1 Radiation Length Distribution for Various Z vertex Maki Kurosawa (RIKEN) for the PHENIX Collaboration.

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Presentation transcript:

1 Radiation Length Distribution for Various Z vertex Maki Kurosawa (RIKEN) for the PHENIX Collaboration

2 Radiation Length Tool Radiation length tool was worked (Hubert’s work). Details are at thetaphir Create root file (PISA). Need to type below root command to make radiation length plot. PHENIX->GetVolume(“SICG”)->LegoPlot(20,0,180, 60,0,360, 0,100)

3 z = 0 cm Beam Pipe Material : Beryllium Thickness : 500  m Radiation Length : cm Radiation Length (with beam pipe) Using radiation length tool 124 < phi (degree) < 214 phi (degree) theta (degree) radl radiation length v.s. phi v.s. thetaradiation length v.s theta Using pass length Good match

4 P T (GeV/c) P T (GeV/c) Radiation Length and P T Plots (w/o beam pipe) <  < < Phi (degree) < 56 || 124 < Phi (degree) < < Vertex_z (cm) < 0 Applying cut of central arm acceptance. Radiation Length : 9.5%

5 P T (GeV/c) P T (GeV/c) P T (GeV/c) Radiation Length and P T Plots (w/o beam pipe) <  < < Phi (degree) < 56 || 124 < Phi (degree) < < Vertex_z (cm) < +15 Applying cut of central arm acceptance.

6 Radiation Length and P T Plots (w/o beam pipe) 0 < theta (degree) < < phi (degree) < < Vertex_z (cm) < 0 P T (GeV/c) P T (GeV/c) NOT applying acceptance cut.

7 P T (GeV/c) P T (GeV/c) P T (GeV/c) Radiation Length and P T Plots (w/o beam pipe) 0 < theta (degree) < < phi (degree) < < Vertex_z (cm) < +15 NOT applying acceptance cut.

8 Back Up

9 TH2F* h2[2]; TProfile* pfx; TH1D* pfx_px; TFile* tf = new TFile( “geom.root” ); h2[0] = PHENIX->GetVolume(“SICG”)->LegoPlot(55., 65., 120., 90., 124., 214., 0., 20.); h2[1] = new TH2F(“h2[1]”, “”, 80, 0, 180, 11, 4, 15); for( int theta = 1; theta < 56; theta++ ){ for( int phi = 1; phi < 91; phi++ ){ float rads = h2[0]->GetBinContent(phi, theta)*100; h2[1]->Fill( theta+64, rads ); } pfx = h2[1]->ProfileX(); pfx_px = pfx->ProjectionX(); pfx_px->Draw(); Radiation Length Tool in gffgo.dat, change line SWIT !... to SWIT ! pisa g2root geometry.dat geometry.C root geometry.C root [0] gGeoManager->Export("geom.root", "PHENIX") create geom.root

10 From my previous slide at VTX simulation meeting (31th Oct 2008) Beam pipe was not taken in account for calculation of radiation length. Radiation Length (without beam pipe) Support ring

11 z = 0 cm Beam Pipe Material : Beryllium Thickness : 500  m Radiation Length : cm Radiation Length (with beam pipe) 124 < phi < 214

12 Calculation of Radiation Length A (x 1, y 1, z 1 ) B (x 2, y 2, z 2 ) Use of a pass length through medium to obtain a radiation length. Not use LSCAN or HSCAN Radiation Length : AB C (x 3, y 3, z 3 ) BC medium1 : radl = X 0 (1) medium2 : radl = X 0 (2) Coordinates of point A, B, C... X 0 (1), X 0 (2)… can be obtained from PISA.