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1Calice-UK Cambridge 9/9/05D.R. Ward David Ward Compare Feb’05 DESY data with Geant4 and Geant3 Monte Carlos. Work in progress – no definitive conclusions.

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Presentation on theme: "1Calice-UK Cambridge 9/9/05D.R. Ward David Ward Compare Feb’05 DESY data with Geant4 and Geant3 Monte Carlos. Work in progress – no definitive conclusions."— Presentation transcript:

1 1Calice-UK Cambridge 9/9/05D.R. Ward David Ward Compare Feb’05 DESY data with Geant4 and Geant3 Monte Carlos. Work in progress – no definitive conclusions Trying to use “official” software chain (LCIO, Marlin etc), even though much is still under development. Data/MC comparisons

2 2Calice-UK Cambridge 9/9/05D.R. Ward Data samples Using samples of electrons at 1, 2, 3 GeV at normal incidence in centres of wafers. Mainly use Run 100122 (1 GeV), 100123 (2 GeV) and 100134 (3 GeV) where beam aimed at centre wafer of lower row. Native raw data converted to LCIO raw data locally using old version v00-02 of R.Pöschl’s code. Use Marlin wrapper around George’s code to process drift chamber info, and to apply pedestal subtraction and gain correction to ADC data. Histograms and analysis using Root in Marlin

3 3Calice-UK Cambridge 9/9/05D.R. Ward Monte Carlo Mokka (Geant4) contains detector geometries for Test Beam. For this purpose, using the ProtoDesy0205 model. This contains 30 layers; 9 wafers/layer, so remove non-existing ones in software. Also Geant3 MC – Caloppt. Uses hard coded geometry, identical to Mokka (A.Raspereza). Both write out LCIO SimCalorimeterHits, which contain the total ionization energy deposit in each Si pad. Coordinate system, cell numbering scheme agreed June 2004. See http://polywww.in2p3.fr/geant4/tesla/www/mokka/ProtoDoc/CoordinatesAndNumbering.html

4 4Calice-UK Cambridge 9/9/05D.R. Ward MC generation Use Mokka 5.1 with electron beams at normal incidence. Gaussian beam spread of width chosen to roughly match profile in data. In analysis, add in 0.12MIP of noise to each channel (reflecting pedestal width in data). No noise in empty channels yet; no cross-talk.

5 5Calice-UK Cambridge 9/9/05D.R. Ward MIP peak in data  George tuned MIP peak to cosmics.  MIP peak for electron showers lies slightly above 1.  A cut at about 0.6-0.7 looks appropriate to remove remaining noise. Use 0.6

6 6Calice-UK Cambridge 9/9/05D.R. Ward MIP peak in data c.f. Geant4 Take 1 MIP in MC to correspond to 0.16 MeV This leads to satisfactory alignment of the MIP peaks in data and MC. Works for Geant3 as well as GEANT4 Normalization to number of events. Clearly, fewer hits in MC than data.

7 7Calice-UK Cambridge 9/9/05D.R. Ward MIP tail data c.f. MC Good, but not perfect.

8 8Calice-UK Cambridge 9/9/05D.R. Ward # hits above threshold ~13% discrepancy. 1 GeV e -

9 9Calice-UK Cambridge 9/9/05D.R. Ward Total energy (in MIPs) ~17% discrepancy in scale. Fractional width OK. 1 GeV e -

10 10Calice-UK Cambridge 9/9/05D.R. Ward Dependence on tracking cut? G4 operates with a cut on range (5 μm default in Mokka) Reduce to 0.2 μm improves agreement with data But slows program down by a factor ~20 G3 (cutoff 100 keV) equivalent to G4 with cutoff of ~ 1 μm

11 11Calice-UK Cambridge 9/9/05D.R. Ward MIP distribution vs tracking cutoff Tail much better 1 GeV e -

12 12Calice-UK Cambridge 9/9/05D.R. Ward N hits vs tracking cutoff 1 GeV e -

13 13Calice-UK Cambridge 9/9/05D.R. Ward Etot /MIPs vs tracking cutoff 1 GeV e -

14 14Calice-UK Cambridge 9/9/05D.R. Ward Shower longitudinal profile Showers seem to be a bit too deep in G4? 1 GeV e -

15 15Calice-UK Cambridge 9/9/05D.R. Ward Energy in first plane Data shows more energy in first plane than MC; fewer single MIPs

16 16Calice-UK Cambridge 9/9/05D.R. Ward Energy in first plane Could patch up energy in first plane by introducing ~0.15X 0 of upstream material Compare with G3 also from now on

17 17Calice-UK Cambridge 9/9/05D.R. Ward Longitudinal shower profile Much better with upstream material 1 GeV e -

18 18Calice-UK Cambridge 9/9/05D.R. Ward MIP distributions

19 19Calice-UK Cambridge 9/9/05D.R. Ward N hits G4 starting to look quite good G3 has 8% too few hits 1 GeV e -

20 20Calice-UK Cambridge 9/9/05D.R. Ward Total energy /MIPS G4 looks quite good G3 is 8% low again 1 GeV e -

21 21Calice-UK Cambridge 9/9/05D.R. Ward 2GeV and 3GeV samples G4 looks quite good in each case G3 is consistently 8% low again 2 GeV 3 GeV

22 22Calice-UK Cambridge 9/9/05D.R. Ward Even-odd plane differences 1 GeV e -

23 23Calice-UK Cambridge 9/9/05D.R. Ward Transverse profile (w.r.t. barycentre) 1 GeV e -

24 24Calice-UK Cambridge 9/9/05D.R. Ward Distance of hit to nearest neighbour? Relevant for clustering? Units – cm in (x,y); layer index in z. 1 GeV e -

25 25Calice-UK Cambridge 9/9/05D.R. Ward Summary Appears necessary to reduce tracking cutoffs in G4 to describe data. Need to understand physics of what is going on here. But G4 almost prohibitively slow under these conditions. Need to look carefully at effects of noise and crosstalk. Further detector effects (e.g. edge effects) to be take into account? Some hints of effects induced by upstream material. Is 15%X 0 too much though? G3 is faster, but can’t easily push tracking cutoffs below 100 keV. Can still learn a lot of useful things about modelling the data using the February run.

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