#ifndef ALIITSV11GEOMETRYSDD_H #define ALIITSV11GEOMETRYSDD_H /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * See cxx source for full Copyright notice */ // $Id$ //************************************************************************* // // SDD geometry, based on ROOT geometrical modeler // // Its integration to the aliroot framework is done in the AliITSv11Hybrid // class (AliITSv11 not being functionnal so far) // // This geometry has no dependence with aliroot, you can run it with root // only, provided that the AliITSv11GeomCable classes are also compiled // // Ludovic Gaudichet gaudichet@to.infn.it //************************************************************************* class TGeoVolume; class TGeoPcon; class TGeoVolumeAssembly; class TGeoTranslation; class TGeoCombiTrans; class TGeoArb8; class TGeoNode; class TGeoMedium; class TGeoMatrix; class AliITSgeom; class AliITSv11GeomCableFlat; #include "AliITSv11Geometry.h" class AliITSv11GeometrySDD : public AliITSv11Geometry { public: AliITSv11GeometrySDD(); AliITSv11GeometrySDD(Int_t debug); AliITSv11GeometrySDD(const AliITSv11GeometrySDD &source); AliITSv11GeometrySDD& operator=(const AliITSv11GeometrySDD &source); virtual ~AliITSv11GeometrySDD(); // Main functions virtual void Layer3(TGeoVolume *moth); virtual void Layer4(TGeoVolume *moth); virtual void ForwardLayer3(TGeoVolume *moth); virtual void ForwardLayer4(TGeoVolume *moth); virtual void SDDCables(TGeoVolume *moth); virtual Int_t ExportSensorGeometry(AliITSgeom *geom, Int_t iLaySDD, Int_t startMod); virtual Int_t GetCurrentLayLaddDet(Int_t &lay, Int_t &ladd, Int_t&det) const; // Functions for coding, testing, debugging void AddHybrids(bool b) {fAddHybrids = b;}; void AddSensors(bool b) {fAddSensors = b;}; void AddHVcables(bool b) {fAddHVcables = b;}; void AddCables(bool b) {fAddCables = b;}; void AddCoolingSyst(bool b) {fAddCoolingSyst= b;}; void CheckOverlaps(Double_t precision = 0.01); void AddOnlyLay3Ladder(Int_t min,Int_t max){ fAddOnlyLadder3min = min; fAddOnlyLadder3max = max; }; void AddOnlyLay4Ladder(Int_t min,Int_t max) { fAddOnlyLadder4min = min; fAddOnlyLadder4max = max;}; void ShowOnePiece(TGeoVolume *Moth); virtual void SetParameters(); TGeoVolume* GetMotherVolume() const { return fMotherVol;}; const char* GetSenstiveVolumeName3() const {return fgSDDsensitiveVolName3;}; const char* GetSenstiveVolumeName4() const {return fgSDDsensitiveVolName4;}; Int_t GetLay3NLadders() const; Int_t GetLay4NLadders() const; private: virtual TGeoVolumeAssembly* CreateLadder(Int_t iLay); virtual TGeoVolumeAssembly* CreateDetectorsAssembly(Int_t iLay); virtual TGeoVolumeAssembly* CreateDetectorsAssemblyLadd2(); virtual TGeoVolume* CreateLadderSegment(Int_t iLay, Int_t iSeg); virtual TGeoVolumeAssembly* CreateEndLadder(Int_t iLay); virtual TGeoVolumeAssembly* CreateEndLadderCards(Int_t iLay); virtual TGeoVolume* CreateEndLadderCardsV(Int_t iLay); virtual TGeoVolumeAssembly* CreateSupportRing(Int_t iLay); // Create some basic objects : virtual void CreateSDDsensor(); virtual TGeoVolume* CreateHybrid(Int_t iLRSide); virtual TGeoVolume* CreatePinSupport(); virtual TGeoVolume* CreateCoolPipeSupportL(); virtual TGeoVolume* CreateCoolPipeSupportR(); virtual TGeoVolume* CreateBaseThermalBridge(); virtual TGeoVolumeAssembly* CreateLadderFoot(); virtual TGeoVolumeAssembly* CreateCarlosCard(Int_t iLay); virtual Int_t CreateLVCard(); virtual TGeoVolumeAssembly* CreateHVCard(Int_t iLay); void CreateBasicObjects(); Double_t GetConeZ(Double_t r, Double_t refR1, Double_t refR2, Double_t refZ1, Double_t refZ2); TGeoPcon* CreateConeConstSection(Double_t r1max, Double_t z1, Double_t r2max, Double_t z2, Double_t section, Int_t nDiv=1); Int_t CreateAndInsetConeCablePart(TGeoVolume *mother, Double_t angle, Int_t nLay3, Int_t nLay4, Double_t r1, Double_t z1, Double_t r2, Double_t z2); // Check that the medium exists virtual TGeoMedium* GetMedium(const char* mediumName); // Create a TGeoCombiTrans: general rotation in phi and (dy,dz) translation TGeoCombiTrans* CreateCombiTrans( const char *name, Double_t dy, Double_t dz, Double_t dphi, Bool_t planeSym=kFALSE); // add (dx,dy,dz) translation to a initial TGeoCombiTrans void AddTranslationToCombiTrans( TGeoCombiTrans* ct, Double_t dx=0, Double_t dy=0, Double_t dz=0) const; // Create one side of the CF corner of the CF structure TGeoArb8* CreateLadderSide( const char *name, Double_t dz, Double_t angle, Double_t xSign, Double_t L, Double_t H, Double_t l); //---------------------------- TGeoVolume* fPinSupport; //! pins glued to sensors TGeoVolume* fCoolPipeSupportL; //! half of cooling pipe support TGeoVolume* fCoolPipeSupportR; //! half of cooling pipe support TGeoVolume* fSDDsensor3; //! sensor of lay. 3 and HV cables on it TGeoVolume* fSDDsensor4; //! sensor of lay. 4 and HV cables on it TGeoVolume* fBaseThermalBridge; //! Base of hybrid thermal bridge TGeoVolume* fHybrid; //! hybrid volume TGeoVolumeAssembly *fLadderFoot;//! ladder foot in stesalite TGeoVolumeAssembly *fCardLVR; //! low voltage card, right TGeoVolumeAssembly *fCardLVL; //! low voltage card, left TGeoVolumeAssembly *fCardHV; //! high voltage card TGeoVolumeAssembly *fCardCarlos;//! end-ladder CARLOS card TGeoVolumeAssembly *fRaccordoL; //! link between cooling tubes at end ladder TGeoVolume* fCommonVol[2]; //! some common vol. used in several places TGeoMatrix* fCommonTr[2]; //! some common transformations static const Int_t fgkNladdSegCommonVol = 19; // Number of vol. TGeoVolume* fLaddSegCommonVol[fgkNladdSegCommonVol];//! volumes in ladder TGeoMatrix* fLaddSegCommonTr[fgkNladdSegCommonVol]; //! their transf. AliITSv11GeomCableFlat *fDigitCableLay3A; // layer 3 cables, side A AliITSv11GeomCableFlat *fDigitCableLay3B; // layer 3 cables, side B AliITSv11GeomCableFlat *fDigitCableLay4A; // layer 4 cables, side A AliITSv11GeomCableFlat *fDigitCableLay4B; // layer 4 cables, side B TGeoVolume *fMotherVol; //! mother volume given in LayerX() funct. bool fAddHybrids; // Insert hybrids ? (default TRUE) bool fAddSensors; // Insert sensors ? (default TRUE) bool fAddHVcables; // Insert HV cables ? (default TRUE) bool fAddCables; // Insert cables ? (default TRUE) bool fAddCoolingSyst; // Insert cooling system ? (default TRUE) bool fCoolingOn; // Insert cooling fluid ? (default TRUE) Int_t fAddOnlyLadder3min; // first ladder index Int_t fAddOnlyLadder3max; // last ladder index Int_t fAddOnlyLadder4min; // first ladder index Int_t fAddOnlyLadder4max; // last ladder index Int_t fColorCarbonFiber; // display colors Int_t fColorRyton; // === Int_t fColorPhynox; // === Int_t fColorSilicon; // === Int_t fColorAl; // === Int_t fColorPolyhamide; // === Int_t fColorGlass; // === Int_t fColorSMD; // === Int_t fColorSMDweld; // === Int_t fColorStesalite; // === //-------------------------------------- parameters for the SDD geometry static const char* fgSDDsensitiveVolName3; // sens. vol. name for lay. 3 static const char* fgSDDsensitiveVolName4; // sens. vol. name for lay. 4 static const Int_t fgkLay3Nladd; // 14 static const Int_t fgkLay3Ndet; // 6 static const Double_t fgkLay3Rmin; // min. radius of tube static const Double_t fgkLay3Rmax; // max. radius of tube static const Double_t fgkLay3Length; // length of layer 3 tube static const Double_t fgkLay3LadderLength; // tot. length of ladder static const Double_t fgkLay3DetShortRadius; // radius from beam axis static const Double_t fgkLay3DetLongRadius; // radius from beam axis static const Double_t fgkLay3LaddTopCornerEnd; // Ends of ladder 3 static const Double_t fgkLay3ZPlusEndLength; // === static const Int_t fgkLay4Nladd; // 22 static const Int_t fgkLay4Ndet; // 8 static const Double_t fgkLay4Rmin; // min. radius of tube static const Double_t fgkLay4Rmax; // max. radius of tube static const Double_t fgkLay4Length; // length of layer 4 tube static const Double_t fgkLay4LadderLength; // tot. length of ladder static const Double_t fgkLay4DetShortRadius; // radius from beam axis static const Double_t fgkLay4DetLongRadius; // radius from beam axis static const Double_t fgkLay4LaddTopCornerEnd; // Ends of ladder 3 static const Double_t fgkLay4ZPlusEndLength; // === static const Double_t fgkEndLaddCardsShortRadiusLay3; // ref radius of end ladder cards static const Double_t fgkEndLaddCardsShortRadiusLay4; // ref radius of end ladder cards static const Double_t fgkDistEndLaddCardsLadd; // dist. between U cooling tube and ladder static const Double_t fgkSegmentLength; // length of 1 ladder seg. static const Double_t fgkLadderWidth; // carbon fiber structure static const Double_t fgkLadderHeight; // including bottom beam static const Double_t fgkLadderSegBoxDW; // To include hybrids in box static const Double_t fgkLadderSegBoxDH; // To include hybrids in box static const Double_t fgkLadderBeamRadius; // carbon fiber beam radius static const Double_t fgkLadderLa; // parameters defining static const Double_t fgkLadderHa; // the V side shape static const Double_t fgkLadderLb; // of the carbon static const Double_t fgkLadderHb; // fiber ladder static const Double_t fgkLadderl; // ============ static const Double_t fgkBottomBeamAngle; // bottom beam angle static const Double_t fgkBeamSidePhi; // side beam angle static const Double_t fgkWaferThickness; // sensor thickness (Y) static const Double_t fgkWaferWidth; // width (X) static const Double_t fgkWaferLength; // length (Z) static const Double_t fgkWaferThickSens; // sensitive volume thich static const Double_t fgkWaferWidthSens; // sens. volume width static const Double_t fgkWaferLengthSens; // sens. volume length static const Double_t fgkSensorGlassLX; // dimensions of glass static const Double_t fgkSensorGlassLZ; // (on which pins are static const Double_t fgkSensorGlassLY; // glued) static const Double_t fgkGlassDXOnSensor; // Position of glass static const Double_t fgkGlassDZOnSensor; // on sensor static const Double_t fgkLadWaferSep; // ladder-sensor dist. static const Double_t fgkPinR; // pins radius static const Double_t fgkPinSuppWidth; // === static const Double_t fgkPinSuppHeight; // === static const Double_t fgkPinSuppRmax; // Parameters for pin static const Double_t fgkPinSuppLength; // supports on static const Double_t fgkPinSuppThickness; // carbon fiber static const Double_t fgkPinSuppConeAngle; // ladder static const Double_t fgkPinDXminOnSensor; // === static const Double_t fgkPinPinDDXOnSensor; // === static const Double_t fgkPinDYOnSensor; // === static const Double_t fgkCoolPipeInnerDiam; // Water cooling static const Double_t fgkCoolPipeOuterDiam; // pipe static const Double_t fgkLay3CoolPipeSuppH; // Heights of water static const Double_t fgkLay4CoolPipeSuppH; // pipes on ladders static const Double_t fgkCoolPipeSuppHeight; // === static const Double_t fgkCoolPipeSuppMaxLength; // === static const Double_t fgkCoolPipeSuppWidthExt; // Parameters for static const Double_t fgkCoolPipeSuppWidthIn; // cooling pipes static const Double_t fgkCoolPipeSuppHoleDiam; // on carbon fiber static const Double_t fgkCoolPipeSuppFulWidth; // ladder static const Double_t fgkCoolPipeSuppTongW; // === static const Double_t fgkCoolPipeSuppAngle; // === static const Double_t fgkCoolPipeSuppSlitL; // === static const Double_t fgkCoolPipeSuppAxeDist; // === static const Double_t fgkBTBthick; // BTB for : static const Double_t fgkBTBlength; // Base of Thermal Bridge static const Double_t fgkBTBwidth; // ===================== static const Double_t fgkBTBaxisAtoBottom; // axis A is the same as static const Double_t fgkBTBaxisAtoBase; // the cooling pipe axis static const Double_t fgkRadiusAminBTB; // === static const Double_t fgkRadiusBminBTB; // === static const Double_t fgkBTBHoleLength; // === static const Double_t fgkBTBHolewidth; // === static const Double_t fgkBTBHoleRefX; // === static const Double_t fgkBTBHoleRefY; // === static const Double_t fgkHybridLength; // Hybrid parameters : static const Double_t fgkHybridWidth; // === static const Double_t fgkHybridAngle; // Hybrid on ladder in phi static const Double_t fgkHybRndHoleRad; // === static const Double_t fgkHybRndHoleZ; // === static const Double_t fgkHybRndHoleX; // === static const Double_t fgkHybFLlowHoleDZ; // FLlow : low flex static const Double_t fgkHybFLlowHolePasDX; // === static const Double_t fgkHybFLlowHoleAmbDX; // === // (center of ships to the border) static const Double_t fgkHybFLlowChipZ4; // Z1 to Z4 : position static const Double_t fgkHybFLlowChipZ3; // in z of the chip static const Double_t fgkHybFLlowChipZ2; // centers static const Double_t fgkHybFLlowChipZ1; // === static const Double_t fgkHybFLlowPasX; // Pascal center X pos static const Double_t fgkHybFLlowAmbX; // Ambra center X pos static const Double_t fgkHybChipsDZ; // Z dimension of chips static const Double_t fgkHybPascalDX; // X dimension of Pascal static const Double_t fgkHybAmbraDX; // X dimension of Ambra static const Double_t fgkHybFLUpperWidth; // bFLUpper : upper flex static const Double_t fgkHybFLUpperLength; // === static const Double_t fgkHybFLUpperAlDZ; // === static const Double_t fgkHybFLUpperAldx; // === static const Double_t fgkHybridThBridgeThick; // Thicknesses : static const Double_t fgkHybAlThick; // === static const Double_t fgkHybUpThick; // === static const Double_t fgkHybGlueScrnThick; // === static const Double_t fgkHybGlueLowThick; // === static const Double_t fgkHybGlueUpThick; // === static const Double_t fgkHybAlCCThick; // === static const Double_t fgkHybUpCCThick; // === static const Double_t fgkHybChipThick; // === static const Double_t fgkHybGlueAgThick; // === static const Double_t fgkHybUnderNiThick; // === static const Int_t fgkNHybSMD; // Number of SMD static const Double_t fgkHybSMDposX[25]; // X pos. of SMD static const Double_t fgkHybSMDposZ[25]; // Z pos. of SMD static const Double_t fgkHybSMDmiddleW; // SMD width static const Double_t fgkHybSMDmiddleL; // SMD length static const Double_t fgkHybSMDendW; // end SMD witdh static const Double_t fgkHybSMDendL; // end SMD length static const Double_t fgkHybSMDheight; // SMD height static const Double_t fgkDigitCablWidth; // Digital static const Double_t fgkDigitCablAlThick; // cables static const Double_t fgkDigitCablPolyThick; // === //HV cables static const Double_t fgkWaHVcableAlThick; // Wrap-around static const Double_t fgkWaHVcablePolyThick; // High Voltage static const Double_t fgkWaHVcableLength; // cables static const Double_t fgkWaHVcableWitdh; // (on sensor) static const Double_t fgkWaHVcableDW; // === static const Double_t fgkTransitHVAlThick; // Transition static const Double_t fgkTransitHVPolyThick; // High Voltage static const Double_t fgkTransitHVHeadLX; // cables static const Double_t fgkTransitHVHeadLZ; // (on sensor) static const Double_t fgkTransitHVBondingLZ; // === static const Double_t fgkTransitHVtailLength; // === static const Double_t fgkTransitHVtailWidth; // === static const Double_t fgkTransitHVtailXpos; // === static const Double_t fgkTransitHVsideLZ; // === static const Double_t fgkTransitHVsideLeftZ; // === static const Double_t fgkTransitHVsideRightZ; // === static const Double_t fgkLongHVcablePolyThick; // Long High static const Double_t fgkLongHVcableAlThick; // Voltage static const Double_t fgkLongHVcableSeparation; // cables static const Double_t fgkRubyDX; // ruby dx with respect to the middle (to ladder z axis) static const Double_t fgkRubyZladd3; // Z of ruby, ladder 3 static const Double_t fgkRubyZladd4; // Z of ruby, ladder 4 static const Double_t fgkLadFootX; // Length of ladder foot static const Double_t fgkLadFootZ; // width static const Double_t fgkLadFootY; // thickness static const Double_t fgkLadFootMiddleY; // thickness in the middle part static const Double_t fgkLadBox1X; // size in X static const Double_t fgkLadFingerPrintX; // size in X static const Double_t fgkLadFingerPrintY ; // size in Y static const Double_t fgkLadFingerPrintBorder; // size in X static const Double_t fgkRubyCageHoleZ; // size in Z static const Double_t fgkRubyCageHoleX; // size in X static const Double_t fgkRubyCageHoleY; // size in Y static const Double_t fgkRubyCageAxisShift; // shift in X static const Double_t fgkScrewM4diam; // M4 screw standard diameter static const Double_t fgkRubyScrewShiftToCenterY; // screw placement static const Double_t fgkRubyHoleDiam; // guess what // the end ladder cooling pipe and its heat exchanger static const Double_t fgkEndLadPipeUlengthLay3; // length in Z of the U cooling tube static const Double_t fgkEndLadPipeUlengthLay4; // length in Z of the U cooling tube static const Double_t fgkEndLadPipeUwidth; // width static const Double_t fgkEndLadPipeRadius; // radius static const Double_t fgkEndLadPipeInnerDiam; // InnerDiam static const Double_t fgkEndLadPipeOuterDiam; // OuterDiam static const Double_t fgkEndLadPipeArmZLay3; // the arms of the U cooling tube static const Double_t fgkEndLadPipeArmZLay4; // (rectangular part surrounding the) static const Double_t fgkEndLadPipeArmX; // the tube static const Double_t fgkEndLadPipeArmY; // X, Y : size in the correxponding axis static const Double_t fgkEndLadPipeArmBoxDY; // shift in Y of the arms from the axis static const Double_t fgkEndLadPipeArmBoxDX; // shift in X of the arms from the axis static const Double_t fgkEndLadPipeArmZpos; // position with respect to tube // approx dim for now - all of the following has to be checked // once Beppe provide the drawing... // Carlos Card : static const Double_t fgkLVcardX; // size of the card itself in X static const Double_t fgkLVcardY; // size of the card itself in Y static const Double_t fgkLVcardZ; // size of the card itself in Z static const Double_t fgkLVcardCuZ; // Cu thickness static const Double_t fgkLVChip0X; // chip #0 static const Double_t fgkLVChip0Y; // ... static const Double_t fgkLVChip0Z; // thickness without si layer static const Double_t fgkLVChip0SiZ; // Si layer thickness static const Double_t fgkLVChip0PosX; // Position with respect to the card static const Double_t fgkLVChip0PosY; // Position with respect to the card static const Double_t fgkLVChip1X; // same static const Double_t fgkLVChip1Y; // conventions static const Double_t fgkLVChip1Z; // as static const Double_t fgkLVChip1SiZ; // chip 0 static const Double_t fgkLVChip1PosX; // == static const Double_t fgkLVChip1PosY; // == static const Double_t fgkLVChip2X; // same static const Double_t fgkLVChip2Y; // conventions static const Double_t fgkLVChip2Z; // as static const Double_t fgkLVChip2SiZ; // chip 0 static const Double_t fgkLVChip2PosX; // == static const Double_t fgkLVChip2PosY; // == static const Double_t fgkLVChip3X; // same static const Double_t fgkLVChip3Y; // conventions static const Double_t fgkLVChip3Z; // as static const Double_t fgkLVChip3SiZ; // chip 0 static const Double_t fgkLVChip3PosX; // == static const Double_t fgkLVChip3PosY; // == static const Double_t fgkLVcoolX1; // pieces of alCu12 static const Double_t fgkLVcoolY1; // for heat exchange static const Double_t fgkLVcoolZ1; // with the cooling tube static const Double_t fgkLVcoolX2; // X,Y,Z are static const Double_t fgkLVcoolY2; // dimensions static const Double_t fgkLVcoolZ2; // of the pieces static const Double_t fgkLVcoolX3; // == static const Double_t fgkLVcoolY3; // == static const Double_t fgkLVcoolPosY; // == // HV card : static const Double_t fgkHVCardCeramX; // size in X of the ceramic card static const Double_t fgkHVCardCeramY; // size in Y static const Double_t fgkHVCardCeramZ; // size in Z static const Double_t fgkHVCardCapa1X; // size in X of the capa 1 static const Double_t fgkHVCardCapa1Z; // size in Z static const Double_t fgkHVCardCapa1Ymid; // size of the middle part static const Double_t fgkHVCardCapa1Yend; // ... static const Double_t fgkHVCardCapa1PosX; // position on the card static const Double_t fgkHVCardCapa1PosY; // position on the card static const Double_t fgkHVCardCapa2X; // idem for second type capa static const Double_t fgkHVCardCapa2Z; // love me static const Double_t fgkHVCardCapa2Ymid; // ... static const Double_t fgkHVCardCapa2Yend; // tender, static const Double_t fgkHVCardCapa2PosX; // ... static const Double_t fgkHVCardCapa2PosY; // love me true static const Double_t fgkHVCardCapa3Xmid; // idem for third type capa static const Double_t fgkHVCardCapa3Xend; // === static const Double_t fgkHVCardCapa3Z; // === static const Double_t fgkHVCardCapa3Y; // === static const Double_t fgkHVCardCapa3PosX1; // this capa is placed static const Double_t fgkHVCardCapa3PosX2; // in several positions static const Double_t fgkHVCardCapa3PosX3; // ... static const Double_t fgkHVCardCapa3PosX4; // === static const Double_t fgkHVCardCapa3PosX5; // === static const Double_t fgkHVCardCapa3PosY1; // === static const Double_t fgkHVCardCapa3PosY2; // === static const Double_t fgkHVCardCapa3PosY3; // === static const Double_t fgkHVCardCool1X; // cooling static const Double_t fgkHVCardCool1Y; // pieces for static const Double_t fgkHVCardCool1Z; // heat exchange static const Double_t fgkHVCardCool2X; // with static const Double_t fgkHVCardCool2Y; // cooling U tube static const Double_t fgkHVCardCool2Z; // === static const Double_t fgkHVCardCool3X; // === static const Double_t fgkHVCardCool3Y; // === static const Double_t fgkHVCardCool3Z; // === static const Double_t fgkHVCardCoolDY; // === static const Double_t fgkCarlosSuppX1; // piece with which static const Double_t fgkCarlosSuppY1; // the carlos card static const Double_t fgkCarlosSuppX2; // is fixed static const Double_t fgkCarlosSuppY2; // === static const Double_t fgkCarlosSuppZ; // === static const Double_t fgkCarlosSuppAngle; // === static const Double_t fgkCarlosSuppX3; // === static const Double_t fgkCarlosSuppY3; // === static const Double_t fgkCarlosSuppZ3; // === static const Double_t fgkCarlosSuppTopLen; // === // screws fixing the board on the U tube static const Double_t fgkLittleScrewHeadR; // screws fixing boards static const Double_t fgkLittleScrewHeadH; // Value to be checked static const Double_t fgkLittleScrewR; // === static const Double_t fgkShiftLittleScrewLV; // === static const Double_t fgkLittleLVScrewHeadR; // === // CARLOS board static const Double_t fgkCarlosCardX1; // length (first part of Carlos card) static const Double_t fgkCarlosCardY1; // thickness static const Double_t fgkCarlosCardZ1; // width static const Double_t fgkCarlosCardCuY; // thickness of Cu layer (strips) static const Double_t fgkCarlosCardX2; // length (2nd part of Carlos card) static const Double_t fgkCarlosCardZ2; // width static const Double_t fgkCarlosCardChipSiThick; // Carlos Chip thicknes - value to be checked static const Double_t fgkCarlosCardShift; // (value to be checked) shift in z w.r.t. heat bridge // size and position of various chips on carlos end-ladder board static const Double_t fgkCarlosU1X; // chip size in X static const Double_t fgkCarlosU1Y; // chip size in Y static const Double_t fgkCarlosU1Z; // chip size in Z static const Double_t fgkCarlosU1posX; // position in X static const Double_t fgkCarlosU1posZ; // position in Z static const Double_t fgkCarlosU2X; // chip size in X static const Double_t fgkCarlosU2Y; // chip size in Y static const Double_t fgkCarlosU2Z; // chip size in Z static const Double_t fgkCarlosU2posX; // position in X static const Double_t fgkCarlosU2posZ; // position in Z static const Double_t fgkCarlosU3X; // same convention static const Double_t fgkCarlosU3Y; // === static const Double_t fgkCarlosU3Z; // === static const Double_t fgkCarlosU3posX; // === static const Double_t fgkCarlosU3posZ; // === // U4 like U3 static const Double_t fgkCarlosU4posX; // same convention static const Double_t fgkCarlosU4posZ; // === static const Double_t fgkCarlosU17X; // same convention static const Double_t fgkCarlosU17Y; // === static const Double_t fgkCarlosU17Z; // === static const Double_t fgkCarlosU17posX; // === static const Double_t fgkCarlosU17posZ; // === static const Double_t fgkCarlosU35X; // same convention static const Double_t fgkCarlosU35Y; // === static const Double_t fgkCarlosU35Z; // === static const Double_t fgkCarlosU35posX; // === static const Double_t fgkCarlosU35posZ; // === static const Double_t fgkCarlosU36X; // same convention static const Double_t fgkCarlosU36Y; // === static const Double_t fgkCarlosU36Z; // === static const Double_t fgkCarlosU36posX; // === static const Double_t fgkCarlosU36posZ; // === static const Double_t fgkCarlosQZ1X; // same convention static const Double_t fgkCarlosQZ1Y; // look more thick than design number (0.7) ! to be checked static const Double_t fgkCarlosQZ1Z; // to be checked static const Double_t fgkCarlosQZ1posX; // to be checked static const Double_t fgkCarlosQZ1posZ; // to be checked // some pieces at the end of the carbon fiber ladder static const Double_t fgkCoolPipeLay3Len; // value to be checked static const Double_t fgkCoolPipeLay4Len; // === static const Double_t fgkHVguideX1; // === static const Double_t fgkHVguideY1; // === static const Double_t fgkHVguideZ1; // === static const Double_t fgkHVguideZ2; // === static const Double_t fgkHVguideDX; // === static const Double_t fgkHVguideSuppFullZ; // === // Cooling connector between phynox and plastic cooling water tubes static const Double_t fgkConnectorCoolTubeRmin; // internal radius static const Double_t fgkConnectorCoolTubeR1; // value to be checked static const Double_t fgkConnectorCoolTubeL1; // === static const Double_t fgkConnectorCoolTubeR2; // === static const Double_t fgkConnectorCoolTubeL2; // === static const Double_t fgkConnectorCoolTubeR3; // === static const Double_t fgkConnectorCoolTubeL3; // === // parameters for coding SDD cables on SDD and SSD cones static const Double_t fgkSectionCuPerMod; // area of copper per mod. static const Double_t fgkSectionPlastPerMod; // area of plast per mod. static const Double_t fgkSectionGlassPerMod; // area of optical fiber per mod. static const Double_t fgkSectionCoolPolyuEL; // area of cooling tubes on End Ladders static const Double_t fgkSectionCoolWaterEL; // area of cooling water on End Ladders static const Double_t fgkEndLadderEarthCableR; // radius of the earth cable on End Ladders static const Double_t fgkCableBendRatio; // ??? this factor account for the bending of cables static const Double_t fgkConeSDDr1; // define SDD cone slope and pos static const Double_t fgkConeSDDr2; // define SDD cone slope and pos static const Double_t fgkConeSDDz1; // define SDD cone slope and pos static const Double_t fgkConeSDDz2; // define SDD cone slope and pos static const Double_t fgkSDDCableR1; // ??? // part 1 of "cable cone" static const Double_t fgkSDDCableR2; // ??? // part 1/2 of "cable cone" static const Double_t fgkSDDCableR3; // ??? // part 2 of "cable cone" static const Double_t fgkSDDCableDZint; // length of intermediate cylinder static const Double_t fgkSDDCableR5; // third part of "cable cone" static const Double_t fgkSDDCableZ5; // third part of "cable cone" // distance from the heat bridge center to the card center : static const Double_t fgkCarlosCard2HeatBridge;// distance from the heat bridge center to the card center static const Double_t fgkmu; // 1 micron, or more for debugging // calculated parameters Double_t fLay3LadderUnderSegDH; // To include HVcables in box Double_t fLay4LadderUnderSegDH; // To include HVcables in box Double_t fLay3LaddShortRadius; // ladder 3 to beam axis radius Double_t fLay3LaddLongRadius; // ladder 3 to beam axis radius Double_t fLay4LaddShortRadius; // ladder 4 to beam axis radius Double_t fLay4LaddLongRadius; // ladder 4 to beam axis radius // parameters that can be modified Double_t fLay3sensorZPos[6]; // Z pos of sensors in layer 3 Double_t fLay4sensorZPos[8]; // Z pos of sensors in layer 4 ClassDef(AliITSv11GeometrySDD,0) // ITS v11 SDD geometry }; #endif