#ifndef ANASEN_EFFICIENCY_H #define ANASEN_EFFICIENCY_H #include #include "DetectorEfficiency.h" #include "StripDetector.h" #include "QQQDetector.h" #include "Target.h" #include "Nucleus.h" #include "MaskFile.h" struct DetectorResult { bool detectFlag = false; Mask::Vec3 direction; double energy_deposited = 0.0; std::string det_name = ""; }; class AnasenEfficiency : public DetectorEfficiency { public: AnasenEfficiency(); ~AnasenEfficiency(); void CalculateEfficiency(const std::string& inputname, const std::string& outputname, const std::string& statsname) override; void DrawDetectorSystem(const std::string& filename) override; double RunConsistencyCheck() override; private: DetectorResult IsRing1(Mask::Nucleus& nucleus); DetectorResult IsRing2(Mask::Nucleus& nucleus); DetectorResult IsQQQ(Mask::Nucleus& nucleus); DetectorResult IsAnasen(Mask::Nucleus& nucleus); void CountCoincidences(const Mask::MaskFileData& data, std::vector& counts, int rxn_type); std::vector m_Ring1, m_Ring2; std::vector m_forwardQQQs; std::vector m_backwardQQQs; Mask::Target det_silicon; /**** ANASEN geometry constants *****/ const int n_sx3_per_ring = 12; const int n_qqq = 4; const double sx3_length = 0.075; const double sx3_width = 0.04; const double barrel_gap = 0.0254; const double sx3_frame = 0.049; //0.049 is base gap due to frames const double ring1_z = sx3_length/2.0 + sx3_frame + barrel_gap/2.0; const double ring2_z = (-1.0)*(barrel_gap/2.0 + sx3_length/2.0); const double qqq_nom_z = 0.0125 + sx3_length + sx3_frame + barrel_gap/2.0; const double qqq_rinner = 0.0501; const double qqq_router = 0.0990; const double qqq_deltaphi = 1.52119; const double qqq_z[4] = {qqq_nom_z, qqq_nom_z, qqq_nom_z, qqq_nom_z}; const double qqq_phi[4] = {5.49779, 0.785398, 2.35619, 3.92699}; const double ring_rho[12] = {0.0890601, 0.0889871, 0.0890354, 0.0890247, 0.0890354, 0.0890354, 0.0890247, 0.0890354, 0.0890354, 0.0890247, 0.0890354, 0.0890354}; const double ring_phi[12] = {0.785795, 0.262014, 6.02132, 5.49779, 4.97426, 4.45052, 3.92699, 3.40346, 2.87972, 2.35619, 1.83266, 1.30893}; /*************************/ static constexpr double threshold = 0.6; //MeV static constexpr double deg2rad = M_PI/180.0; static constexpr double si_thickness = 1000 * 1e-4 * 2.3926 * 1e6; //thickness in um -> eff thickness in ug/cm^2 for detector }; #endif