source: trunk/Mars/msimreflector/MFresnelLens.h@ 20091

Last change on this file since 20091 was 19675, checked in by tbretz, 5 years ago
Allow to read Transmission curve during init process, simplified the main loop a bit further by removing the pre-step, note that the transmission is now a coefficient and not in percent anymore.
File size: 6.1 KB
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1#ifndef MARS_MFresnelLens
2#define MARS_MFresnelLens
3
4#include <TVector3.h>
5
6#ifndef MARS_MOptics
7#include "MOptics.h"
8#endif
9#ifndef MARS_MSpline3
10#include "MSpline3.h"
11#endif
12#ifndef MARS_MQuaternion
13#include "MQuaternion.h"
14#endif
15
16class MFresnelLens : public MOptics
17{
18public:
19 // --------------- Helper class ---------------------
20 // This is a TVector3 which is nromalized and takes theta and phi as arguent
21 // same as calling
22 // TVector3 v;
23 // v.SetMagThetaPhi(1, theta, phi);
24 class VectorNorm : public TVector3
25 {
26 public:
27 VectorNorm(double theta, double phi) :
28 TVector3(
29 sin(theta) * cos(phi),
30 sin(theta) * sin(phi),
31 cos(theta)
32 )
33 {
34 }
35 };
36
37 // ----------- Properties of the grooves -------------
38
39 struct Cone
40 {
41 double z; // z-coordinate of the peak of the cone (x=y=0)
42 double theta; // Opening angle of the cone [rad]
43 double tan_theta; // tan(theta)
44 double tan_theta2; // tan(theta)*tan(theta)
45 double h; // height of the slope (intersection point in the valley), h<0
46 double theta_norm; // theta angle of the normal vector corresponding to the cone surface
47 };
48
49 struct Groove
50 {
51 double r; // Radius of the intersection point between slope and draft angle
52
53 Cone slope; // Description of the slope angle
54 Cone draft; // Description of the draft angle
55 };
56
57private:
58
59 // --------------------------------------------------
60
61 Double_t fMaxR; //!
62
63 // ------------- Properties of the lens --------------
64
65 double fF; // Focal length
66 double fR; // Radius of lens
67 double fW; // Width of groove
68 double fH; // Thickness of lens
69 double fN; //! Reference refractive index for lens design
70 double fLambda; // Wavelength [nm] corresponding to fN (at which lens is optimized)
71 double fVc; //! Velocity of light within the lens material [cm/ns]
72 double fPSF; // Measure for the surface roughness
73
74 std::vector<Groove> fGrooves; //! Collection of all grooves
75
76 // ----------- Properties of the material -------------
77
78 MSpline3 fAbsorptionLength; // Spline storing the absorption length vs wavelength
79
80 // ----------------------------------------------------
81
82 bool fSlopeAbsorption; //! Absorb rays which hit the slope surface
83 bool fDraftAbsorption; //! Absorb rays which hit the draft surface
84 bool fBottomReflection; //! Absorb rays which would be reflected at the exit surface
85 bool fDisableMultiEntry; //! Absorb upgoing rays inside the material which do not originate from the exit surface
86 bool fFresnelReflection; //! Disable Fresnel reflection
87 UInt_t fMinHits; //! Minimum number of surface contacts to define a successfull passage
88 UInt_t fMaxHits; //! Maximum number of surface contacts to define a successfull passage (0=unlimited)
89
90 void InitMaxR();
91 void InitGeometry(double maxr, double width, double N0, double F, double d);
92 bool Transmission(double dt, double lambda) const;
93
94 double CalcIntersection(const MQuaternion &p, const MQuaternion &u, const Cone &cone) const;
95 int FindPeak(size_t i, const MQuaternion &p, const MQuaternion &u) const;
96
97 //int EnterGroove(int surface, double n0, double lambda, MQuaternion &pos, MQuaternion &dir) const;
98 //int LeavePeak(int surface, double n0, double lambda, MQuaternion &pos, MQuaternion &dir, double T0) const;
99
100 int EnterGroove(int surface, double n0, MQuaternion &pos, MQuaternion &dir) const;
101 int LeavePeak(int surface, double n0, MQuaternion &pos, MQuaternion &dir, double T0) const;
102
103 // MParContainer
104 Int_t ReadEnv(const TEnv &env, TString prefix, Bool_t print);
105
106public:
107 MFresnelLens(const char *name=NULL, const char *title=NULL);
108
109 Double_t GetMaxR() const { return fMaxR; }
110 Double_t GetA() const;
111
112 virtual Bool_t CanHit(const MQuaternion &p) const;
113
114 Int_t ExecuteOptics(MQuaternion &p, MQuaternion &u, const Short_t &) const;
115 Int_t TraceRay(std::vector<MQuaternion> &vec, MQuaternion &p, MQuaternion &u, const Short_t &wavelength, bool verbose=false) const;
116
117 Bool_t IsValid() const { return fGrooves.size(); }
118
119 // -----------------------------------------------------------
120
121 void SetPSF(const double &psf) { fPSF = psf; }
122 void DefineLens(double F=50.21, double D=54.92, double w=0.01, double h=0.25, double lambda=546);
123
124 Int_t ReadTransmission(const TString &file, float thickness, bool correction=true);
125
126 // -----------------------------------------------------------
127
128 void EnableSlopeAbsorption(bool abs=true) { fSlopeAbsorption = abs; }
129 void EnableDraftAbsorption(bool abs=true) { fDraftAbsorption = abs; }
130 void DisableBottomReflection(bool ref=true) { fBottomReflection = !ref; }
131 void DisableMultiEntry(bool mul=true) { fDisableMultiEntry = mul; }
132 void DisableFresnelReflection(bool ref=true) { fFresnelReflection = !ref; }
133
134 void SetMinHits(UInt_t min) { fMinHits = min; }
135 void SetMaxHits(UInt_t max) { fMaxHits = max; }
136
137 // -----------------------------------------------------------
138
139 const std::vector<MFresnelLens::Groove> GetGrooves() const { return fGrooves; }
140 const Groove &GetGroove(int i) const { return fGrooves[i]; }
141 const Groove &operator[](int i) const { return fGrooves[i]; }
142 size_t GetNumGrooves() const { return fGrooves.size(); }
143
144 // -----------------------------------------------------------
145
146 static double RefractiveIndex(double lambda);
147 static double SlopeAngle(double r, double F, double n, double d);
148 static double DraftAngle(double r);
149
150 static double SlopeAngleParabolic(double r, double F, double n0, double n1, double d);
151 static double SlopeAngleAspherical(double r);
152 static double SlopeAngleOptimized(double r, double F, double n);
153
154 double SlopeAngle(const double &r) const
155 {
156 return SlopeAngle(r, fF, fN, fH);
157 }
158
159 // -----------------------------------------------------------
160
161 ClassDef(MFresnelLens, 1) // Parameter container storing the description of a fresnel lens
162};
163
164#endif
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