a natural number n > 1 and have the following presentation.
 
The Braid groups are infinite for a natural number n > 1 and have the following presentation.

Latest revision as of 20:28, 22 April 2014

Description

The Braid groups are infinite for a natural number n > 1 and have the following presentation.

B(n) = <g_{1},...,g_{n-1} | g_{i}g_{j} = g_{j}g_{i} for |i-j| >= 2, g_{i}g_{i+1}g_{i} = g_{i+1}g_{i}g_{i+1} for 1 <= i <= n-2>

The complexity in the group B(n) grows with n. We get the trivial group for n = 1 and the infinite cyclic group for n >= 2.

References

E. Artin, "Theory of braids" Ann. of Math. , 48 (1947) pp. 643–649.

W. Magnus, Braid groups: A survey, Proceedings of the Second International Conference on the Theory of Groups, Canberra, Australia, 1973, pp. 463-487.)

Computation

We enumerate partial Groebner bases for the Braid groups as follows.

/*Use the ApCoCoA package ncpoly.*/
 
 // Number of Braid group
 MEMORY.N:=3;
 
 Use ZZ/(2)[a[1..MEMORY.N],b[1..MEMORY.N]];
 NC.SetOrdering("LLEX");
 
 Define CreateRelationsBraid()
   Relations:=[];
 
   // Add the relations of the inverse elements
   For Index1:= 1 To MEMORY.N-1 Do
     Append(Relations,[[a[Index1],b[Index1]],[1]]);
     Append(Relations,[[b[Index1],a[Index1]],[1]]);  	
   EndFor;
 
   // Add relations of the type a_{i}a_{i+2} = a_{i+2}a_{i}  
   For Index2:=1 To MEMORY.N-1 Do
     For Index3:=(Index2+2) To MEMORY.N-1 Do
       If Abs(Index2-Index3)>1 Then
         Append(Relations,[[a[Index2],a[Index3]],[a[Index3],a[Index2]]]);
       EndIf;
     EndFor;
   EndFor;
 
   // Add relations of the type a_{i}a_{i+1}a_{i} = a_{i+1}a_{i}a_{i+1}
   For Index4:=1 To MEMORY.N-1 Do
     For Index5:=(Index4+1) To MEMORY.N-1 Do
       If Abs(Index4-Index5)=1 Then			
         Append(Relations,[[a[Index4],a[Index5],a[Index4]],[a[Index5],a[Index4],a[Index5]]]);
       EndIf
     EndFor;
   EndFor;
 
   Return Relations;
 EndDefine;
 
 Relations:=CreateRelationsBraid();
 Relations;
 
 -- Enumerate a partial Groebner basis (see NC.GB for more details)
 Gb:=NC.GB(Relations,31,1,100,1000);
 Gb;

Example in Symbolic Data Format

 <FREEALGEBRA createdAt="2014-03-11" createdBy="strohmeier">
 	<vars>a1,a2,b1,b2</vars>
 	<uptoDeg>9</uptoDeg>
 	<basis>
 	<ncpoly>a1*b1-1</ncpoly>
 	<ncpoly>b1*a1-1</ncpoly>
 	<ncpoly>a2*b2-1</ncpoly>
 	<ncpoly>b2*a2-1</ncpoly>
 	<ncpoly>a1*a2*a1-a2*a1*a2</ncpoly>
 	</basis>
 	<Comment>The partial LLex Gb has 190 elements</Comment>
 	<Comment>Braid_group_3</Comment>
 </FREEALGEBRA>