Geant4 Hadronic Physics: Parametrised and Theoretical Models
Validation - indico.cern.ch · Validation & tuning of hadronic models The developers of the...
Transcript of Validation - indico.cern.ch · Validation & tuning of hadronic models The developers of the...
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Validation
Witold Pokorski, Alberto Ribon CERN PH/SFT
ESIPAP, Archamps, 13-14 February 2017
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Validation & tuning of hadronic models● The developers of the hadronic models are responsible of
the tuning & validation of these models with thin-target (microscopic, single-interaction) measurements
● Validation of complete physics configurations is performedby users mostly via measurements of hadronic showersin calorimeter test-beam setups (thick targets)
● The most important application of the hadronic models for collider experiments is the simulation of jets, which involves:
1. the Monte Carlo event generator
2. the convolution of the showers for each constituent hadron
3. experiment specific: geometry & materials, digitization, etc.
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Model-level thin-target test
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Model-level thin-target testFTF validation, HARP-CDP data
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Model-level thin-target test
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Model-level thin-target test
Preco validation, 22 MeV p – Fe -> n
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Validation of Precompound & de-excitation
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LHC calorimeter test-beams
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● The simulation of hadronic showers can be validated with calorimeter test-beam set-ups, with pion and proton beams of various energies, considering the following observables:
● Energy response: Erec / Ebeam
● Energy resolution: Δ Erec / Erec ● Shower profile:
– Longitudinal: Erec(z) / Erec
– Lateral (transverse or radial): Erec(r) / Erec
● Note that we can test directly only single-hadron showersin calorimeter test-beam set-ups, whereas for a collider experiment (e.g. ATLAS and CMS) jets are measured.The simulation of jets involves:1. the Monte Carlo Event Generator2. the convolution of the showers for each constituent hadron
Calorimeter observables
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● Once you have collected data from a calorimeter test-beam set-up with hadron beams, there is a long work neededbefore drawing conclusions on the hadronic simulation:
● Cleaning/selection cuts to have the purest possible sample● Model beam composition and spread● Check material composition, geometry, dead material● Model quenching effects (Birks’ law), photo-statistics, etc.● Include noise, cross-talk, DAQ time-window, and digitization
To help on these steps:● Special triggers● Muon beam● Electron beam (also needed for the electromagnetic calibration)
A long journey...
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Energy response
ATLAS TileCal test-beam
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Energy resolution
ATLAS HEC test-beam
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Longitudinal shower shapes
ATLAS TileCal test-beam @90°
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Lateral shower shapes
ATLAS TileCal test-beam @90°
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Muonsimulation vs.
p-p collision data
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Isolated single hadron response:
simulation vs. ATLAS p-p data
E/p vs p
E/p vs η
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Isolated single hadron response:simulation vs. CMS p-p data
Agreement is better than ±3% between 2-20 GeV/c
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Di-jet invariant mass: simulation vs. CMS p-p data
Very good agreement between simulation and collision data!
Three ingredients are convoluted in the simulation: - Monte Carlo event generator: Pythia - Detector simulation engine: Geant4 - Experiment-specific aspects: geometry/materials, digitization, calibration, rec.
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CMS
Missing ET is a very complex (global) variable
Good agreement over 6 orders of magnitudes!
Missing ET : simulation vs. collision data