- Generated by
1.9.6
|
VMPS++
|
This is the complete list of members for HubbardObservables< Symmetry, Scalar >, including all inherited members.
| c(size_t locx, size_t locy=0, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| c(size_t locx, size_t locy=0, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| c_ky(vector< complex< double > > phases, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| CanonicalEntangler(int dLphys, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| CanonicalEntangler(int dLphys, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| cc(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| cc(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cc(SPIN_INDEX sigma1, SPIN_INDEX sigma2, size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cc1(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cc3(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cdag(size_t locx, size_t locy=0, double factor=std::sqrt(2.)) const | HubbardObservables< Symmetry, Scalar > | |
| cdag(size_t locx, size_t locy=0, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| cdag_ky(vector< complex< double > > phases, double factor=sqrt(2.)) const | HubbardObservables< Symmetry, Scalar > | |
| cdag_nc(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cdagc(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cdagc(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| cdagc(SPIN_INDEX sigma1, SPIN_INDEX sigma2, size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| cdagc3(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cdagcdag(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| cdagcdag(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cdagcdag(SPIN_INDEX sigma1, SPIN_INDEX sigma2, size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cdagcdag1(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cdagcdag3(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| cdagn_c(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| d(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| dtot() const | HubbardObservables< Symmetry, Scalar > | |
| exp_ipiSz(size_t locx, size_t locy=0, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| F | HubbardObservables< Symmetry, Scalar > | protected |
| G | HubbardObservables< Symmetry, Scalar > | protected |
| getQ_ScompScomp(SPINOP_LABEL Sa1, SPINOP_LABEL Sa2) const | HubbardObservables< Symmetry, Scalar > | protected |
| hh(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| HubbardObservables() | HubbardObservables< Symmetry, Scalar > | inline |
| HubbardObservables(const size_t &L) | HubbardObservables< Symmetry, Scalar > | |
| HubbardObservables(const size_t &L, const vector< Param > ¶ms, const std::map< string, std::any > &defaults) | HubbardObservables< Symmetry, Scalar > | |
| Id() const | HubbardObservables< Symmetry, Scalar > | |
| iTy(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| make_corr(size_t locx1, size_t locx2, size_t locy1, size_t locy2, const OperatorType &Op1, const OperatorType &Op2, qarray< Symmetry::Nq > Qtot, double factor, bool FERMIONIC, bool HERMITIAN) const | HubbardObservables< Symmetry, Scalar > | protected |
| make_FourierYSum(string name, const vector< OperatorType > &Ops, double factor, bool HERMITIAN, const vector< complex< double > > &phases) const | HubbardObservables< Symmetry, Scalar > | protected |
| make_local(size_t locx, size_t locy, const OperatorType &Op, double factor=1., bool FERMIONIC=false, bool HERMITIAN=false) const | HubbardObservables< Symmetry, Scalar > | protected |
| make_localSum(const vector< OperatorType > &Op, vector< double > factor, bool HERMITIAN) const | HubbardObservables< Symmetry, Scalar > | protected |
| n(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| n(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| nh(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| nhsq(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| nn(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| nn(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| ns(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| nssq(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| OperatorType typedef | HubbardObservables< Symmetry, Scalar > | private |
| P(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| P(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| Rcomp(SPINOP_LABEL Sa, size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| S(size_t locx, size_t locy=0, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| S_ky(vector< complex< double > > phases) const | HubbardObservables< Symmetry, Scalar > | |
| Scomp(SPINOP_LABEL Sa, size_t locx, size_t locy=0, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| ScompScomp(SPINOP_LABEL Sa1, SPINOP_LABEL Sa2, size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0, double fac=1.) const | HubbardObservables< Symmetry, Scalar > | |
| Scomptot(SPINOP_LABEL Sa, size_t locy=0, double factor=1., int dLphys=1) const | HubbardObservables< Symmetry, Scalar > | |
| Sdag(size_t locx, size_t locy=0, double factor=std::sqrt(3.)) const | HubbardObservables< Symmetry, Scalar > | |
| Sdag_ky(vector< complex< double > > phases, double factor=sqrt(3.)) const | HubbardObservables< Symmetry, Scalar > | |
| SdagS(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| Sdagtot(size_t locy, double factor, int dLphys) const | HubbardObservables< Symmetry, Scalar > | |
| Sm(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | inline |
| SmSp(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0, double fac=1.) const | HubbardObservables< Symmetry, Scalar > | inline |
| Sp(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | inline |
| SpSm(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0, double fac=1.) const | HubbardObservables< Symmetry, Scalar > | inline |
| Stot(size_t locy, double factor, int dLphys) const | HubbardObservables< Symmetry, Scalar > | |
| StringCorrId(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| StringCorrSpin(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| StringCorrSz(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| StringCorrTpm(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| StringCorrTz(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| Stringz(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| StringzDimer(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| Sz(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| SzSz(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | inline |
| T(size_t locx, size_t locy=0, double factor=1.) const | HubbardObservables< Symmetry, Scalar > | |
| T_ky(vector< complex< double > > phases) const | HubbardObservables< Symmetry, Scalar > | |
| Tdag(size_t locx, size_t locy=0, double factor=std::sqrt(3.)) const | HubbardObservables< Symmetry, Scalar > | |
| Tdag_ky(vector< complex< double > > phases, double factor=sqrt(3.)) const | HubbardObservables< Symmetry, Scalar > | |
| TdagT(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > | |
| Tm(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| TmTp(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0, double fac=1.) const | HubbardObservables< Symmetry, Scalar > | |
| Tp(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| TpTm(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0, double fac=1.) const | HubbardObservables< Symmetry, Scalar > | |
| Tx(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| Tz(size_t locx, size_t locy=0) const | HubbardObservables< Symmetry, Scalar > | |
| TzTz(size_t locx1, size_t locx2, size_t locy1=0, size_t locy2=0) const | HubbardObservables< Symmetry, Scalar > |
1.9.6