REST-for-Physics  v2.3
Rare Event Searches ToolKit for Physics
TRestAxionTrueWolterOptics.h
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22
23#ifndef _TRestAxionTrueWolterOptics
24#define _TRestAxionTrueWolterOptics
25#include <TRestAxionOptics.h>
26#include <TRestRingsMask.h>
27#include <TRestSpiderMask.h>
28#include <TRestTools.h>
29
30#include <iostream>
31
34 private:
36 std::vector<Double_t> fR1;
37
39 std::vector<Double_t> fR2;
40
42 std::vector<Double_t> fR3;
43
45 std::vector<Double_t> fR4;
46
48 std::vector<Double_t> fR5;
49
51 std::vector<Double_t> fAlpha;
52
54 std::vector<Double_t> fThickness;
55
59 std::vector<Double_t> fXSep;
60
63
66
69
72
74 std::vector<Double_t> fCosAlpha;
75
77 std::vector<Double_t> fCosAlpha_3;
78
80 std::vector<Double_t> fFrontVertex;
81
83 std::vector<Double_t> fBackVertex;
84
85 Int_t FirstMirrorReflection(const TVector3& pos, const TVector3& dir) override;
86 Int_t SecondMirrorReflection(const TVector3& pos, const TVector3& dir) override;
87
88 public:
89 void Initialize() override;
90
92 std::vector<Double_t> GetR1() {
93 std::vector<Double_t> r = TRestTools::GetColumnFromTable(fOpticsData, 0);
94 return r;
95 }
96
98 std::vector<Double_t> GetR2() {
99 std::vector<Double_t> r = TRestTools::GetColumnFromTable(fOpticsData, 1);
100 return r;
101 }
102
104 std::vector<Double_t> GetR3() {
105 std::vector<Double_t> r = TRestTools::GetColumnFromTable(fOpticsData, 2);
106 return r;
107 }
108
110 std::vector<Double_t> GetR4() {
111 std::vector<Double_t> r = TRestTools::GetColumnFromTable(fOpticsData, 3);
112 return r;
113 }
114
116 std::vector<Double_t> GetR5() {
117 std::vector<Double_t> r = TRestTools::GetColumnFromTable(fOpticsData, 4);
118 return r;
119 }
120
122 std::vector<Double_t> GetAlpha() {
123 std::vector<Double_t> alpha = TRestTools::GetColumnFromTable(fOpticsData, 5);
124 for (auto& x : alpha) x = x * units("rad") / units("deg");
125 return alpha;
126 }
127
129 std::vector<Double_t> GetThickness() {
130 std::vector<Double_t> t = TRestTools::GetColumnFromTable(fOpticsData, 7);
131 return t;
132 }
133
135 Double_t GetEntrancePositionZ() override {
136 if (fCosAlpha.size() > 0) return -fMirrorLength * fCosAlpha[0] - 0.5 * fXSep[0];
137 return 0;
138 }
139
141 Double_t GetExitPositionZ() override {
142 if (fCosAlpha_3.size() > 0) return fMirrorLength * fCosAlpha_3[0] + 0.5 * fXSep[0];
143 return 0;
144 }
145
146 std::pair<Double_t, Double_t> GetRadialLimits() override {
147 std::pair<Double_t, Double_t> result(0, 0);
148 if (!fR1.empty()) {
149 result = {fR1.front(), fR1.back()};
150 }
151 return result;
152 }
153
154 void SetMirror() override {
155 Double_t x = fEntrancePosition.X();
156 Double_t y = fEntrancePosition.Y();
158 }
159
160 TPad* DrawMirrors() override;
161
162 void PrintParameters();
163 void PrintSpider();
164 void PrintMetadata() override;
165 void InitFromConfigFile() override;
166
168 TRestAxionTrueWolterOptics(const char* cfgFileName, std::string name = "");
170
171 ClassDefOverride(TRestAxionTrueWolterOptics, 1);
172};
173#endif
An abstract class to define common optics parameters and methods.
Int_t fCurrentMirror
During the photon propagation it keeps track of the active mirror shell.
std::vector< std::vector< Double_t > > fOpticsData
The optics data table extracted from fOpticsFile.
Double_t fMirrorLength
The mirror length. If all mirrors got the same length. Otherwise will be zero.
TVector3 fEntrancePosition
The particle position at the optics plane entrance.
A class that calculates the reflection path of X-rays through a Wolter 1 telescope.
void SetMirror() override
It must be implemented at the inherited optics, making use of fEntrancePosition.
std::vector< Double_t > fR5
Radius R5 in mm. See schematic figure.
Int_t SecondMirrorReflection(const TVector3 &pos, const TVector3 &dir) override
Implementation of first mirror interaction. It updates fSecondInteractionPosition and fExitDirection ...
Double_t GetEntrancePositionZ() override
It returns the entrance Z-position defined by the optical axis.
std::vector< Double_t > fThickness
Mirror thickness in mm. See schematic figure.
TRestSpiderMask * fSpiderMask
The spider structure to be used as an optical opaque mask (common to all planes)
std::vector< Double_t > fR2
Radius R2 in mm. See schematic figure.
std::vector< Double_t > fR1
Entrance radius R1 in mm. See schematic figure.
std::vector< Double_t > GetThickness()
It returns a vector with the values of mirror thickness.
void Initialize() override
Initialization of TRestAxionTrueWolterOptics members.
std::vector< Double_t > fAlpha
Mirror angle (alpha) in radians. See schematic figure.
std::vector< Double_t > GetR5()
It returns a vector with the values of R5.
std::vector< Double_t > GetR3()
It returns a vector with the values of R3.
std::vector< Double_t > fR3
Radius R3 in mm. See schematic figure.
~TRestAxionTrueWolterOptics()
Default destructor.
std::vector< Double_t > fCosAlpha_3
Mirror pre-calculated cosine angle (alpha). See schematic figure.
Int_t FirstMirrorReflection(const TVector3 &pos, const TVector3 &dir) override
Implementation of first mirror interaction. It updates fFirstInteractionPosition and fMiddleDirection...
void InitFromConfigFile() override
Initialization of TRestAxionTrueWolterOptics field members through a RML file.
std::vector< Double_t > fR4
Radius R4 in mm. See schematic figure.
void PrintParameters()
It prints out the Wolter (relevant) parameters extracted from the optics data file,...
void PrintMetadata() override
Prints on screen the information about the metadata members of TRestAxionTrueWolterOptics.
TRestRingsMask * fEntranceRingsMask
The rings structure to be used at entrance as an optical opaque mask.
Double_t GetExitPositionZ() override
It returns the exit Z-position defined by the optical axis.
std::vector< Double_t > GetR2()
It returns a vector with the values of R2.
void PrintSpider()
It prints out the spider mask common to all the optical planes.
std::vector< Double_t > GetR4()
It returns a vector with the values of R4.
TRestAxionTrueWolterOptics()
Default constructor.
std::vector< Double_t > fFrontVertex
The Z-position of the cone vertex defined by the front mirrors.
TRestRingsMask * fExitRingsMask
The rings structure to be used at entrance as an optical opaque mask.
std::vector< Double_t > fBackVertex
The Z-position of the cone vertex defined by the back mirrors.
std::vector< Double_t > GetAlpha()
It returns a vector with the values of alpha.
TRestRingsMask * fMiddleRingsMask
The rings structure to be used at entrance as an optical opaque mask.
TPad * DrawMirrors() override
A method to to draw an optics schematic including the mirrors geometry.
std::vector< Double_t > GetR1()
It returns a vector with the values of R1.
std::pair< Double_t, Double_t > GetRadialLimits() override
It returns the lower/higher radius range where photons are allowed.
std::vector< Double_t > fCosAlpha
Mirror pre-calculated cosine angle (alpha). See schematic figure.
A class used to define a rings mask pattern.
virtual Int_t GetRegion(Double_t &x, Double_t &y) override
It returns a number identifying the region where the particle with coordinates (x,...
A class used to define and generate a spider structure mask.
static std::vector< T > GetColumnFromTable(const std::vector< std::vector< T > > &data, unsigned int column)
It returns a vector with the values extracted from the particular column inside the data table given ...
Definition: TRestTools.cxx:494