+#ifndef ALIITSV11GEOMETRYSSD_H
+#define ALIITSV11GEOMETRYSSD_H
//*************************************************************************
// class AliITSv11GeometrySSD
// Enrico Cattaruzza ecattar@ts.infn.it
//*************************************************************************
-#ifndef ALIITSV11GEOMETRYSSD_H
-#define ALIITSV11GEOMETRYSSD_H
-#include <TObject.h>
+/* Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. *
+ * See cxx source for full Copyright notice */
+/* $Id$ */
class TGeoVolume;
+class TGeoShape;
class TGeoCombiTrans;
class TGeoMedium;
class TGeoCompositeShape;
class TList;
class TGeoTube;
class TGeoHMatrix;
-class AliITSv11GeometrySSD: public TObject {
+class TGeoTranslation;
+class TGeoRotation;
+class TGeoXtru;
+class TGeoVolumeAssembly;
+#include "AliITSv11Geometry.h"
+class AliITSv11GeometrySSD: public AliITSv11Geometry {
public:
AliITSv11GeometrySSD();
- AliITSv11GeometrySSD(const AliITSv11GeometrySSD &source);
- AliITSv11GeometrySSD& operator=(const AliITSv11GeometrySSD &source);
virtual ~AliITSv11GeometrySSD(){};
/////////////////////////////////////////////////////////////////////////
// Public methods
/////////////////////////////////////////////////////////////////////////
- const char* GetSensitiveVolumeName() const {return fgkSSDSensitiveVolName;};
- // Method returning the name of the sensitive part of detector
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDSensorSupportShape(Double_t length,Double_t height,
- Double_t width,Double_t* thickness);
- // Method returning the name of the sensitive part of detector
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDSensorSupport(Int_t VolumeKind,Int_t n);
- // Method returning the SSD Sensor Support
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDSensorSupportAssembly(Int_t n);
- // Method returning the SSD Sensor Support Assembly
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDSensor();
- // Method returning the SSD Sensor
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDChipAssembly() const;
- // Method returning the SSD Chip Assembly
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDChipCables(Double_t ssdchipcablesheigth,char* side);
- // Method returning the SSD Chip Cables
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDChipCablesAssembly(Double_t ssdchipcablesheigth);
- // Method returning the SSD Chip Cables Assembly
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDStiffenerAssembly();
- // Method returning the SSD Stiffener Assembly
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDFlex(Double_t ssdflexradius, Double_t ssdflexheigth);
- // Method returning the SSD Flex
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDEndFlex(Double_t ssdendflexlength,Double_t ssdflexheigth);
- // Method returning the SSD End Flex
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDFlexAssembly();
- // Method returning the SSD Flex Assembly
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDCoolingBlock();
- // Method returning the SSD Cooling Block
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDCoolingBlockAssembly();
- // Method returning the SSD Cooling Block Assembly
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDModule(Int_t ichipcablesheight);
- // Method returning the SSD Module
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetCarbonFiberJunction(Double_t width);
- // Method returning the Carbon Fiber Junction
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetCarbonFiberJunctionAssembly();
- // Method returning the Carbon Fiber Junction Assembly
- /////////////////////////////////////////////////////////////////////////
- TList* GetLadderCableSegment(Double_t ssdendladdercablelength);
- // Method returning a List containing pointers to Ladder Cable Volumes
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetLadderCable(Int_t n,Double_t ssdendladdercablelength);
- // Method generating Ladder Cable Volumes Assemblies
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetLadderCableAssembly(Int_t n,Double_t ssdendladdercablelength);
- // Method generating Ladder Cable Volumes Assembly
- /////////////////////////////////////////////////////////////////////////
- TList* GetLadderCableAssemblyList(Int_t n,Double_t ssdendladdercablelength);
- // Method generating Ladder Cable List Assemblies
- /////////////////////////////////////////////////////////////////////////
- TList* GetEndLadderCarbonFiberJunctionAssembly();
- // Method generating the End Ladder Carbon Fiber Junction Assembly
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetCarbonFiberSupport();
- // Method generating the Carbon Fiber Support
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetCarbonFiberLowerSupport(Int_t i=0,Bool_t endladder = false);
- // Method generating the Carbon Fiber Lower Support
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetCarbonFiberAssemblySupport();
- // Method generating the Carbon Fiber Assembly Support
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetCoolingTubeSupport();
- // Method generating the Cooling Tube Support
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetCoolingTubeSupportAssembly();
- // Method generating the Cooling Tube Support Assembly
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetCoolingTube() const;
- // Method generating the Cooling Tube
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetCoolingTubeAssembly();
- // Method generating the Cooling Tube Assembly
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetLadderSegment(Int_t iChipCablesHeight);
- // Method generating the basic Ladder Segment element which will be replicated
- /////////////////////////////////////////////////////////////////////////
- TList* GetEndLadderSegment();
- // Method generating the Terminal Ladder Segment
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetSSDMountingBlock();
- // Method generating the Terminal Ladder Mounting Block
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetLadder(Int_t iLayer);
- // Method generating the Layer5 or Layer6 Ladder
- /////////////////////////////////////////////////////////////////////////
- TGeoVolume* GetLayer(Int_t iLayer);
- // Method generating the Layer5 or Layer6
- /////////////////////////////////////////////////////////////////////////
- void Layer5(TGeoVolume* mothervolume);
- // Method placing the Layer5 within mother volume
- /////////////////////////////////////////////////////////////////////////
- void Layer6(TGeoVolume* mothervolume);
- // Method placing the Layer6 within mother volume
-// TGeoMedium *GetMedium(char*); // to be interfaced with AliRoot
- /////////////////////////////////////////////////////////////////////////
- //Auxiliary methods for shapes building
- /////////////////////////////////////////////////////////////////////////
- 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
- /////////////////////////////////////////////////////////////////////////
- TGeoArb8* GetArbShape(TVector3* vertexpos[],Double_t* width,
- Double_t height,char* shapename,Int_t isign = 1) const;
- // Method generating an arb shape
- /////////////////////////////////////////////////////////////////////////
- TGeoArb8* GetTriangleShape(TVector3* vertexpos[],Double_t height, char* shapename) const;
- // Method generating a triangle shape
- /////////////////////////////////////////////////////////////////////////
- TGeoArb8* GetTrapezoidShape(TVector3* vertexpos[],Double_t* width,
- Double_t height,char* shapename) const;
- // Method generating a trapezoid shape
- /////////////////////////////////////////////////////////////////////////
- TGeoCombiTrans* AddTranslationToCombiTrans(TGeoCombiTrans* ct,Double_t dx,
- Double_t dy,Double_t dz) const;
- // add (dx,dy,dz) translation to a initial TGeoCombiTrans
- /////////////////////////////////////////////////////////////////////////
- //Auxiliary methods for material building
- /////////////////////////////////////////////////////////////////////////
- TGeoMedium* GetMedium(const char* mediumName);
- // It returns the Medium
- /////////////////////////////////////////////////////////////////////////
- void CreateMaterials();
- // it creates the matherials
+ void CreateMaterials(); // Method setting the materials
+ TGeoMedium* GetMedium(const char* mediumName); // It returns the Medium
+ const char* GetSenstiveVolumeName5() const {return fgkSSDsensitiveVolName5;};
+ // it returns the Sensitive Volume of Layer 5
+ const char* GetSenstiveVolumeName6() const {return fgkSSDsensitiveVolName6;};
+ // it returns the Sensitive Volume of Layer 6
+ TGeoVolumeAssembly* GetLadderSegment(Int_t i) const {return fladdersegment[i];}; // Get Ladder Segment
+ TGeoVolumeAssembly* GetEndLadderSegment(Int_t i) const {return fendladdersegment[i];}; // Get End Ladder Segment
+ TGeoVolume* GetLadder(Int_t i) const {return fladder[i];}; // Get Ladder
+// 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:
+ AliITSv11GeometrySSD(const AliITSv11GeometrySSD &source);
+ AliITSv11GeometrySSD& operator=(const AliITSv11GeometrySSD &source);
+
+ /////////////////////////////////////////////////////////////////////////////////
+ // Names of the Sensitive Volumes of Layer 5 and Layer 6
+ /////////////////////////////////////////////////////////////////////////////////
+ static const char* fgkSSDsensitiveVolName5; // sens. vol. name for lay. 5
+ static const char* fgkSSDsensitiveVolName6; // 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 fgkSSDChipGlueLength; // SSD Module Chip Glue Layer Length
static const Double_t fgkSSDChipGlueWidth; // SSD Module Chip Glue Layer Width
static const Double_t fgkSSDChipGlueHeight; // SSD Module Chip Glue Layer Height
- TGeoMedium* fSSDChipMedium; // SSD Module Chip Medium
- TGeoMedium* fSSDChipGlueMedium; // SSD Module Chip Glue Layer Medium
/////////////////////////////////////////////////////////////////////////
// Stiffener Components
/////////////////////////////////////////////////////////////////////////
static const Double_t fgkSSDCapacitor0603Length; // SSD Stiffener Capacitor 0603 Length
static const Double_t fgkSSDCapacitor0603Width; // SSD Stiffener Capacitor 0603 Width
static const Double_t fgkSSDCapacitor0603Height; // SSD Stiffener Capacitor 0603 Height
+ static const Double_t fgkSSDCapacitor0603CapLength; // SSD Stiffener Capacitor 1812 Cap Length
static const Double_t fgkSSDCapacitor1812Length; // SSD Stiffener Capacitor 1812 Length
static const Double_t fgkSSDCapacitor1812Width; // SSD Stiffener Capacitor 1812 Width
static const Double_t fgkSSDCapacitor1812Height; // SSD Stiffener Capacitor 1812 Height
+ static const Double_t fgkSSDCapacitor1812CapLength; // SSD Stiffener Capacitor 1812 Cap Length
static const Double_t fgkSSDWireLength; // SSD Stiffener Wire Length
static const Double_t fgkSSDWireRadius; // SSD Stiffener Wire Radius
static const Double_t fgkSSDConnectorPosition[2];// SSD Connector Position respect to Stiffener
static const Double_t fgkSSDConnectorLength; // SSD Stiffener Connector Length
static const Double_t fgkSSDConnectorWidth; // SSD Stiffener Connector Width
static const Double_t fgkSSDConnectorHeight; // SSD Stiffener Connector Height
- TGeoMedium* fSSDStiffenerMedium; // SSDStiffener Medium
- TGeoMedium* fSSDStiffenerConnectorMedium; // SSD Stiffener Connector Medium
- TGeoMedium* fSSDStiffener0603CapacitorMedium; // SSD Stiffener Capacitor 0603 Medium
- TGeoMedium* fSSDStiffener1812CapacitorMedium; // SSD Stiffener Capacitor 1812 Medium
- TGeoMedium* fSSDStiffenerHybridWireMedium; // SSD Stiffener Wire Medium
+ static const Double_t fgkSSDConnectorAlHeight; // SSD Stiffener Connector Al Height
+ static const Double_t fgkSSDConnectorNiHeight; // SSD Stiffener Connector Ni Height
+ static const Double_t fgkSSDConnectorSnHeight; // SSD Stiffener Connector Sn Height
/////////////////////////////////////////////////////////////////////////
// Flex
/////////////////////////////////////////////////////////////////////////
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
static const Double_t fgkSSDEndFlexCompLength[6];// SSD End-Flex Components Length
static const Double_t fgkSSDEndFlexCompWidth[3]; // SSD End-Flex Components Width
- TGeoMedium* fSSDKaptonFlexMedium; // SSD Flex Kapton Layer Medium
- TGeoMedium* fSSDAlTraceFlexMedium; // SSD Flex Al Layer Medium
/////////////////////////////////////////////////////////////////////////////////
// SSD Ladder Cable
/////////////////////////////////////////////////////////////////////////////////
static const Double_t fgkSSDLadderCableWidth; // SSD Ladder Cable Width
- TGeoMedium* fSSDAlTraceLadderCableMedium; // SSD Ladder Cable Al Layer Medium
- TGeoMedium* fSSDKaptonLadderCableMedium; // SSD Ladder Cable Kapton Layer Medium
+ static const Double_t fgkSSDLadderCableHeight[2]; // SSD Ladder Cable Height (thickness)
/////////////////////////////////////////////////////////////////////////
// SSD Module Components
/////////////////////////////////////////////////////////////////////////
// respect to Sensor Edge
static const Double_t fgkSSDModuleCoolingBlockToSensor; // SSD Cooling Block Position
// respect to sensor
- static const Int_t fgkSSDModuleCombiTransNumber = 7; // Number of TGeoCombiTrans
- // for positioning volumes in SSD Module
- void SetSSDModuleCombiTransMatrix(Double_t); // Method for generating TGeoCombiTrans for
- // for volume positioning in SSD Module
- TGeoCombiTrans *fSSDModuleCombiTransMatrix[fgkSSDModuleCombiTransNumber]; // TGeoCombiTrans roto-trans
- // transformations for volume positioning
/////////////////////////////////////////////////////////////////////////
// Chip Cables
/////////////////////////////////////////////////////////////////////////
static const Double_t fgkSSDChipCablesLength[2]; // SSD Chip Cables Components Length
static const Double_t fgkSSDChipCablesHeight[4]; // SSD Chip Cables Components Height
static const Double_t fgkSSDChipCablesWidth[3]; // SSD Chip Cables Components Width
- TGeoMedium* fSSDKaptonChipCableMedium; // SSD Chip Cables Kapton Layer Medium
- TGeoMedium* fSSDAlTraceChipCableMedium; // SSD Chip Cables Al Layer Medium
/////////////////////////////////////////////////////////////////////////
// Cooling Block
/////////////////////////////////////////////////////////////////////////
static const Double_t fgkSSDCoolingBlockHoleLength[2];// SSD Cooling Block Hole Length
static const Double_t fgkSSDCoolingBlockHoleCenter; // SSD Cooling Block Hole Ceneter Position
static const Double_t fgkSSDCoolingBlockHoleHeight; // SSD Cooling Block Hole Height
- TGeoMedium* fSSDAlCoolBlockMedium; // SSD Cooling Block Al Medium
/////////////////////////////////////////////////////////////////////////
// SSD Sensor
/////////////////////////////////////////////////////////////////////////
static const Double_t fgkSSDSensorOverlap; // SSD Sensor Beam Axis Overlap
static const Double_t fgkSSDSensorInsensitiveLength; // SSD Insensitive Part Length
static const Double_t fgkSSDSensorInsensitiveWidth; // SSD Insensitive Part Width
- TGeoMedium* fSSDSensorMedium; // SSD Sensor Medium
/////////////////////////////////////////////////////////////////////////
// SSD Sensor Support
/////////////////////////////////////////////////////////////////////////
static const Double_t fgkSSDSensorCenterSupportPosition; // SSD Center Sensor Support Position
static const Int_t fgkSSDSensorSupportCombiTransNumber = 3; // Number of TGeoCombiTrans
// for positioning volumes in Sensor Support Assembly
- void SetSSDSensorSupportCombiTransMatrix(); // Method for generating TGeoCombiTrans for
- // volume positioning in Sensor Support Assembly
- TGeoCombiTrans *fSSDSensorSupportCombiTransMatrix[fgkSSDSensorSupportCombiTransNumber]; // TGeoCombiTrans roto-trans
- // transformations for volume positioning in Sensor Support Assembly
- TGeoMedium* fSSDSensorSupportMedium; // SSD Sensor Support Medium
/////////////////////////////////////////////////////////////////////////
//Parameters for Carbon Fiber
/////////////////////////////////////////////////////////////////////////
static const Double_t fgkCarbonFiberSupportYAxisLength; // Carbon Fiber Support Y Axis Lenght
static const Int_t fgkCarbonFiberAssemblyCombiTransNumber = 3; // Number of TGeoCombiTrans
// for positioning volumes in Carbon Fiber Assembly
- void SetCarbonFiberAssemblyCombiTransMatrix(); // Method for generating TGeoCombiTrans for
- // volume positioning in Carbon Fiber Assembly
- TGeoCombiTrans *fCarbonFiberAssemblyCombiTransMatrix[fgkCarbonFiberAssemblyCombiTransNumber]; // TGeoCombiTrans roto-trans
- // transformations for volume positioning in Carbon Fiber Assembly
- TGeoMedium* fSSDCarbonFiberMedium; // SSD Carbon Fiber Medium
//////////////////////////////////////////////////////////////////////////////
// Carbon Fiber Junction Parameters
//////////////////////////////////////////////////////////////////////////////
static const Double_t fgkCarbonFiberJunctionEdge[2]; // Carbon Fiber Junction Edge Length
static const Double_t fgkCarbonFiberJunctionAngle[2]; // Carbon Fiber Junction Angle
static const Double_t fgkCarbonFiberJunctionToSensorSupport; // Carbon Fiber Junction position respect to sensor
- static const Int_t fgkCarbonFiberJunctionCombiTransNumber = 3; // Number of TGeoCombiTrans
- // for positioning volumes in Carbon Fiber Junction Assembly
- void SetCarbonFiberJunctionCombiTransMatrix(); // Method for generating TGeoCombiTrans for
- // volume positioning in Carbon Fiber Junction Assembly
- TGeoCombiTrans *fCarbonFiberJunctionCombiTransMatrix[fgkCarbonFiberJunctionCombiTransNumber];// TGeoCombiTrans roto-trans
- // transformations for volume positioning in Carbon Fiber Junction Assembly
/////////////////////////////////////////////////////////////////////////
//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 fgkEndLadderCarbonFiberLowerJunctionLength[2]; // End Ladder Carbon Fiber Lower Up Support length
static const Double_t fgkEndLadderCarbonFiberUpperJunctionLength[2]; // End Ladder Carbon Fiber Lower Down Support length
static const Double_t fgkEndLadderMountingBlockPosition[2]; // End Ladder Mounting Block Position
- static const Int_t fgkEndLadderCarbonFiberJunctionCombiTransNumber = 3;// Number of TGeoCombiTrans
- // for positioning volumes in End LadderCarbon Fiber Junction Assembly
- void SetEndLadderCarbonFiberJunctionCombiTransMatrix(Int_t); // Method for generating TGeoCombiTrans for
- // volume positioning in End Ladder Carbon Fiber Junction Assembly
- TGeoCombiTrans *fEndLadderCarbonFiberJunctionCombiTransMatrix[fgkEndLadderCarbonFiberJunctionCombiTransNumber]; // TGeoCombiTrans roto-trans
- // transformations for volume positioning in End Ladder
- // Carbon Fiber Junction Assembly
+ static const Double_t fgkendladdercoolingsupportdistance[3]; // End Ladder Cooling Support Position
/////////////////////////////////////////////////////////////////////////
// Cooling Tube Support (lengths are in mm and angles in degrees)
/////////////////////////////////////////////////////////////////////////
static const Double_t fgkCoolingTubeSupportWidth; // Cooling Tube Support Width
static const Double_t fgkCoolingTubeSupportSeparation; // Cooling Tube Support Separation
static const Double_t fgkCoolingTubeSupportToCarbonFiber; // Cooling Tube Support position respect to Carbon Fiber
- static const Int_t fgkCoolingTubeSupportCombiTransNumber = 2; // Number of TGeoCombiTrans
- // for positioning volumes in Cooling Tube Support Assembly
- void SetCoolingTubeSupportCombiTransMatrix(); // Method for generating TGeoCombiTrans for
- // volume positioning in Cooling Tube Support Assembly
- TGeoCombiTrans *fCoolingTubeSupportCombiTransMatrix[fgkCoolingTubeSupportCombiTransNumber]; // TGeoCombiTrans roto-trans
- // transformations for volume positioning in
- // Cooling Tube Support Assembly
- TGeoMedium* fSSDTubeHolderMedium; // Cooling Tube Support Medium
/////////////////////////////////////////////////////////////////////////////////
// Cooling Tube (lengths are in mm and angles in degrees)
/////////////////////////////////////////////////////////////////////////////////
static const Double_t fgkCoolingTubeRmin; // Cooling Tube Min Radius
static const Double_t fgkCoolingTubeLength; // Cooling Tube Length
static const Double_t fgkCoolingTubeSeparation; // Cooling Tube Separation
- static const Int_t fgkCoolingTubeCombiTransNumber = 2; // Number of TGeoCombiTrans
- // for positioning volumes in Cooling Tube Assembly
- void SetCoolingTubeCombiTransMatrix(); // Method for generating TGeoCombiTrans for
- // volume positioning in Cooling Tube Assembly
- TGeoCombiTrans *fCoolingTubeTransMatrix[fgkCoolingTubeCombiTransNumber];// TGeoCombiTrans roto-trans
- // transformations for volume positioning Cooling Tube Assembly
- TGeoMedium* fSSDCoolingTubeWater; // Medium for Inner Part of Cooling Tube
- TGeoMedium* fSSDCoolingTubePhynox; // Medium for Cooling Tube
+ static const Double_t fgkMountingBlockToSensorSupport; // Distance between Mounting block and Side Sensor Support
/////////////////////////////////////////////////////////////////////////
// SSD Mounting Block Parameters (lengths are in mm and angles in degrees)
/////////////////////////////////////////////////////////////////////////
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
- TGeoMedium* fSSDMountingBlockMedium; // Medium for SSD Mounting Block
- /////////////////////////////////////////////////////////////////////////
- // LadderSegment
/////////////////////////////////////////////////////////////////////////
- static const Int_t fgkLadderSegmentCombiTransNumber = 5; // Number of TGeoCombiTrans
- // for positioning volumes in Ladder Segment
- void SetLadderSegmentCombiTransMatrix(); // Method for generating TGeoCombiTrans for
- // volume positioning in Ladder Segment
- TGeoCombiTrans *fLadderSegmentCombiTransMatrix[fgkLadderSegmentCombiTransNumber]; // TGeoCombiTrans roto-trans
- // transformations for volume positioning in
- // in Ladder Segment
+ // SSD Mounting Block Clip Parameters (lengths are in mm and angles in degrees)
/////////////////////////////////////////////////////////////////////////
- // End LadderSegment
+ static const Double_t fgkMountingBlockClipLength; // SSD Mounting Block Clip Length
+ static const Double_t fgkMountingBlockClipThickness; // SSD Mounting Block Clip Thickness
+ static const Double_t fgkMountingBlockClibScrewRadius; // SSD Mounting Block Clip Radius
+ static const Double_t fgkMountingBlockClibScrewPosition; // SSD Mounting Block Clip Screw Position
+ static const Double_t fgkMountingBlockClibWidth; // SSD Mounting Block Clip
+ /////////////////////////////////////////////////////////////////////////////////
+ // 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 Height
+ static const Double_t fgkMountingBlockSupportRadius[2]; // SSD Mounting Block Support Radius
+ 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
+ /////////////////////////////////////////////////////////////////////////////////
+ // SSD End Cap Cover Plate Parameters (lengths are in mm and angles in degrees)
+ /////////////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkEndCapCoverPlateSmallHoleRadius; // End Cap Cover Plate Hole Small Radious
+ static const Double_t fgkEndCapCoverPlateBigHoleRadius; // End Cap Cover Plate Hole Big Radious
+ static const Double_t fgkEndCapCoverPlateThickness; // End Cap Cover Plate Thickness
+ static const Double_t fgkEndCapCoverPlateSmallHoleSeparation[3]; // End Cap Cover Plate Hole Separation
+ static const Double_t fgkEndCapCoverPlateLength[6]; // End Cap Cover Plate Length
+ static const Double_t fgkEndCapCoverPlateWidth[3]; // End Cap Cover Plate Width
+ static const Double_t fgkEndCapCoverPlateScrewRadiusMin; // End Cap Cover Plate Screw Radius Min
+ static const Double_t fgkEndCapCoverPlateScrewRadiusMax; // End Cap Cover Plate Screw Radius Max
+ static const Double_t fgkEndCapCoverPlateClipLength; // End Cap Cover Plate Clip Length
+ static const Double_t fgkEndCapCoverPlateClipWidth; // End Cap Cover Plate Clip Width
+ static const Double_t fgkEndCapCoverPlateDownClipLength; // End Cap Cover Plate Down Clip Length
+ static const Double_t fgkEndCapCoverPlateDownClipWidth; // End Cap Cover Plate Down Clip Width
+ /////////////////////////////////////////////////////////////////////////////////
+ // SSD End Cap Cooling Tube Parameters (lengths are in mm and angles in degrees)
+ /////////////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkEndCapCoolingTubeAxialRadius[2]; // End Cap Cooling Tube Axial Radius
+ static const Double_t fgkEndCapCoolingTubeRadiusMin; // End Cap Cooling Tube Min Radius
+ static const Double_t fgkEndCapCoolingTubeRadiusMax; // End Cap Cooling Tube Max Radius
+ static const Double_t fgkEndCapCoolingTubeAngle[5]; // End Cap Cooling Tube Angle
+ static const Double_t fgkEndCapCoolingTubeLength[5]; // End Cap Cooling Tube Length
+ static const Double_t fgkEndCapCoolingTubeToCoverSide; // End Cap Cooling Tube Position respect to CoverSide
+ /////////////////////////////////////////////////////////////////////////////////
+ // SSD End Cap Cover Side Parameters (lengths are in mm and angles in degrees)
+ /////////////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkEndCapSideCoverLength[5]; // End Cap Cover Side Length
+ static const Double_t fgkEndCapSideCoverWidth[7]; // End Cap Cover Side Width
+ static const Double_t fgkEndCapSideCoverThickness; // End Cap Cover Side Thickness
+ /////////////////////////////////////////////////////////////////////////////////
+ // SSD End Cap Cards Parameters (lengths are in mm and angles in degrees)
+ /////////////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkEndCapCardElectBoardBackLength[3]; // End Cap Card Electronic Board Back Length
+ static const Double_t fgkEndCapCardElectBoardBackWidth[2]; // End Cap Card Electronic Board Back Width
+ static const Double_t fgkEndCapCardElectBoardBackThickness; // End Cap Card Electronic Board Back Thickness
+ static const Double_t fgkEndCapCardElectBoardLength; // End Cap Card Electronic Board Length
+ static const Double_t fgkEndCapCardElectBoardLayerWidth[2]; // End Cap Card Electronic Board Layer Width
+ static const Double_t fgkEndCapCardElectBoardLayerThickness;// End Cap Card Electronic Board Layer Thickness
+ static const Double_t fgkEndCapCardJMDConnectorThickness; // End Cap Card JMD Connector Thickness
+ static const Double_t fgkEndCapCardJMDConnectorLength[2]; // End Cap Card JMD Connector Length
+ static const Double_t fgkEndCapCardJMDConnectorWidth[2]; // End Cap Card JMD Connector Width
+ static const Double_t fgkEndCapCardJMDConnectorToLayer; // End Cap Card JMD Connector to Layer Distance
+ static const Double_t fgkEndCapCardCableConnectorLength[3]; // End Cap Card Cable Connector Length
+ static const Double_t fgkEndCapCardCableConnectorWidth[2]; // End Cap Card Cable Connector Width
+ static const Double_t fgkEndCapCardCableConnectorThickness; // End Cap Card Cable Connector Thickness
+ static const Double_t fgkEndCapCardCableConnectorDistance; // End Cap Card Cable Connector Distance
+ static const Double_t fgkEndCapCardCableConnectorToLayer; // End Cap Card Cable Connector To Layer Distance
+ static const Double_t fgkEndCapStripConnectionLength; // End Cap Strip Connection Length
+ static const Double_t fgkEndCapStripConnectionThickness; // End Cap Strip Connection Thickness
+ static const Double_t fgkEndCapStripConnectionWidth; // End Cap Strip Connection Width
+ static const Double_t fgkEndCapInterfaceCardBLength[7]; // End Cap Interface CardB Length
+ static const Double_t fgkEndCapInterfaceCardBWidth[5]; // End Cap Interface CardB Width
+ static const Double_t fgkEndCapInterfaceCardBThickness; // End Cap Interface CardB Thickness
+ static const Double_t fgkEndCapInterfaceElectBoardCardBThickness; // End Cap Interface Elect Board CardB Thickness
+ static const Double_t fgkEndCapInterfaceCardBJMDConnectorSeparation; // End Cap Interface CardB JMD Connector Separation
+ static const Double_t fgkEndCapStiffenerLength; // End Cap Stiffener Length
+ static const Double_t fgkEndCapStiffenerWidth; // End Cap Stiffener Width
+ static const Double_t fgkEndCapStiffenerThickness; // End Cap Stiffener Thickness
+ static const Double_t fgkEndCapEffectiveCableRadiusMin; // End Cap Effective Cable Radius Min
+ static const Double_t fgkEndCapEffectiveCableRadiusMax; // End Cap Effective Cable Radius Max
+ /////////////////////////////////////////////////////////////////////////////////
+ // SSD End Cap SupportLayer5/6 Side Parameters (lengths are in mm and angles in degrees)
+ /////////////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkEndCapLay5SupportLength; // End Cap Layer5 Support Length
+ static const Double_t fgkEndCapLay5SupportMiddleRadius; // End Cap Layer5 Support Middle Radius
+ static const Double_t fgkEndCapLay5SupportLowRadius; // End Cap Layer5 Support Low Radius
+ static const Double_t fgkEndCapLay5SupportHighWidth; // End Cap Layer5 High Radius
+ static const Double_t fgkEndCapLay5SupportLowWidth; // End Cap Layer5 Low Width
+ static const Double_t fgkEndCapSupportLength[2]; // End Cap Layer5/6 Support Length
+ static const Double_t fgkEndCapSupportMiddleRadius[2]; // End Cap Layer5/6 Support Middle Radius
+ static const Double_t fgkEndCapSupportLowRadius[2]; // End Cap Layer5/6 Support Low Radius
+ static const Double_t fgkEndCapSupportHighWidth; // End Cap Layer5/6 High Radius
+ static const Double_t fgkEndCapSupportLowWidth[2]; // End Cap Layer5/6 Low Width
+ static const Double_t fgkEndCapSupportCenterLay5ITSPosition; // End Cap Support Center ITS Position Layer 5
+ static const Double_t fgkEndCapSupportCenterLay5Position; // End Cap Support Position Respect Z Axis Origin Layer 5
+ static const Double_t fgkEndCapSupportCenterLay6ITSPosition; // End Cap Support Center ITS Position Layer 6
+ static const Double_t fgkEndCapSupportCenterLay6Position; // End Cap Support Position Respect Z Axis Origin Layer 6
+ /////////////////////////////////////////////////////////////////////////////////
+ // SSD End Cap Kapton Foil Parameters (lengths are in mm and angles in degrees)
+ ////////////////////////////////////////////////////////////////////////////////
+ static const Double_t fgkEndCapKaptonFoilThickness; // End Cap Kapton Foil Thickness
+ 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
+ /////////////////////////////////////////////////////////////////////////
+ // Private methods for private members generation
+ /////////////////////////////////////////////////////////////////////////
+
+ 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
+ TList* GetCarbonFiberSupportList(); // Method generating CarbonFiberSupport
+ TGeoVolume* GetCarbonFiberJunction(Double_t width); // Method generating
+ // CarbonFiberJunction
+ TList* GetCarbonFiberLowerSupportList();
+ // Method generating CarbonFiberLowerSupport
+ TGeoVolume* GetSSDSensorSupport(Double_t length, Double_t height,
+ Double_t width, const Double_t* thickness) const; //
+ // Method generating SSDSensorSupport
+ TGeoVolume* GetCoolingTubeSupport(Int_t nedges); // Method generating CoolingTubeSupport
+ TList* GetSSDHybridParts(); // Method setting Hybrid Components
+ TGeoVolume* GetCoolingBlockSystem(); // Method generating Cooling Block System
+ TGeoVolume* GetSSDStiffenerFlex()const; // Method generating StiffenerFlex
+ TGeoVolume* GetSSDEndFlex(); // Method generating EndFlex
+ TGeoVolume* GetSSDMountingBlock(); // Method generating Mounting Block
+ TGeoVolume* GetMountingBlockClip() const; // Method generating Mounting Block Clip
+ void CreateCoolingTubes(); // Create/set cooling tubes
+ TGeoVolume* GetSSDCoolingBlock(Int_t nedges);
+ // Method generating StiffenerFlex
+ void GetSSDChipCables(TGeoVolume *&cableL, TGeoVolume *&cableR, Double_t SSDChipCablesHeigth, Int_t nedges);
+ // Method setting ChipCables
+ TGeoVolume* GetSSDChip() const; // Method generating Chips
+ TList* GetLadderCableSegment(Double_t ssdendladdercablelength);
+ // Method generating LadderCableSegment
+ TGeoVolume* GetLadderCable(Int_t n, Double_t ssdendladdercablelength);
+ // Method generating Ladder Cable
+ TGeoVolume* GetLadderCableAssembly(Int_t n, Double_t ssdendladdercablelength);
+ // Method generating Ladder Cable Assembly
+ TList* GetLadderCableAssemblyList(Int_t n, Double_t ssdendladdercablelength);
+ // Method generating Ladder Cable List
+ TList* GetMountingBlockSupport(Int_t nedges); // Get Mounting Block Support
+ void SetLadderSupport(Int_t nedges); // It generates the ladder support
+ TGeoVolume* GetEndCapCoolingTube(); // End Cap Cooling Tube
+ TGeoVolume* GetEndCapCoverPlate(); // End Cap Cover Plate
+ TGeoVolume* GetEndCapSideCover() const; // End Cap Side Cover
+ TGeoVolume** GetEndCapCards() const; // End Cap Cards
+ 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,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 const * const vertexpos[4],const Double_t* width,
+ Double_t height,const char* shapename,Int_t isign = 1) const;
+ // Method generating an Arb shape
+ TGeoShape* GetScrewShape(const Double_t* radius,const Int_t* edgesnumber,const Double_t* section) const;// Method Generating the Screw Shape
+ TGeoShape* GetHoleShape(Double_t radius, Int_t nedges, const Double_t *section) const;// Method Generating the Hole Shape
+ TVector3* GetReflection(const TVector3* vector,const Double_t* param) const;
+ // Given an axis specified by param,
+ // it gives the reflection of the point respect to the axis
+ TGeoHMatrix* AddTranslationToHMatrix(const TGeoHMatrix* ct,Double_t dx,Double_t dy,
+ Double_t dz) const;
+ // add (dx,dy,dz) translation to a initial TGeoCombiTrans
+ /////////////////////////////////////////////////////////////////////////
+ // Private members
+ /////////////////////////////////////////////////////////////////////////
+ // Materials
/////////////////////////////////////////////////////////////////////////
- static const Int_t fgkEndLadderSegmentCombiTransNumber = 4; // Number of TGeoCombiTrans
- // for positioning volumes in End Ladder Segment
- void SetEndLadderSegmentCombiTransMatrix(Int_t); // Method for generating TGeoCombiTrans for
- // volume positioning in End Ladder Segment
- TGeoCombiTrans *fEndLadderSegmentCombiTransMatrix[fgkEndLadderSegmentCombiTransNumber]; // TGeoCombiTrans roto-trans
- // transformations for volume positioning in
- // in End Ladder Segment
+ TGeoMedium* fSSDChipMedium; // SSD Module Chip Medium
+ TGeoMedium* fSSDChipGlueMedium; // SSD Module Chip Glue Layer Medium
+ TGeoMedium* fSSDStiffenerMedium; // SSDStiffener Medium
+ TGeoMedium* fSSDStiffenerConnectorMedium; // SSD Stiffener Connector Medium
+ TGeoMedium* fSSDStiffener0603CapacitorMedium; // SSD Stiffener Capacitor 0603 Medium
+ TGeoMedium* fSSDStiffener1812CapacitorMedium; // SSD Stiffener Capacitor 1812 Medium
+ TGeoMedium* fSSDStiffenerCapacitorCapMedium; // SSD Stiffener Capacitor Cap Medium
+ TGeoMedium* fSSDStiffenerHybridWireMedium; // SSD Stiffener Wire Medium
+ TGeoMedium* fSSDKaptonFlexMedium; // SSD Flex Kapton Layer Medium
+ TGeoMedium* fSSDAlTraceFlexMedium; // SSD Flex Al Layer Medium
+ TGeoMedium* fSSDAlTraceLadderCableMedium; // SSD Ladder Cable Al Layer Medium
+ TGeoMedium* fSSDKaptonLadderCableMedium; // SSD Ladder Cable Kapton Layer Medium
+ TGeoMedium* fSSDKaptonChipCableMedium; // SSD Chip Cables Kapton Layer Medium
+ TGeoMedium* fSSDAlTraceChipCableMedium; // SSD Chip Cables Al Layer Medium
+ TGeoMedium* fSSDAlCoolBlockMedium; // SSD Cooling Block Al Medium
+ TGeoMedium* fSSDSensorMedium; // SSD Sensor Medium
+ TGeoMedium* fSSDSensorSupportMedium; // SSD Sensor Support Medium
+ TGeoMedium* fSSDCarbonFiberMedium; // SSD Carbon Fiber Medium
+ TGeoMedium* fSSDTubeHolderMedium; // Cooling Tube Support Medium
+ TGeoMedium* fSSDCoolingTubeWater; // Medium for Inner Part of Cooling Tube
+ 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
+ TGeoMedium* fSSDSn; // Tin for SSD solderings
+ /////////////////////////////////////////////////////////////////////////
+ Bool_t fCreateMaterials; // Bool variable which verifies if materials have been created
+ Bool_t fTransformationMatrices; // Bool variable which verifies if matrices have been allocated
+ Bool_t fBasicObjects; // Bool variable which verifies if basic objects have been allocated
+ /////////////////////////////////////////////////////////////////////////
+ // Carbon Fiber Support Matrices and Objects
+ ////////////////////////////////////////////
+ static const Int_t fgkcarbonfibersupportnumber = 2; // Support Number
+ TGeoVolume* fcarbonfibersupport[fgkcarbonfibersupportnumber]; // Support
+ TGeoHMatrix* fcarbonfibersupportmatrix[fgkcarbonfibersupportnumber]; // Support Matrix
+ /////////////////////////
+ // Carbon Fiber Junction
+ ////////////////////////
+ static const Int_t fgkcarbonfiberjunctionumber = 3; // Carbon Fiber Number
+ TGeoVolume* fcarbonfiberjunction; // Carbon Fiber
+ TGeoHMatrix* fcarbonfiberjunctionmatrix[fgkcarbonfiberjunctionumber]; // Carbon Fiber Matrix
+ /////////////////////////////
+ // Carbon Fiber Lower Support
+ /////////////////////////////
+ static const Int_t fgkcarbonfiberlowersupportnumber = 2; // Carbon Fiber Lower Support Number
+ TGeoVolume* fcarbonfiberlowersupport[fgkcarbonfiberlowersupportnumber]; // Carbon Fiber Lower Support
+ TGeoTranslation* fcarbonfiberlowersupportrans[fgkcarbonfiberlowersupportnumber];// Carbon Fiber Lower Support Translation
+ /////////////////////////////
+ // SSD Sensor Support
+ /////////////////////////////
+ static const Int_t fgkvolumekind = 2; // volumekind = 0 : side ssd support
+ // volumekind = 1 : central ssd support
+ static const Int_t fgkssdsensorsupportnumber = 3; // SSD Sensor Support Number
+ TGeoVolume** fssdsensorsupport[fgkvolumekind]; // SSD Sensor
+ TGeoHMatrix* fssdsensorsupportmatrix[fgkssdsensorsupportnumber]; // SSD Sensor Matrix
+ /////////////////////////////////////////////////////////////
+ // SSD Cooling Tube Support
+ /////////////////////////////////////////////////////////////
+ static const Int_t fgkcoolingtubesupportnumber = 2; // Cooling Tube Support Number
+ TGeoVolume* fcoolingtubesupport; // Cooling Tube Support
+ TGeoHMatrix* fcoolingtubesupportmatrix[fgkcoolingtubesupportnumber]; // Cooling Tube Support Matrix
+ /////////////////////////////////////////////////////////////
+ // SSD Hybrid
+ /////////////////////////////////////////////////////////////
+ static const Int_t fgkhybridcompnumber = 3; // Hybrid number
+ TGeoVolume* fssdhybridcomponent[fgkhybridcompnumber]; // Hybrid Components
+ TGeoHMatrix* fhybridmatrix; // Hybrid Matrix
+ /////////////////////////////////////////////////////////////
+ // SSD Cooling Block System
+ /////////////////////////////////////////////////////////////
+ static const Int_t fgkcoolingblocknumber = 4; // Cooling Block Number
+ TGeoVolume* fssdcoolingblocksystem; // Cooling Block
+ TGeoHMatrix* fcoolingblocksystematrix; // Cooling Block Matrix
+ TGeoHMatrix* fcoolingblockmatrix[fgkcoolingblocknumber]; // Cooling System Matrix
+ /////////////////////////////////////////////////////////////
+ // SSD Flex
+ /////////////////////////////////////////////////////////////
+ static const Int_t fgkflexnumber = 2; // Flex Number
+ TGeoVolume* fssdstiffenerflex; // Stiffener Flex
+ TGeoVolume* fssdendflex; // End flex
+ TGeoHMatrix* fstiffenerflexmatrix[fgkflexnumber]; // Stiffener Flex Matrix
+ TGeoHMatrix* fendflexmatrix[fgkflexnumber]; // End Flex Matrix
+ /////////////////////////////////////////
+ // Cooling Tube
+ /////////////////////////////////////////
+ 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[fgkendladdercoolingtubenumber][2]; //End ladder cooling tube matrix
+ /////////////////////////////////////////
+ // End Ladder Components
+ /////////////////////////////////////////
+ TGeoVolumeAssembly* fendladdersegment[2]; // End Ladder Segment
+ TGeoHMatrix** fendladdersegmentmatrix[2]; // End Ladder Matrix
+ /////////////////////////////////////////////////////////////
+ // End Ladder SSD Cooling Tube Support
+ /////////////////////////////////////////////////////////////
+ TGeoHMatrix*** fendladdercoolingtubesupportmatrix; //End ladder cooling tube support matrix
+ ///////////////////////////////////
+ // End Ladder Carbon Fiber Junction
+ ///////////////////////////////////
+ static const Int_t fgkendlabbercarbonfiberjunctionumber = 2; // End Ladder Carbon fiber Junction Number
+ TGeoVolume** fendladdercarbonfiberjunction[fgkendlabbercarbonfiberjunctionumber]; // End Ladder Carbon fiber Junction Volumes
+ static const Int_t fgkendladdercarbonfiberjunctionmatrixnumber = 3; // End Ladder Carbon fiber Junction Matrix Number
+ TGeoHMatrix** fendladdercarbonfiberjunctionmatrix[fgkendladdercarbonfiberjunctionmatrixnumber]; // End Ladder Carbon fiber Junction Matrix
+ ///////////////////////////////////
+ // End Ladder Carbon Fiber Support
+ ///////////////////////////////////
+ static const Int_t fgkendladdercarbonfibermatrixnumber = 2; // End Ladder Carbon fiber Matrix Number
+ TGeoHMatrix** fendladdercarbonfibermatrix[fgkendladdercarbonfibermatrixnumber]; // End Ladder Carbon fiber Matrix
+ ///////////////////////////////////
+ // End Ladder SSD Mounting Block
+ ///////////////////////////////////
+ static const Int_t fgkendladdermountingblocknumber = 2; // Mounting Block Number
+ TGeoVolume* fendladdermountingblock; // Mounting Block
+ TGeoVolume* fendladdermountingblockclip; // Mounting Block Clip
+ TGeoCombiTrans* fendladdermountingblockcombitrans[fgkendladdermountingblocknumber]; // End Ladder Mounting Block CombiTrans
+ TGeoHMatrix** fendladdermountingblockclipmatrix[fgkendladdermountingblocknumber]; // End Ladder Mounting Block Clip HMatrix
+ ///////////////////////////////////
+ // End Ladder Lower Support
+ ///////////////////////////////////
+ static const Int_t fgkendladderlowersuppnumber = 2; // End Ladder Lower Support Number
+ TGeoTranslation* fendladderlowersupptrans[fgkendladderlowersuppnumber+1]; // End Ladder Lower Support Translations
/////////////////////////////////////////////////////////////////////////
// LadderCables
/////////////////////////////////////////////////////////////////////////
- static const Int_t fgkLadderCableCombiTransNumber = 4; // Number of TGeoCombiTrans
- // for positioning Ladder Cable volumes
- void SetLadderCableCombiTransMatrix(Int_t iLayer); // Method for generating TGeoCombiTrans
- // for positioning Ladder Cables volumes
- TGeoCombiTrans *fLadderCableCombiTransMatrix[fgkLadderCableCombiTransNumber]; // TGeoCombiTrans for positioning
- // Ladder Cables volumes
+ static const Int_t fgkladdercablematrixnumber = 4; // Number of TGeoCombiTrans
+ // for positioning Ladder Cable volumes
+ static const Int_t fgkladdercablesnumber = 2; // Number of Ladder Cables Layers
+ TGeoHMatrix **fladdercablematrix[fgkladdercablesnumber]; // TGeoCombiTrans for positioning
+ // Ladder Cables volumes
+ ///////////////////////////////////
+ // Ladder Segment
+ ///////////////////////////////////
+ static const Int_t fgkladdersegmentnumber = 2; // Ladder Segment Kinds Number
+ TGeoVolumeAssembly* fladdersegment[fgkladdersegmentnumber]; // Ladder Segment
+ ///////////////////////////////////
+ // Ladder
+ ///////////////////////////////////
+ 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
+ ///////////////////////////////////
+ TGeoVolume* fSSDSensor5; // Layer 5 SSD Sensor
+ TGeoVolume* fSSDSensor6; // Layer 6 SSD Sensor
+ TGeoHMatrix** fssdsensormatrix[fgkladdernumber]; // SSD Sensor Matrix
+ ///////////////////////////////////
+ // SSD Layer
+ ///////////////////////////////////
+ static const Int_t fgklayernumber = 2; // Layer Number
+ TGeoVolumeAssembly* fSSDLayer5; // SSD Layer 5
+ TGeoVolumeAssembly* fSSDLayer6; // SSD Layer 6
+ TGeoHMatrix** flayermatrix[fgklayernumber]; // Layer Transformations
/////////////////////////////////////////////////////////////////////////
// Mother Volume
/////////////////////////////////////////////////////////////////////////
TGeoVolume *fMotherVol; // Mother volume for ITS Layer5 and Layer6
TGeoVolume* GetMotherVolume() const { return fMotherVol;}; // Method returning Mother Volume
/////////////////////////////////////////////////////////////////////////
+ // Ladder Support
+ /////////////////////////////////////////////////////////////////////////
+ TGeoVolume* fLay5LadderSupport[2]; // Up and Down parts of Layer5 Ladder Support
+ TGeoVolume* fLay6LadderSupport[2]; // Up and Down parts of Layer6 Ladder Support
+ TGeoVolumeAssembly* fLay5LadderSupportRing; // Layer5 Ladder Support Ring
+ TGeoVolumeAssembly* fLay6LadderSupportRing; // Layer6 Ladder Support Ring
+ /////////////////////////////////////////////////////////////////////////
+ // End Cap Support + End Cap Assembly
+ /////////////////////////////////////////////////////////////////////////
+ TGeoVolume** fgkEndCapSupportSystem; // End Cap Support + End Cap Assembly
+ /////////////////////////////////////////////////////////////////////////
+ // SSD Cone
+ /////////////////////////////////////////////////////////////////////////
+ TGeoVolumeAssembly*fSSDCone; // SSD Cone
+ /////////////////////////////////////////////////////////////////////////
// Color Display
/////////////////////////////////////////////////////////////////////////
Int_t fColorCarbonFiber; // display colors
Int_t fColorPhynox; // ===
Int_t fColorSilicon; // ===
Int_t fColorAl; // ===
+ Int_t fColorNiSn; // ===
Int_t fColorKapton; // ===
Int_t fColorPolyhamide; // ===
Int_t fColorStiffener; // ===
Int_t fColorEpoxy; // ===
- ClassDef(AliITSv11GeometrySSD, 1) // ITS v11 SSD geometry
+ Int_t fColorWater; // ===
+ Int_t fColorG10; // ===
+ClassDef(AliITSv11GeometrySSD, 5) // ITS v11 SSD geometry
};
#endif
+