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Interactions of pions in the Si-W ECAL prototype Towards a paper Naomi van der Kolk.

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Presentation on theme: "Interactions of pions in the Si-W ECAL prototype Towards a paper Naomi van der Kolk."— Presentation transcript:

1 Interactions of pions in the Si-W ECAL prototype Towards a paper Naomi van der Kolk

2 Introduction Publication of CALICE Analysis Note CAN-025: Study the interactions of π - in the Si-W ECAL at low energies (2 – 10 GeV) and compare various Monte Carlo Models (physics lists) to this data The analysis has been revised again and the manuscript for a publication has been submitted to the editorial board 21/03/2014CALICE Collaboration Meeting2

3 Revisions since previous CALICE meeting at Annecy Changed from Geant4 v9.3 to v9.6 Improved the cut on multi particle events – Cut on the number of hits in the TCMT, very efficient against π - +μ - (~99%), a little less against π - + π - (~80%) Corrected the data for contamination due to electrons and multi particle events – Calculated the correction based on FTFP_BERT and QGSP_BERT, the difference is part of the systematic error Added figures of mean and standard deviations on the radial and longitudinal shower observables. 21/03/2014CALICE Collaboration Meeting3

4 Change in Geant4 version Updated the analysis to from Geant4 v9.3 to v9.6p01. (Big thanks to Mathias Götze) Recommended physics lists: – QGSP_BERT – FTFP_BERT and FTFP_BERT_HP – QGSP_BIC – QBBC Two issues have come up where there was a large difference with the previous version, related to QGSP_BIC and FTFP_BERT 21/03/2014CALICE Collaboration Meeting4

5 QGSP_BIC: MC particle endpoint A very high contamination with non- interacting events in QGSP_BIC – 13 – 35% compared to 3% for other physics lists Contaminating events look like interacting events (energy deposition, visual) 21/03/2014CALICE Collaboration Meeting5

6 QGSP_BIC MC particle endpoint The endpoint of the MC particle has changed wrt the previous version and is different from other physics lists The G4 process “PionMinusInelastic” leads to the endpoint of a MC particle for the other physics lists but not always for LEP based lists. We cannot use this list at low energies! 21/03/2014CALICE Collaboration Meeting6 QGSP_BIC FTFP_BERT

7 FTFP_BERT energy deposition The Fritiof model has been modified extensively, tuned to mostly scintillator data The energy deposition has changed between the versions, but not the hit density Related to the sensitive material? – Shower development of particles with momenta from 1 to 10 GeV in the CALICE Scintillator-Tungsten HCAL, JINST 9 P01004 (2014) (A. Lucaci-Timoce) 21/03/2014CALICE Collaboration Meeting7

8 New Results As in the paper draft 21/03/2014CALICE Collaboration Meeting8

9 Selecting interacting events Interactions are found based on two criteria: – Absolute energy increase – Relative energy increase Especially at low beam energies the second criterion is very important E (GeV)Fraction found by absolute energy criterion Additional fraction found by relative energy criterion 20.350.25 40.610.16 60.740.11 80.800.08 100.830.07 21/03/2014CALICE Collaboration Meeting9

10 Interaction finding efficiency Physics list2 GeV4 GeV6 GeV8 GeV10 GeV QGSP_BERT0.590.770.830.860.88 FTFP_BERT0.600.770.850.880.90 FTFP_BERT_HP0.580.770.850.880.90 QBBC0.600.780.840.870.89 21/03/2014CALICE Collaboration Meeting10 The fraction of all true interacting events that is classified as interacting It depends on the MC physics list, especially at low energy, the Bertini/Fritiof based models have the lowest efficiency Contamination = fraction of all events classified as interacting that is non-interacting, it is about 0.03 independent of energy

11 Interaction fraction The fraction of interacting events corrected with the interaction finding efficiency For data the efficiency of FTFP_BERT is used Correction of the data for electron and multi-particle event contamination Systematic error based on varying the selection variables, non- interacting events and uncertainty in the correction factor. The interaction fraction is consistent with the ECAL material budget and approximately independent of energy 21/03/2014CALICE Collaboration Meeting11

12 Radial hit distribution 21/03/2014CALICE Collaboration Meeting12 2 GeV6 GeV10 GeV

13 Radial hit distribution 21/03/2014CALICE Collaboration Meeting13 MC close to the data (within 10%), but details are not reproduced Clear transition visible for FTFP_BERT between Bertini Cascade (2,4 GeV) and Fritiof string model (6, 8, 10 GeV)

14 Radial energy profile 21/03/2014CALICE Collaboration Meeting14 2 GeV6 GeV10 GeV

15 Radial energy profile 21/03/2014CALICE Collaboration Meeting15 MC close to the data (within 10%), but details are not reproduced Clear transition visible for FTFP_BERT between Bertini Cascade (2,4 GeV) and Fritiof string model (6, 8, 10 GeV) Too much energy deposited near the shower axis

16 Longitudinal hit density 21/03/2014CALICE Collaboration Meeting16 2 GeV6 GeV10 GeV

17 Longitudinal hit density 21/03/2014CALICE Collaboration Meeting17 MC reproduces very well the longitudinal hit density

18 Longitudinal energy profile 21/03/2014CALICE Collaboration Meeting18 2 GeV6 GeV10 GeV

19 Longitudinal energy profiel 21/03/2014CALICE Collaboration Meeting19 MC underestimates the energy deposition The description gets worse with energy Too much energy is deposited close to the interaction region In the mean and std. dev. This effect is washed out

20 Summary Testbeams of pions at 2, 4, 6, 8 and 10 GeV were studied with the Si-W ECAL prototype Interacting events were identified using two criteria; absolute energy and relative energy increase The second is important especially at low beam energies Data and MC were compared in the interaction fraction, radial and longitudinal shower distributions – The radial distributions are sensitive to the MC models Changing the Geant4 version has caused a large delay, but has made the paper more interesting Broadly the MC are close to the data (within 10%), but details are not reproduced. The main discrepency is in the energy deposition, which is too close to the shower axis and interaction layer The data from the Si-W ECAL is very precise and allows to discriminate between MC models on a very fine scale 21/03/2014CALICE Collaboration Meeting20

21 21/03/2014CALICE Collaboration Meeting21

22 Backup: Analysis details 21/03/2014CALICE Collaboration Meeting22

23 Analysis setup (backup) Event sample: – Si-W ECAL physics prototype – 2008 FNAL test beam of π - at 2, 4, 6, 8 and 10 GeV – Matching Monte Carlo (physics lists: FTFP_BERT, FTFP_BERT_HP, QGSP_BERT, QBBC) Event cuts: – correct trigger, minimum number of hits (25), hits in correct region of ECAL (centre), minimum hit energy (0.6 mip), no noisy layers, muon rejection, electron rejection (based on found interaction layer > 6), multiple particle event rejection Sample size: – 500 k MC events (accepted 25 k – 300 k) – 150 k – 700 k data events (accepted 20 k – 450 k) 21/03/2014CALICE Collaboration Meeting23

24 Selection criteria (backup) Interacting (inelastic hadronic interaction) – Absolute energy increase E i > E cut && E i+1 >E cut && E i+2 >E cut – Relative energy increase F=(E i +E i+1 )/(E i-1 +E i-2 )>F cut && F’ = (E i+1 +E i+2 )/(E i-1 +E i-2 )> F cut && E aroundi >0.5E i 21/03/2014CALICE Collaboration Meeting24

25 Contaminations (backup) Muons: negligible at all energies Multi-particle events: 5% Electrons: 10% - 0% Non-interacting events: 3% 21/03/2014CALICE Collaboration Meeting25

26 Backup: QGSP_BIC 21/03/2014CALICE Collaboration Meeting26

27 MC particle endpoint @ 8GeV 21/03/2014CALICE Collaboration Meeting27 Geant4 v9.6p01 Geant4 v9.3 QGSP_BIC FTFP_BERT

28 MC end layer distribution 21/03/2014CALICE Collaboration Meeting28 Geant4 v9.6p01 Geant4 v9.3 Much more events with an endpoint outside the ECAL for QGSP_BIC in v9.6p01

29 Total deposited energy by contaminating events 21/03/2014CALICE Collaboration Meeting29 Geant4 v9.6p01 Geant4 v9.3

30 Backup: FTFP_BERT 21/03/2014CALICE Collaboration Meeting30

31 Change in energy deposition @ 10 GeV 21/03/2014CALICE Collaboration Meeting31 The change with Geant 4 version is much more pronounced in FTFP_BERT FTFP_BERT QGSP_BERT

32 Change in energy deposition 21/03/2014CALICE Collaboration Meeting32 The change with Geant 4 version increases with energy in FTFP_BERT 2 GeV6 GeV10 GeV

33 Change in total deposited energy @ 10 GeV 21/03/2014CALICE Collaboration Meeting33 The change with Geant 4 version is much more pronounced in FTFP_BERT FTFP_BERT QGSP_BERT

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