* See cxx source for full Copyright notice */
/* $Id$ */
class TGeoVolume;
+class TGeoShape;
class TGeoCombiTrans;
class TGeoMedium;
class TGeoCompositeShape;
class TGeoTube;
class TGeoHMatrix;
class TGeoTranslation;
+class TGeoRotation;
class TGeoXtru;
class TGeoVolumeAssembly;
#include "AliITSv11Geometry.h"
/////////////////////////////////////////////////////////////////////////
// Public methods
/////////////////////////////////////////////////////////////////////////
+ void CreateMaterials(); // Method setting the materials
TGeoMedium* GetMedium(const char* mediumName); // It returns the Medium
- const char* GetSenstiveVolumeName5() const {return fgSDDsensitiveVolName5;};
+ const char* GetSenstiveVolumeName5() const {return fgSSDsensitiveVolName5;};
// it returns the Sensitive Volume of Layer 5
- const char* GetSenstiveVolumeName6() const {return fgSDDsensitiveVolName6;};
+ const char* GetSenstiveVolumeName6() const {return fgSSDsensitiveVolName6;};
// it returns the Sensitive Volume of Layer 6
TGeoVolumeAssembly* GetLadderSegment(Int_t i){return fladdersegment[i];}; // Get Ladder Segment
TGeoVolumeAssembly* GetEndLadderSegment(Int_t i){return fendladdersegment[i];}; // Get End Ladder Segment
TGeoVolume* GetLadder(Int_t i) {return fladder[i];}; // Get Ladder
- TGeoVolume* GetLayer(Int_t i)const {return i==5? fSSDLayer5 : fSSDLayer6;}; // Get Layer
+// TGeoVolumeAssembly* GetLadder(Int_t i) {return fladder[i];}; // Get Ladder
+ TGeoVolumeAssembly* GetLayer(Int_t i)const {return i==5? fSSDLayer5 : fSSDLayer6;}; // Get Layer
TGeoVolume** GetEndCapAssembly(); // End Cap Assembly
void SetLadderSegment(); // Set Ladder Elementary Segment
void SetEndLadderSegment(); // Set End Ladder Segment
void SetLadder(); // Set Ladder
void SetLayer(); // Set Layer
+ void SetSSDCone(); // Set SSD Cone
+ TGeoVolume* SetSSDCables(); // Set SSD Cables
void Layer5(TGeoVolume* moth); // Setting Layer 5 into mother volume
void Layer6(TGeoVolume* moth); // Setting Layer 6 into mother volume
void LadderSupportLayer5(TGeoVolume* moth); // Setting Ladder Support of Layer 5
void LadderSupportLayer6(TGeoVolume* moth); // Setting Ladder Support of Layer 6
void EndCapSupportSystemLayer5(TGeoVolume* moth); // Setting End Cap Support + End Cap Assembly Layer 5
void EndCapSupportSystemLayer6(TGeoVolume* moth); // Setting End Cap Support + End Cap Assembly Layer 6
+ void SSDCone(TGeoVolume* moth); // Setting SSD Cone;
+ void SSDCables(TGeoVolume* moth); // Setting SSD Cables;
private:
/////////////////////////////////////////////////////////////////////////////////
// Names of the Sensitive Volumes of Layer 5 and Layer 6
/////////////////////////////////////////////////////////////////////////////////
- static const char* fgSDDsensitiveVolName5; // sens. vol. name for lay. 5
- static const char* fgSDDsensitiveVolName6; // sens. vol. name for lay. 6
+ static const char* fgSSDsensitiveVolName5; // sens. vol. name for lay. 5
+ static const char* fgSSDsensitiveVolName6; // sens. vol. name for lay. 6
+ /////////////////////////////////////////////////////////////////////////////////
+ // Variable for Vertical Disalignement of Modules
+ /////////////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkSSDModuleVerticalDisalignment; // Vertical Disalignement of Volume
+ static const Double_t fgkSSDModuleSideDisalignment; // Vertical Disalignement of Volume
+ static const Double_t fgkSSDLadderVerticalDisalignment; // Extra space at ladder support for disalignment
+ static const Double_t fgkSSDTolerance; // SSD Tolerance
/////////////////////////////////////////////////////////////////////////
// Layer5 (lengths are in mm and angles in degrees)
/////////////////////////////////////////////////////////////////////////
static const Double_t fgkSSDFlexFullLength; // SSD Flex Full Length
static const Double_t fgkSSDFlexLength[4]; // SSD Flex Components Length
static const Double_t fgkSSDFlexWidth[2]; // SSD Flex Components Width
- static const Double_t fgkSSDFlexHeight[2]; // SSD Flex Layers Heigth
+ static const Double_t fgkSSDFlexHeight[2]; // SSD Flex Layers Height
static const Double_t fgkSSDFlexAngle; // SSD Flex Angle
static const Double_t fgkSSDFlexHoleLength; // SSD Flex Hole Length
static const Double_t fgkSSDFlexHoleWidth; // SSD Flex Hole Width
/////////////////////////////////////////////////////////////////////////
//Parameters for Carbon Fiber Lower Support (lengths are in mm)
/////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkLowerSupportToSensorZ; // Distance from lower support to sensor center
static const Double_t fgkCarbonFiberLowerSupportWidth; // Lower Support of Carbon Fiber Width
static const Double_t fgkCarbonFiberLowerSupportLowerLenght; // Lower Support of Carbon Fiber Length
static const Double_t fgkCarbonFiberLowerSupportHeight; // Lower Support of Carbon Fiber Height
static const Double_t fgkSSDMountingBlockHoleTubeWidth[2]; // SSD Mounting Block Hole Tube Width
static const Double_t fgkSSDMountingBlockHoleRadius; // SSD Mounting Block Hole radius
static const Double_t fgkSSDMountingBlockScrewHoleEdge; // SSD Mounting Block Screw Hole Edge
- static const Double_t fgkSSDMountingBlockScrewHoleHeigth; // SSD Mounting Block Screw Hole Height
+ static const Double_t fgkSSDMountingBlockScrewHoleHeight; // SSD Mounting Block Screw Hole Height
static const Double_t fgkSSDMountingBlockScrewHoleRadius[2]; // SSD Mounting Block Screw Hole Radii
/////////////////////////////////////////////////////////////////////////
// SSD Mounting Block Clip Parameters (lengths are in mm and angles in degrees)
// SSD Mounting Block Support Parameters (lengths are in mm and angles in degrees)
/////////////////////////////////////////////////////////////////////////////////
static const Double_t fgkMountingBlockSupportWidth[2]; // SSD Mounting Block Support Width
- static const Double_t fgkMountingBlockSupportDownHeight; // SSD Mounting Block Support Down Heigth
+ static const Double_t fgkMountingBlockSupportDownHeight; // SSD Mounting Block Support Down Height
static const Double_t fgkMountingBlockSupportRadius[2]; // SSD Mounting Block Support Radius
- static const Double_t fgkMountingBlockSupportUpHeight[2]; // SSD Mounting Block Support Heigth
- static const Double_t fgkLadderSupportHeigth; // SSD Ladder Support Width
+ static const Double_t fgkMountingBlockSupportUpHeight[2]; // SSD Mounting Block Support Height
+ static const Double_t fgkLadderSupportHeight; // SSD Ladder Support Width
static const Double_t fgkLadderSupportRingLay5Position; // SSD Ladder Support Ring Position Layer5 respect to ITS center
static const Double_t fgkLadderSupportRingLay6Position; // SSD Ladder Support Ring Position Layer6 respect to ITS center
/////////////////////////////////////////////////////////////////////////////////
static const Double_t fgkEndCapKaptonFoilLength; // End Cap Kapton Foil Length
static const Double_t fgkEndCapKaptonFoilWidth ; // End Cap Kapton Foil Width
/////////////////////////////////////////////////////////////////////////
+ // SSD Cone
+ /////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkSSDLowerPConeRadius; // SSD Cone Lower Radius
+ static const Double_t fgkSSDPConeAngle; // SSD Cone Angle
+ static const Double_t fgkSSDPConeZLength[2]; // SSD Cone ZLength
+ static const Double_t fgkSSDPConeLittleHoleRadius; // SSD Cone Little Hole Radius
+ static const Double_t fgkSSDPConeLittleHoleLength; // SSD Cone Little Hole Length
+ static const Double_t fgkSSDConeMiddleRadius; // SSD Cone Middle Radius
+ static const Double_t fgkSSDPConeMiddleLength; // SSD Cone Middle Length
+ static const Double_t fgkSSDPConeMiddleWidth; // SSD Cone Middle Width
+ static const Double_t fgkSSDPConeUpRadius; // SSD Cone Up Radius
+ static const Double_t fgkSSDPConeUpMaxRadius; // SSD Cone Up Max Radius
+ static const Double_t fgkSSDPConeUpMiddleRadius; // SSD Cone Up Middle Radius
+ static const Double_t fgkSSDPConeDownRadius; // SSD Cone Down Radius
+ static const Double_t fgkSSDPConeTrapezoidAngle; // SSD Cone Trapezoid Angle
+ static const Double_t fgkSSDPConeTrapezoidBasis; // SSD Cone Trapezoid Basis
+ static const Double_t fgkSSDPConeExternalRadius; // SSD Cone External Radius
+ static const Double_t fgkSSDPConeRadiusWidth; // SSD Cone Radius Width
+ static const Double_t fgkSSDPConeLength; // SSD Cone Length
+ static const Double_t fgkSSDCentralSupportLength; //SSD Central Support Length
+ static const Double_t fgkSSDCentralSupportRadius; // SSD Central Support Radius
+ static const Double_t fgkSSDCentralSupportWidth; // SSD Central Support Width
+ static const Double_t fgkSSDCentralAL3SupportLength; // SSD Central Support Length
+ static const Double_t fgkSSDCentralAL3SupportWidth; // SSD Central Support Width
+ /////////////////////////////////////////////////////////////////////////
+ // SSD Cables e Patch Panel
+ /////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkSSDCablesLay5TubeRadiusMin; // Radius Min Cable Tube Layer 5
+ static const Double_t fgkSSDCablesLay6TubeRadiusMin; // Radius Min Cable Tube Layer 6
+ static const Double_t fgkSSDCablesLay5RightSideHeight; // Width Lay 5 Cables to be fixed in order to reproduce material budget
+ static const Double_t fgkSSDCablesLay6RightSideHeight; // // Width Lay 5 Cables to be fixed in order to reproduce material budget
+ static const Double_t fgkSSDCableAngle; // Angle Cable
+ static const Double_t fgkSSDCablesLay5RightSideWaterHeight; // Width Lay 5 Water Cables to be fixed in order to reproduce material budget
+ static const Double_t fgkSSDCablesPatchPanel2RB26Angle[2]; // Angle Position Patch Panel RB26
+ static const Double_t fgkSSDCablesPatchPanel2RB24Angle[2]; // Angle Position Patch Panel RB24
+ static const Double_t fgkSSDPatchPanel2RB26ITSDistance; // Patch Panel RB26 Position
+ static const Double_t fgkSSDPatchPanel2RB24ITSDistance; // Patch Panel RB24 Position
+ static const Double_t fgkSSDPatchPanel2RB26Radius; // Patch Panel Radius
+ static const Double_t fgkSSDPatchPanel2RB24Radius; // Patch Panel Radius
+ static const Double_t fgkSSDPatchPanelHeight; // Patch Panel Height
+ static const Double_t fgkSSDCableMaterialBudgetHeight; // SSD Cable Material Budget
+ /////////////////////////////////////////////////////////////////////////
// Private methods for private members generation
/////////////////////////////////////////////////////////////////////////
- void CreateMaterials(); // Method setting the materials
+
void CreateTransformationMatrices(); // Method setting the transformation matrices
void CreateBasicObjects(); // Method creating the basic objects of ssd geometry
void SetSSDSensor(); // Method setting the SSD Layer 5 and 6 sensors
TGeoVolume* GetSSDEndFlex(); // Method generating EndFlex
TGeoVolume* GetSSDMountingBlock(); // Method generating Mounting Block
TGeoVolume* GetMountingBlockClip() const; // Method generating Mounting Block Clip
- TList* GetCoolingTubeList()const; // Method generating list of Tubes
+ void CreateCoolingTubes(); // Create/set cooling tubes
TGeoVolume* GetSSDCoolingBlock(Int_t nedges);
// Method generating StiffenerFlex
- TGeoVolume* GetSSDChipCables(Double_t SSDChipCablesHeigth, Int_t nedges);
+ void GetSSDChipCables(TGeoVolume *&cableL, TGeoVolume *&cableR, Double_t SSDChipCablesHeigth, Int_t nedges);
// Method setting ChipCables
- TList* GetSSDChipSystem(); // Method setting Chip System
- TGeoVolume* GetSSDChips() const; // Method generating Chips
+ TGeoVolume* GetSSDChip() const; // Method generating Chips
TList* GetLadderCableSegment(Double_t ssdendladdercablelength);
// Method generating LadderCableSegment
TGeoVolume* GetLadderCable(Int_t n, Double_t ssdendladdercablelength);
TGeoVolume** EndCapSupport(); // End Cap Support Layer 5 and Layer 6
void SetEndCapSupportAssembly(); // EndCap Support + End Cap Layer 5 and 6
TGeoVolume* GetEndCapEffectiveCables(Double_t radiusmin, Double_t radiusmax,
- Double_t width,Int_t ncables,char* volname); // End Cap Effective HV Cables
+ Double_t width,Int_t ncables,const char* volname); // End Cap Effective HV Cables
TGeoXtru* GetArcShape(Double_t phi, Double_t rmin,
Double_t rmax, Int_t nedges, Double_t height);
//Auxiliary Method for Arc Shape
TGeoArb8* GetArbShape(TVector3* vertexpos[],Double_t* width,
- Double_t height,char* shapename,Int_t isign = 1) const;
+ Double_t height,const char* shapename,Int_t isign = 1) const;
// Method generating an Arb shape
- TGeoXtru* GetScrewShape(Double_t* radius,Int_t* edgesnumber,Double_t* section) const;// Method Generating the Screw Shape
- TGeoXtru* GetHoleShape(Double_t radius, Int_t nedges, Double_t *section) const;// Method Generating the Hole Shape
+ TGeoShape* GetScrewShape(Double_t* radius,Int_t* edgesnumber,Double_t* section) const;// Method Generating the Screw Shape
+ TGeoShape* GetHoleShape(Double_t radius, Int_t nedges, Double_t *section) const;// Method Generating the Hole Shape
TVector3* GetReflection(TVector3* vector,Double_t* param) const;
// Given an axis specified by param,
// it gives the reflection of the point respect to the axis
TGeoMedium* fSSDCoolingTubePhynox; // Medium for Cooling Tube
TGeoMedium* fSSDSupportRingAl; // Medium for Support Ring
TGeoMedium* fSSDMountingBlockMedium; // Medium for SSD Mounting Block
+ TGeoMedium* fSSDRohaCellCone; // Medium for SSD Ring Cone Support
TGeoMedium* fSSDAir; // SSD Air
+ TGeoMedium* fSSDCopper; // Copper for SSD Cables
/////////////////////////////////////////////////////////////////////////
Bool_t fCreateMaterials; // Bool variable which verifies if materials have been created
Bool_t fTransformationMatrices; // Bool variable which verifies if matrices have been allocated
/////////////////////////////////////////
// Cooling Tube
/////////////////////////////////////////
- static const Int_t fgkcoolingtubenumber = 3; // Coling Tube Number
- TGeoHMatrix** fcoolingtubematrix[fgkcoolingtubenumber+1]; // Cooling Tube Matrix
- TGeoVolume* fcoolingtube[fgkcoolingtubenumber]; // Ladder Cooling Tube
- static const Int_t fgkendladdercoolingtubenumber = 5; // End Ladder Cooling Tube Number
+ TGeoHMatrix* fcoolingtubematrix[2]; // Cooling Tube Matrix
+ TGeoVolume* fcoolingtube; // Ladder Cooling Tube
+ static const Int_t fgkendladdercoolingtubenumber = 2; // End Ladder Cooling Tube Number
TGeoVolume* fendladdercoolingtube[fgkendladdercoolingtubenumber]; // End Ladder Cooling Tube
- TGeoHMatrix** fendladdercoolingtubematrix[2]; //End ladder cooling tube matrix
+ TGeoHMatrix* fendladdercoolingtubematrix[fgkendladdercoolingtubenumber][2]; //End ladder cooling tube matrix
/////////////////////////////////////////
// End Ladder Components
/////////////////////////////////////////
static const Int_t fgkladdernumber = 2; // Ladder Number
TGeoVolume* fladder[fgkladdernumber]; //fladder[0]: ladder of Layer 5
//fladder[1]: ladder of Layer 6
+// TGeoVolumeAssembly* fladder[fgkladdernumber];
TGeoHMatrix** fladdermatrix[fgkladdernumber]; // Ladder Matrix
///////////////////////////////////
// SSD Sensor
// SSD Layer
///////////////////////////////////
static const Int_t fgklayernumber = 2; // Layer Number
- TGeoVolume* fSSDLayer5; // SSD Layer 5
- TGeoVolume* fSSDLayer6; // SSD Layer 6
+ TGeoVolumeAssembly* fSSDLayer5; // SSD Layer 5
+ TGeoVolumeAssembly* fSSDLayer6; // SSD Layer 6
TGeoHMatrix** flayermatrix[fgklayernumber]; // Layer Transformations
/////////////////////////////////////////////////////////////////////////
// Mother Volume
/////////////////////////////////////////////////////////////////////////
// End Cap Support + End Cap Assembly
/////////////////////////////////////////////////////////////////////////
- TGeoVolume* fgkEndCapSupportSystem[4]; // End Cap Support + End Cap Assembly
+ TGeoVolume** fgkEndCapSupportSystem; // End Cap Support + End Cap Assembly
+ /////////////////////////////////////////////////////////////////////////
+ // SSD Cone
+ /////////////////////////////////////////////////////////////////////////
+ TGeoVolumeAssembly* fSSDCone; // SSD Cone
/////////////////////////////////////////////////////////////////////////
// Color Display
/////////////////////////////////////////////////////////////////////////
Int_t fColorEpoxy; // ===
Int_t fColorWater; // ===
Int_t fColorG10; // ===
-ClassDef(AliITSv11GeometrySSD, 3) // ITS v11 SSD geometry
+ClassDef(AliITSv11GeometrySSD, 4) // ITS v11 SSD geometry
};
#endif