SoLID simulation Zhiwen Zhao Uva SoLID Collaboration Meeting 2011/6/2 1.

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Presentation transcript:

SoLID simulation Zhiwen Zhao Uva SoLID Collaboration Meeting 2011/6/2 1

GEMC written by Maurizio Ungaro, used for CLAS12 2

GUI (Run control) Command Line Options 3

GUI (Detector) 4

5

How To: new detector, hits $detector{"pos"} = ”10*cm 20*cm 305*mm"; $detector{"rotation"} = "90*deg 25*deg 0*deg"; $detector{"color"} = "66bbff"; $detector{"type"} = "Trd"; $detector{"dimensions"} = ”1*cm 2*cm 3*cm 4*cm 5*cm"; $detector{"material"} = "Scintillator"; $detector{"mfield"} = "no"; $detector{"ncopy"} = 12; $detector{"pMany"} = 1; $detector{"exist"} = 1; $detector{"visible"} = 1; $detector{"style"} = 1; $detector{"sensitivity"} = "CTOF"; $detector{"hit_type"} = "CTOF"; $detector{"identifiers"} = "paddle manual 2"; 16 th : Bank 17 th : Digitization Routine In general, 1 bank  1 digitization routine… but not necessary 6

Factory Method for Hit Processes Hit Process, Digitizations External Routines CTOF gemc DC SVT gemc FTOF Automatic Process Routines Still External Easy to: add new routine debug modify 7

Digitization Hit Position Volume Local Hit Position Deposited energy Time of the hit Momentum of the Track Energy of the track Primary Vertex of track Particle ID Identifier Mother Particle ID Mother Vertex Average (x,y,z) Average (lx, ly, lz) Total E Average t Average p (final p) Energy Primary Vertex of track Particle ID Strip, Layer, Sector Available For every G4 step Hit Process Example

Event Generation 1)Particle gun built in, two luminosity beams can be added 2)LUND Format (txt) for physics events 9 Data Output 1)evio, bank alike binary format by Jlab DAQ group 2)Root tree, convert from evio 3)text

Documentation gemc.jlab.org b.org/wiki/index.ph p/Solid_sim_geant4 b.org/ 10

Advantage Central outside location of geometry/sensitivity/field/digitization Customized hit processing for various detectors Unified individual detector simulation and the whole SoLID simulation 11

Progress Mirrors, done in the “identifiers” entry of the geometry, control optical property on fly. Right click to output geometry in GDML format. Mother particle tracking becoming optional to optimize speed. Todo list Move material definition into database also. Move svn repository out of clas12svn and restructure. Improve database I/O. Adapt to Geant GEMC update

Progress Add “solid” HIT_PROCESS_LIST More database added in soliddb.jlab.org to allow for the full SoLID, its subsystems simulation. Also database for individual developers. PVDIS and SIDIS yoke designs and field maps are unified More materials added for our setup. More instructions on wiki Rewrote many geometry to avoid overlap and added more EC simulation in GEMC is under work. Baffle redesign for various magnets Event generators updated for PVDIS and SIDIS Study configuration with ZEUS magnet. Todo list Move subsystem simulation to GEMC Customize hit routine Direct root output 13 SoLID GEMC update

Compare geant4 to geant3 results Progress SIDIS kinematics and angle distribution SIDIS and PVDIS low energy background rate. Todo list Acceptance Detector resolution 14

CLAS12 SVT 15

SIDIS with BaBar Magnet 16 geant4 geant3

SIDIS with BaBar Magnet 17 geant4 geant3

Kinematics for SIDIS with BaBar 18 geant4 geant3

Phase Space, Collins and Sivers Angle Coverage for SIDIS with BaBar 19 geant4 geant3

Background rate on GEM for SIDIS with BaBar 20 geant4 Condition: 15uA 11GeV e- beam, 40cm 3He 10amg gas target Result: geant4 is about 1/2 of geant3 with a different magnet geant3 CDF

Energy flux rate on EC for SIDIS with BaBar 21 geant4 Condition: 15uA 11GeV e- beam, 40cm 3He 10amg gas target Result: geant4 is close to geant3 with the same magnet geant3

PVDIS with BaBar Magnet 22 geant4 geant3

PVDIS with BaBar Magnet 23 geant4 geant3

Background rate on GEM for PVDIS with BaBar 24 geant4 geant3 baffle open Condition: 50uA 11GeV e- beam, 40cm LD2 target Result: geant4 is about 2 times of geant3 with LH2 target.

Energy flux rate on forward EC for PVDIS with BaBar 25 geant4 geant3 Condition: 50uA 11GeV e- beam, 40cm LD2 target Result: geant4 is about 2 times of geant3 with LH2 target. open baffle

Summary Solid Simulation is making progress. Geant4 physics is under control. The program is ready to be used for various studies to help design. Subsystem simulation should take advantage of the framework. 26

Thanks Maurizio Ungaro Paul Reimer Seamus Riordan Lorenzo Zana Simona Malace Yang Zhang Eugene Chudakov Xin Qian Zhiwen Zhao 27