SoLID Simulation Update Zhiwen Zhao University of Virginia SoLID Collaboration Meeting 2011/10/14 Introduction GEMC Update Simulation Study Summary Introduction.

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Presentation transcript:

SoLID Simulation Update Zhiwen Zhao University of Virginia SoLID Collaboration Meeting 2011/10/14 Introduction GEMC Update Simulation Study Summary Introduction GEMC Update Simulation Study Summary

Introduction SoLID collaboration has successfully adopted GEMC as its Geant4 simulation framework and joined in GEMC development. The framework is used for various studies to help detector design. A lot of subsystem design and simulation progresses have been made. More studies are under way. SoLID collaboration has successfully adopted GEMC as its Geant4 simulation framework and joined in GEMC development. The framework is used for various studies to help detector design. A lot of subsystem design and simulation progresses have been made. More studies are under way. 2

GDML output support Option to record passby particle or not “Signal” interface for every step of each hit GDML output support Option to record passby particle or not “Signal” interface for every step of each hit 3 GEMC Update (Maurizio Ungaro)

Ideal magnet design CLEO magnet design and detector layout Energy flux at EC GEM response and digitazation Ideal magnet design CLEO magnet design and detector layout Energy flux at EC GEM response and digitazation 4 SoLID Simulation Study

Ideal Magnet (Mehdi Meziane, Yang Zhang, Paul Reimer, Zhiwen Zhao) 5 An ideal (short and fat) magnet and yoke are produced.

6 SIDIS Kinematic (Mehdi Meziane, Yang Zhang, Paul Reimer, Zhiwen Zhao) Green area, large angle coverage Black area, forward angle coverage Green area, large angle coverage Black area, forward angle coverage SIDIS kinematics for the ideal magnet is studied

ZEUSBaBar/CLEOCDFGlue-X Ideal Magnet x z Q2Q W W’W’ PTPT SIDIS Kinematic (Mehdi Meziane, Yang Zhang, Paul Reimer, Zhiwen Zhao) The result of the ideal magnet is similar to BaBar/CLEO.

CLEO Magnet Yoke Design (Paul Reimer, Yang Zhang, Zhiwen Zhao, Eric Fuchey, Simona Malace) 8 A new yoke for CLEO magnet is designed. NO Edge in endcup YES Edge in endcup Minimize field at endcup

9 Minimize field in front near SIDIS 3He target CLEO Magnet Yoke Design (Paul Reimer, Yang Zhang, Zhiwen Zhao, Eric Fuchey, Simona Malace) A new yoke for CLEO magnet is designed.

10 CLEO Magnet Yoke Design (Paul Reimer, Yang Zhang, Zhiwen Zhao, Eric Fuchey, Simona Malace) PVDIS SIDIS Its field map and geometry are implemented in GEMC.

Background in EC (Zhiwen Zhao, Xin Qian) 11 GEMC electron and photon energy flux confirms Geant3 result. Hadron energy flux is under study. GEMC electron and photon energy flux confirms Geant3 result. Hadron energy flux is under study. PVDIS forward angle SIDIS forward angle SIDIS lareg angle Black: total Red: electron Green: photon Blue: hadron

EC Radiation Resistant ◦ PVDIS forward angle  EM <=2k GeV/cm 2 /s + pion, total ~<60 krad/year ◦ SIDIS forward angle  EM <=5k GeV/cm 2 /s + pion, total ~<100 krad/year ◦ SIDIS large angle  EM <=20k GeV/cm 2 /s + pion, total ~<400 krad/year ◦ PVDIS forward angle  EM <=2k GeV/cm 2 /s + pion, total ~<60 krad/year ◦ SIDIS forward angle  EM <=5k GeV/cm 2 /s + pion, total ~<100 krad/year ◦ SIDIS large angle  EM <=20k GeV/cm 2 /s + pion, total ~<400 krad/year 12 Typical Shashlik Polyakov, COMPASS Talk, 2010 COMPASS module Radiation hardness ~ 500kRad, See EC talk for improving the property COMPASS module Radiation hardness ~ 500kRad, See EC talk for improving the property

GEM Response (Zhiwen Zhao, Evaristo Cisbani) 13 # * HoneyComb # * 0 NEMA G um # * 1 NOMEX 3 # * 2 NEMA G um # * Drift Cathode # * 4 Kapton 50 um # * 3 Copper 5 um # * 5 Air 3 mm # * GEM0 # * 6 Copper 5 um # * 7 Kapton 50 um # * 8 Copper 5 um # * 9 Air 2 mm # * GEM1 # * 10 Copper 5 um # * 11 Kapton 50 um # * 12 Copper 5 um # * 13 Air 2 mm # * GEM2 # * 14 Copper 5 um # * 15 Kapton 50 um # * 16 Copper 5 um # * 17 Air 2 mm # * Readout Board # * 18 Copper 10 um # * 19 Kapton 50 um # * 20 G um + 60 um (assume 60 um glue as G10) # not implmented yet # * Honeycomb # * 21 NEMA G um # * 22 NOMEX 3 um # * 23 NEMA G um # * HoneyComb # * 0 NEMA G um # * 1 NOMEX 3 # * 2 NEMA G um # * Drift Cathode # * 4 Kapton 50 um # * 3 Copper 5 um # * 5 Air 3 mm # * GEM0 # * 6 Copper 5 um # * 7 Kapton 50 um # * 8 Copper 5 um # * 9 Air 2 mm # * GEM1 # * 10 Copper 5 um # * 11 Kapton 50 um # * 12 Copper 5 um # * 13 Air 2 mm # * GEM2 # * 14 Copper 5 um # * 15 Kapton 50 um # * 16 Copper 5 um # * 17 Air 2 mm # * Readout Board # * 18 Copper 10 um # * 19 Kapton 50 um # * 20 G um + 60 um (assume 60 um glue as G10) # not implmented yet # * Honeycomb # * 21 NEMA G um # * 22 NOMEX 3 um # * 23 NEMA G um To obtain more realistic GEM response, we borrow from SBS GEM simulation and the geometry and material of GEM module are realized in GEMC. The EM background study is underway. For GEM Digitization, see Tracking talk. To obtain more realistic GEM response, we borrow from SBS GEM simulation and the geometry and material of GEM module are realized in GEMC. The EM background study is underway. For GEM Digitization, see Tracking talk.

Summary 14 SoLID GEMC Framework is moving forward. Many simulation study is well under way. Several tutorials and hand on sessions have been given when I was in China at Tsinghua Univ., CIAE, USTC, and Huangshan Univ.

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