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Repository with Monte Carlo simulations for particle physics


Reconstruction tag Information about the "rfull006" production tag


Summary

Name: rfull006
Detector: sifcch4
Description: SiFCC detector based on the "all-silicon" concept used for SiD
Experiment: FCC-hh, SppC
Simulation: SLIC (v5)
Reconstruction: fpadsim-1.1 on OSG: lcsim 4.0, slicPandora, pandoraPFA
Download: rfull006.tgz
Submission time: Tue Mar 21 19:33:08 EDT 2017
Updated on: -
Submitter: S.Chekanov, A.Kotwal

Available data:

Find data: Reconstruction tag rfull006

Comment

A silicon Detector for FCC-hh studies. Based on the SiD detector Loi3 (N.Graf, J.McCormick). Part of HepSim repository This is FCC-h like detector based on the Silicon Detector (SiD). Currently it is smaller than the baseline design (similar to ATLAS detector), but it features large solenoid field (5T) and high-granullar tracker and calorimeters. It includes several modification to allow high-pT measurements at FCC-hh. In particular, it has 64 layers for HCAL with 5x5 cm (RegularNgonCartesianGridXY) cell size using scintillators, and ECAL based on 2x2 cm cell size (EcalBarrelCartesianGridXY). ECAL is close to 35 X0. HCAL is 11.25 interaction length (lambda), 0.176 lambda/layer. The total calorimeter thickness is about 12 lambda. The vertex tracking is increased by a factor 3 in Z compared to the SiD, the outer tracker was also increased to provide a good coverage in the barrel region. The endcup was moved away by a factor 2. The barrel region corresponds to |eta| less than 1.7. A silicon Detector for FCC-hh studies. Based on the SiD detector Loi3 (N.Graf, J.McCormick). Part of HepSim repository This is FCC-h like detector based on the Silicon Detector (SiD). Currently it is smaller than the baseline design (similar to ATLAS detector), but it features large solenoid field (5T) and high-granullar tracker and calorimeters. It includes several modification to allow high-pT measurements at FCC-hh. In particular, it has 64 layers for HCAL with 5x5 cm (RegularNgonCartesianGridXY) cell size using scintillators, and ECAL based on 2x2 cm cell size (EcalBarrelCartesianGridXY). ECAL is close to 35 X0. HCAL is 11.25 interaction length (lambda), 0.176 lambda/layer. The total calorimeter thickness is about 12 lambda. The vertex tracking is increased by a factor 3 in Z compared to the SiD, the outer tracker was also increased to provide a good coverage in the barrel region. The endcup was moved away by a factor 2. The barrel region corresponds to |eta| less than 1.7.


         
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