void SetMFTGeometry() {
- const Int_t nPlanes = 6;
+ const Int_t nPlanes = 5;
- const Float_t zCenter[nPlanes] = { -45.5, -49.3, -53.1, -56.9, -68.8, -76.8 }; // expressed in cm
+ const Float_t zCenter[nPlanes] = { -46.0, -49.3, -53.1, -68.7, -76.8 }; // expressed in cm
- const Float_t rMin[nPlanes] = { 2.50, 2.50, 2.50, 3.00, 3.50, 3.90 }; // expressed in cm
- const Float_t rMax[nPlanes] = { 10.80, 11.50, 12.30, 13.00, 15.30, 16.90 }; // expressed in cm
+ const Float_t rMin[nPlanes] = { 2.30, 2.30, 2.30, 3.30, 3.60 }; // expressed in cm
+ const Float_t rMax[nPlanes] = { 10.00, 10.50, 11.10, 13.90, 15.30 }; // expressed in cm
- const Float_t pixelSizeX[nPlanes] = { 20.e-4, 20.e-4, 20.e-4, 20.e-4, 20.e-4, 20.e-4 }; // expressed in cm
- const Float_t pixelSizeY[nPlanes] = { 20.e-4, 20.e-4, 20.e-4, 20.e-4, 20.e-4, 20.e-4 }; // expressed in cm
+ const Float_t pixelSizeX[nPlanes] = { 28.e-4, 28.e-4, 28.e-4, 28.e-4, 28.e-4 }; // expressed in cm
+ const Float_t pixelSizeY[nPlanes] = { 28.e-4, 28.e-4, 28.e-4, 28.e-4, 28.e-4 }; // expressed in cm
- const Float_t thicknessActive[nPlanes] = { 50.e-4, 50.e-4, 50.e-4, 50.e-4, 50.e-4, 50.e-4 }; // expressed in cm
- const Float_t thicknessSupport[nPlanes] = {2000.e-4, 2000.e-4, 2000.e-4, 2000.e-4, 2000.e-4, 2000.e-4 }; // expressed in cm
- const Float_t thicknessReadout[nPlanes] = { 50.e-4, 50.e-4, 50.e-4, 50.e-4, 50.e-4, 50.e-4 }; // expressed in cm
+ const Float_t thicknessActive[nPlanes] = { 50.e-4, 50.e-4, 50.e-4, 50.e-4, 50.e-4 }; // expressed in cm
+ const Float_t thicknessSupport[nPlanes] = { 1.4 , 1.4 , 1.4 , 1.4 , 1.4 }; // expressed in cm
+ const Float_t thicknessReadout[nPlanes] = { 50.e-4, 50.e-4, 50.e-4, 50.e-4, 50.e-4 }; // expressed in cm
- const Float_t equivalentSilicon[nPlanes] = { 400.e-4, 400.e-4, 400.e-4, 400.e-4, 400.e-4, 400.e-4 }; // expressed in cm
- const Float_t equivalentSiliconBeforeFront[nPlanes] = { 0.e-4, 0.e-4, 0.e-4, 0.e-4, 0.e-4, 0.e-4 }; // expressed in cm
- const Float_t equivalentSiliconBeforeBack[nPlanes] = { 350.e-4, 350.e-4, 350.e-4, 350.e-4, 350.e-4, 350.e-4 }; // expressed in cm
+ const Float_t equivalentSilicon[nPlanes] = { 600.e-4, 600.e-4, 600.e-4, 600.e-4, 600.e-4 }; // expressed in cm
+ const Float_t equivalentSiliconBeforeFront[nPlanes] = { 0.e-4, 0.e-4, 0.e-4, 0.e-4, 0.e-4 }; // expressed in cm
+ const Float_t equivalentSiliconBeforeBack[nPlanes] = { 550.e-4, 550.e-4, 550.e-4, 550.e-4, 550.e-4 }; // expressed in cm
- const Float_t hasPixelRectangularPatternAlongY[nPlanes] = {0., 0., 0., 0., 0., 0.};
+ const Float_t hasPixelRectangularPatternAlongY[nPlanes] = {0., 0., 0., 0., 0.};
TNtuple *geomMFT = new TNtuple("AliMFTGeometry", "ALICE MFT Geometry", "zCenter:rMin:rMax:pixelSizeX:pixelSizeY:thicknessActive:thicknessSupport:thicknessReadout:equivalentSilicon:equivalentSiliconBeforeFront:equivalentSiliconBeforeBack:hasPixelRectangularPatternAlongY");