IDEA Detector Simulation Status

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Presentation transcript:

IDEA Detector Simulation Status Tassielli G.F. INFN Lecce & Università del Salento 07/31/17 FCC Detector meeting - CERN

IDEA (baseline) geometry simulation Following dimensions reported by Mogens talks at FCC-Berlin Pipe: equivalent to 0.48% X0 at radius of 15.6 mm (170 µm of Ti, to avoid overlaps) SVX: (for this study) 7 layers of Si: radii: 17.0, 23.0, 31.0, 180.0, 200.0, 330.0, 340.0 mm; lengths: 250, 250, 250, 800, 800, 1500, 1500 mm (coverage not checked); thickness 0.28, 0.28, 0.28, 0.94, 0.94, 0.94, 0.94 mm pixel 20 µm; DCH: (gas He 90% i-C4H10 10%) radii: 345, 2000 mm: length: 4000 mm; Cell: 56448; Layers: 112; Cell size: 11.85 – 14.7 mm; Stereo angle: 48 - 250 mrad. PSHW: 2 active layers (+ 2 Lead radiator layers): radii: 2012, 2027 mm (2004, 2014); Lengths: 4800, 4800 mm (4800, 4800); thickness 0.94, 0.94 mm (6, 11) pixel 70 µm; 07/31/17 FCC Detector meeting - CERN

IDEA single track fitting (additional tests) We perform a comparison of the following configuration: Using a VTX made of the 3 inner layers and the 2 outers ones (VTX_2). Using a VTX made of the 3 inner layers and the 2 central ones (VTX_1). With VTX_1 use a thinner Beam Pipe (made of 1mm of Beryllium). With VTX_1 without Beam Pipe wall Moreover we performed a scan of the resolutions as a function of the theta angle for tracks of fixed momenta (1, 5, 10, 30, 100 GeV). 07/31/17 FCC Detector meeting - CERN

Resolutions (µ- at fixed θ=65deg) σpt/pt2(100GeV) = 3-4 x 10-5 07/31/17 FCC Detector meeting - CERN

Resolutions (µ- as function of θ) 07/31/17 FCC Detector meeting - CERN

Resolutions (µ- as function of θ) 07/31/17 FCC Detector meeting - CERN

FCC Detector meeting - CERN Works in progress Integration of the CDCH simulation inside the FCCsw: Niloufar Alipour Tehrani is performing the integration; She started by inserting a simplified DCH geometry in FCCsw; We are discussing how to proceed now. Integration of the DR calorimeter inside the actual IDEA full simulation tools: We got the 4pi DR calorimeter geometry from CEPC collaboration; The integration should finish during this week; We will merge the simulation of the Pavia group on a DR calorimeter prototype with the 4pi one got from CEPC. The CEPC collaboration is started to integrate the CDCH simulation inside their framework (ILCSoft + Mokka) Xu Yin is performing the integration; He succeeded to import the CDCH geometry in Mokka; Currently we are performing a validation of the CDCH simulation in Mokka. Hit production, track fitting and track reconstruction integration is not started yet. DCH prototype in preparation for test beam on second half of September 07/31/17 FCC Detector meeting - CERN

FCC Detector meeting - CERN Integration of the DR calorimeter inside the actual IDEA full simulation tools Mokka DR calo geometry: autor FU ChengDong I’m working on the porting of the DR 4pi geometry inside the IDEA sim tool. Lorenzo Pezzotti (INFN Pavia) is working on the merging of the Sensitive Detector of the prototype simulation and of the Mokka DR code. 07/31/17 FCC Detector meeting - CERN

CDCH Mokka simulation validation status IDEA sim tool (delta ray removed) 07/31/17 FCC Detector meeting - CERN

CDCH Mokka simulation validation status IDEA sim tool (delta ray removed) 07/31/17 FCC Detector meeting - CERN

CDCH Mokka simulation validation status IDEA sim tool (delta ray removed) 07/31/17 FCC Detector meeting - CERN

CDCH Mokka simulation validation status IDEA sim tool (delta ray removed) 07/31/17 FCC Detector meeting - CERN

CDCH Mokka simulation validation status IDEA sim tool (delta ray removed) 07/31/17 FCC Detector meeting - CERN

CDCH Mokka simulation validation status The validation of the two CDCH simulation is still on going: Points coordinates distributions are statistically compatible; Cell Ids distributions are statistically compatible; Some differences occur on the number of Points and on the number of secondary particles produced; Some differences are visible in the shapes of the tracks, in Mokka seems equal event by event, there are smaller fluctuation. Possible reasons could be: Physics list used; Step point limiters; Random number generators. 07/31/17 FCC Detector meeting - CERN

FCC Detector meeting - CERN DCH prototype Axial drift chamber, 144 channels; We are finalizing the instrumentation; We have to test the full system with cosmic rays before the test beam. 07/31/17 FCC Detector meeting - CERN