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Grid/lib/qcd/representations/adjoint.h

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/*
* Policy classes for the HMC
* Author: Guido Cossu
*/
#ifndef ADJOINT_H
#define ADJOINT_H
namespace Grid {
namespace QCD {
/*
* This is an helper class for the HMC
* Should contain only the data for the adjoint representation
* and the facility to convert from the fundamental -> adjoint
*/
template <int ncolour>
class AdjointRep {
public:
// typdef to be used by the Representations class in HMC to get the
// types for the higher representation fields
typedef typename SU_Adjoint<ncolour>::LatticeAdjMatrix LatticeField;
const int Dimension = ncolour * ncolour - 1;
LatticeField U;
explicit AdjointRep(GridBase* grid) : U(grid) {}
LatticeField update_representation(const LatticeGaugeField& Uin) {
// Uin is in the fundamental representation
// get the U in AdjointRep
// (U_adj)_B = tr[e^a U e^b U^dag]
// e^a = t^a/sqrt(T_F)
// where t^a is the generator in the fundamental
// T_F is 1/2 for the fundamental representation
conformable(U, Uin);
U = zero;
LatticeGaugeField tmp(Uin._grid);
Vector<typename SU<ncolour>::Matrix> ta(ncolour * ncolour - 1);
// FIXME probably not very efficient to get all the generators
// everytime
for (int a = 0; a < Dimension; a++) SU<ncolour>::generator(a, ta[a]);
for (int a = 0; a < Dimension; a++) {
tmp = 2.0 * adj(Uin) * ta[a] * Uin;
for (int b = 0; b < (ncolour * ncolour - 1); b++) {
auto Tr = TensorRemove(trace(tmp * ta[b]));
pokeColour(U, Tr, a, b);
}
}
}
};
typedef AdjointRep<Nc> AdjointRepresentation;
}
}
#endif