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[u/mrichter/AliRoot.git] / RICH / AliRICHParam.h
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d48cca74 1#ifndef AliRICHParam_h
2#define AliRICHParam_h
3
4#include <TObject.h>
5#include "AliRICHConst.h"
6
7class AliRICHParam :public TObject
8{
9public:
10 AliRICHParam();
3ba5db3e 11 void Recalc();//Recalculate dependent parameters after changes
12 void Segmentation(Int_t Nx, Int_t Ny) {fNx=Nx;fNy=Ny;Recalc();}
13 Int_t Nx() const{return fNx;}
14 Int_t Ny() const{return fNy;}
15 void DeadZone(Float_t a) { fDeadZone=a;Recalc();}
16 Float_t DeadZone() const{return fDeadZone;}
17 void PadSize(Float_t x,Float_t y) { fPadX=x;fPadY=y;Recalc();}
18 Float_t PadX() const{return fPadX;}
19 Float_t PadY() const{return fPadY;}
20 Float_t PadPlaneWidth() const{return fPadPlaneWidth;}
21 Float_t PadPlaneLength() const{return fPadPlaneLength;}
22 void Size(Float_t x,Float_t y,Float_t z){fSizeX=x;fSizeY=y;fSizeZ=z;}
23 void GeantSize(Float_t *pParam) const{pParam[0]=fSizeX/2;pParam[1]=fSizeY/2;pParam[2]=fSizeZ/2;}
24 Float_t SizeX() const{return fSizeX;}
25 Float_t SizeY() const{return fSizeY;}
26 Float_t SizeZ() const{return fSizeZ;}
27 void Offset(Float_t offset) { fOffset=offset;}
28 Float_t Offset() const{return fOffset;}
29 void AnglesDeg(Float_t xy,Float_t yz) { fAngleXY=xy;fAngleYZ=yz;}
30 Float_t AngleYZ() const{return fAngleYZ*d2r;}
31 Float_t AngleXY() const{return fAngleXY*d2r;}
32 void AngleRot(Float_t angle) { fAngleRot=angle;}
33 Float_t AngleRot() const{return fAngleRot*d2r;}
34 void GapThickness(Float_t a) { fGapThickness=a;}
35 Float_t GapThickness() const{return fGapThickness;}
36 void ProximityGapThickness(Float_t a) { fProximityGapThickness=a;}
37 Float_t ProximityGapThickness() const{return fProximityGapThickness;}
38 void QuartzLength(Float_t a) { fQuartzLength=a;}
39 Float_t QuartzLength() const{return fQuartzLength;}
40 void QuartzWidth(Float_t a) { fQuartzWidth=a;}
41 Float_t QuartzWidth() const{return fQuartzWidth;}
42 void QuartzThickness(Float_t a) { fQuartzThickness=a;}
43 Float_t QuartzThickness() const{return fQuartzThickness;}
44 void OuterFreonLength(Float_t a) { fOuterFreonLength=a;}
45 Float_t OuterFreonLength() const{return fOuterFreonLength;}
46 void OuterFreonWidth(Float_t a) { fOuterFreonWidth=a;}
47 Float_t OuterFreonWidth() const{return fOuterFreonWidth;}
48 void InnerFreonLength(Float_t a) { fInnerFreonLength=a;}
49 Float_t InnerFreonLength() const{return fInnerFreonLength;}
50 void InnerFreonWidth(Float_t a) { fInnerFreonWidth=a;}
51 Float_t InnerFreonWidth() const{return fInnerFreonWidth;}
52 void FreonThickness(Float_t a) { fFreonThickness=a;}
53 Float_t FreonThickness() const{return fFreonThickness;}
54 void RadiatorToPads(Float_t a) { fRadiatorToPads=a;}
55 Float_t RadiatorToPads() const{return fRadiatorToPads;}
56
57 void SigmaIntegration(Float_t a) { fSigmaIntegration=a;}
58 Float_t SigmaIntegration() const{return fSigmaIntegration;}
59 void ChargeSpreadX(Float_t a) { fChargeSpreadX=a;}
60 Float_t ChargeSpreadX() const{return fChargeSpreadX;}
61 void ChargeSpreadY(Float_t a) { fChargeSpreadY=a;}
62 Float_t ChargeSpreadY() const{return fChargeSpreadY;}
63 void ChargeSlope(Float_t a) { fChargeSlope=a;}
64 Float_t ChargeSlope() {return fChargeSlope;}
65 void MaxAdc(Float_t a) { fMaxAdc=a;}
66 Float_t MaxAdc() const{return fMaxAdc;}
67 void Pitch(Float_t a) { fPitch=a;};
68 Float_t Pitch() const{return fPitch;}
69 void AlphaFeedback(Float_t a) { fAlphaFeedback=a;}
70 Float_t AlphaFeedback() const{return fAlphaFeedback;}
71 void EIonisation(Float_t a) { fEIonisation=a;}
72 Float_t EIonisation() const{return fEIonisation;}
73 void SqrtKx3(Float_t a) { fSqrtKx3=a;};
74 void Kx2(Float_t a) { fKx2=a;};
75 void Kx4(Float_t a) { fKx4=a;};
76 void SqrtKy3(Float_t a) { fSqrtKy3=a;};
77 void Ky2(Float_t a) { fKy2=a;};
78 void Ky4(Float_t a) { fKy4=a;};
79 void WireSag(Int_t a) { fWireSag=a;};
80 void Voltage(Int_t a) { fVoltage=a;};
d48cca74 81protected:
82 Int_t fNx; //number of pads along X
83 Int_t fNy; //number of pads along Y
84 Float_t fDeadZone; //spacer between PC planes, cm
85 Float_t fPadX; //pad width, cm
86 Float_t fPadY; //pad lenght, cm
87 Float_t fPadPlaneWidth; //pad plane width, cm
88 Float_t fPadPlaneLength; //pad plane length, cm
89
90 Float_t fSizeX; //chamber length, cm
91 Float_t fSizeY; //chamber thickness, cm
92 Float_t fSizeZ; //chamber width, cm
93 Float_t fAngleRot; //azimuthal rotation angle in X-Y plane, grad
94 Float_t fAngleYZ; //angle between RICH chambers in YZ plane, grad
95 Float_t fAngleXY; //angle between RICH chambers in XY plane, grad
96 Float_t fOffset; //chambers offset from IP, cm
97 Float_t fGapThickness; //gap thickness, cm
98 Float_t fProximityGapThickness; //proximity gap thickness, cm
99 Float_t fQuartzLength; //quartz length
100 Float_t fQuartzWidth; //quartz width
101 Float_t fQuartzThickness; //quartz thickness
102 Float_t fOuterFreonLength; //outer freon length
103 Float_t fOuterFreonWidth; //outer freon width
104 Float_t fInnerFreonLength; //inner freon length
105 Float_t fInnerFreonWidth; //inner freon width
106 Float_t fFreonThickness; //freon thickness
107 Float_t fRadiatorToPads; //distance from radiator to pads
108
109 Float_t fChargeSlope; //Slope of the charge distribution
110 Float_t fChargeSpreadX; //Width of the charge distribution in x
111 Float_t fChargeSpreadY; //Width of the charge distribution in y
112 Float_t fSigmaIntegration; //Number of sigma's used for charge distribution
113 Float_t fAlphaFeedback; //Feedback photons coefficient
114 Float_t fEIonisation; //Mean ionisation energy
115 Float_t fMaxAdc; //Maximum ADC channel
116 Float_t fSqrtKx3; //Mathieson parameters for x
117 Float_t fKx2; //Mathieson parameters for x
118 Float_t fKx4; //Mathieson parameters for x
119 Float_t fSqrtKy3; //Mathieson parameters for y
120 Float_t fKy2; //Mathieson parameters for y
121 Float_t fKy4; //Mathieson parameters for y
122 Float_t fPitch; //Anode-cathode pitch
123 Int_t fWireSag; //Flag to turn on/off (0/1) wire sag
124 Int_t fVoltage; //Working voltage (2000, 2050, 2100, 2150)
125
126 ClassDef(AliRICHParam,1) //RICH main parameters
127};
128
129#endif //AliRICHParam_h