# Chiral Polytope of Type {4,4}

Regular Cover :{4,4}*1600 with group SmallGroup(1600,6624) = (C2 x C4) ⋊ (C52 ⋊ D4)of order 1600
Rank : 3
Schlafli Type : {4,4}
Rotation Group : SmallGroup(160,74) = C5 ⋊ (C23 ⋊ C4) of order 160
Number of vertices, edges, etc : 40, 80, 40
If Aut({4,4}*1600)=<s0, s1, s2>, then this chiral polytope is ({4,4}*1600)/N, where
N=<s1*s2*s1*s0*s1*s2*s1*s0*s1*s2*s1*s0*s1*s2*s1*s0*s2*s1*s0*s2*s1*s0*s2*s1*s0*s2*s1*s0> of order 5
Facet : (Regular) 4-gon
Vertex Figure : (Regular) 4-gon
Finitely Presented Group Representation of the Rotation Group(GAP) :
```F := FreeGroup("sig1","sig2");;
sig1 := F.1;;  sig2 := F.2;;
rels := [ sig1*sig1*sig1*sig1, sig1^-1*sig2^-1*sig1^-1*sig2^-1, sig2*sig2*sig2*sig2,
sig1^-1*sig1^-1*sig2*sig1^-1*sig2*sig1^-1*sig2^-1*sig1*sig2^-1*sig2^-1*sig1*sig2^-1*sig1*sig2^-1*sig1*sig2^-1 ];;
rotpoly := F / rels;;

```
Finitely Presented Group Representation of the Rotation Group (Magma) :

```rotpoly<sig1,sig2> := Group< sig1,sig2 | sig1*sig1*sig1*sig1, sig1^-1*sig2^-1*sig1^-1*sig2^-1,
sig2*sig2*sig2*sig2, sig1^-1*sig1^-1*sig2*sig1^-1*sig2*sig1^-1*sig2^-1*sig1*sig2^-1*sig2^-1*sig1*sig2^-1*sig1*sig2^-1*sig1*sig2^-1 >;

```