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182 lines
5.5 KiB
C++
182 lines
5.5 KiB
C++
#ifndef QCD_UTIL_SUNADJOINT_H
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#define QCD_UTIL_SUNADJOINT_H
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////////////////////////////////////////////////////////////////////////
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//
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// * Adjoint representation generators
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//
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// * Normalisation for the fundamental generators:
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// trace ta tb = 1/2 delta_ab = T_F delta_ab
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// T_F = 1/2 for SU(N) groups
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//
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//
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// base for NxN hermitian traceless matrices
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// normalized to 1:
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//
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// (e_Adj)^a = t^a / sqrt(T_F)
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//
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// then the real, antisymmetric generators for the adjoint representations
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// are computed ( shortcut: e^a == (e_Adj)^a )
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//
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// (iT_adj)^d_ba = i tr[e^a t^d e^b - t^d e^a e^b]
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//
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////////////////////////////////////////////////////////////////////////
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namespace Grid {
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namespace QCD {
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template <int ncolour>
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class SU_Adjoint : public SU<ncolour> {
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public:
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static const int Dimension = ncolour * ncolour - 1;
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template <typename vtype>
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using iSUnAdjointMatrix =
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iScalar<iScalar<iMatrix<vtype, Dimension > > >;
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// Actually the adjoint matrices are real...
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// Consider this overhead... FIXME
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typedef iSUnAdjointMatrix<Complex> AMatrix;
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typedef iSUnAdjointMatrix<ComplexF> AMatrixF;
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typedef iSUnAdjointMatrix<ComplexD> AMatrixD;
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typedef iSUnAdjointMatrix<vComplex> vAMatrix;
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typedef iSUnAdjointMatrix<vComplexF> vAMatrixF;
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typedef iSUnAdjointMatrix<vComplexD> vAMatrixD;
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typedef Lattice<vAMatrix> LatticeAdjMatrix;
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typedef Lattice<vAMatrixF> LatticeAdjMatrixF;
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typedef Lattice<vAMatrixD> LatticeAdjMatrixD;
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typedef Lattice<iVector<iScalar<iMatrix<vComplex, Dimension> >, Nd> >
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LatticeAdjField;
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typedef Lattice<iVector<iScalar<iMatrix<vComplexF, Dimension> >, Nd> >
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LatticeAdjFieldF;
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typedef Lattice<iVector<iScalar<iMatrix<vComplexD, Dimension> >, Nd> >
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LatticeAdjFieldD;
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template <class cplx>
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static void generator(int Index, iSUnAdjointMatrix<cplx> &iAdjTa) {
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// returns i(T_Adj)^index necessary for the projectors
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// see definitions above
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iAdjTa = zero;
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Vector<typename SU<ncolour>::template iSUnMatrix<cplx> > ta(ncolour * ncolour - 1);
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typename SU<ncolour>::template iSUnMatrix<cplx> tmp;
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// FIXME not very efficient to get all the generators everytime
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for (int a = 0; a < Dimension; a++) SU<ncolour>::generator(a, ta[a]);
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for (int a = 0; a < Dimension; a++) {
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tmp = ta[a] * ta[Index] - ta[Index] * ta[a];
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for (int b = 0; b < (ncolour * ncolour - 1); b++) {
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typename SU<ncolour>::template iSUnMatrix<cplx> tmp1 =
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2.0 * tmp * ta[b]; // 2.0 from the normalization
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Complex iTr = TensorRemove(timesI(trace(tmp1)));
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//iAdjTa()()(b, a) = iTr;
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iAdjTa()()(a, b) = iTr;
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}
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}
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}
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static void printGenerators(void) {
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for (int gen = 0; gen < Dimension; gen++) {
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AMatrix ta;
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generator(gen, ta);
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std::cout << GridLogMessage << "Nc = " << ncolour << " t_" << gen
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<< std::endl;
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std::cout << GridLogMessage << ta << std::endl;
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}
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}
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static void testGenerators(void) {
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AMatrix adjTa;
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std::cout << GridLogMessage << "Adjoint - Checking if real" << std::endl;
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for (int a = 0; a < Dimension; a++) {
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generator(a, adjTa);
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std::cout << GridLogMessage << a << std::endl;
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assert(norm2(adjTa - conjugate(adjTa)) < 1.0e-6);
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}
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std::cout << GridLogMessage << std::endl;
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std::cout << GridLogMessage << "Adjoint - Checking if antisymmetric"
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<< std::endl;
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for (int a = 0; a < Dimension; a++) {
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generator(a, adjTa);
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std::cout << GridLogMessage << a << std::endl;
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assert(norm2(adjTa + transpose(adjTa)) < 1.0e-6);
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}
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std::cout << GridLogMessage << std::endl;
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}
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static void AdjointLieAlgebraMatrix(
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const typename SU<ncolour>::LatticeAlgebraVector &h,
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LatticeAdjMatrix &out, Real scale = 1.0) {
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conformable(h, out);
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GridBase *grid = out._grid;
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LatticeAdjMatrix la(grid);
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AMatrix iTa;
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out = zero;
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for (int a = 0; a < Dimension; a++) {
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generator(a, iTa);
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la = peekColour(h, a) * iTa;
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out += la;
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}
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out *= scale;
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}
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// Projects the algebra components a lattice matrix (of dimension ncol*ncol -1 )
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static void projectOnAlgebra(typename SU<ncolour>::LatticeAlgebraVector &h_out, const LatticeAdjMatrix &in, Real scale = 1.0) {
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conformable(h_out, in);
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h_out = zero;
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AMatrix iTa;
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Real coefficient = - 1.0/(ncolour) * scale;// 1/Nc for the normalization of the trace in the adj rep
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for (int a = 0; a < Dimension; a++) {
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generator(a, iTa);
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auto tmp = real(trace(iTa * in)) * coefficient;
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pokeColour(h_out, tmp, a);
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}
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}
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// a projector that keeps the generators stored to avoid the overhead of recomputing them
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static void projector(typename SU<ncolour>::LatticeAlgebraVector &h_out, const LatticeAdjMatrix &in, Real scale = 1.0) {
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conformable(h_out, in);
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static std::vector<AMatrix> iTa(Dimension); // to store the generators
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h_out = zero;
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static bool precalculated = false;
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if (!precalculated){
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precalculated = true;
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for (int a = 0; a < Dimension; a++) generator(a, iTa[a]);
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}
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Real coefficient = -1.0 / (ncolour) * scale; // 1/Nc for the normalization of
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// the trace in the adj rep
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for (int a = 0; a < Dimension; a++) {
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auto tmp = real(trace(iTa[a] * in)) * coefficient;
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pokeColour(h_out, tmp, a);
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}
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}
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};
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// Some useful type names
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typedef SU_Adjoint<2> SU2Adjoint;
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typedef SU_Adjoint<3> SU3Adjoint;
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typedef SU_Adjoint<4> SU4Adjoint;
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typedef SU_Adjoint<5> SU5Adjoint;
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typedef SU_Adjoint<Nc> AdjointMatrices;
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}
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}
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#endif |