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A preliminary analysis of the CALICE test beam data Dhiman Chakraborty, NIU for the CALICE Collaboration LCWS07, Hamburg, Germany May 29 - June 3, 2007.

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Presentation on theme: "A preliminary analysis of the CALICE test beam data Dhiman Chakraborty, NIU for the CALICE Collaboration LCWS07, Hamburg, Germany May 29 - June 3, 2007."— Presentation transcript:

1 A preliminary analysis of the CALICE test beam data Dhiman Chakraborty, NIU for the CALICE Collaboration LCWS07, Hamburg, Germany May 29 - June 3, 2007

2 2CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Talk outline ● Test beam apparatus ● Data analysis – Overview – Hit selection, background rejection – Correlations among and combination of ECal, HCal, & TCMT energies. ● Results – Linearity – Energy resolution ● Summary

3 3CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Layout of beam test area during 10/06 run

4 4CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 The CALICE ECal prototype Czech Rep., France, Korea, UK Design: 30 Si-W layers x 9 wafers x 6x6 1cm x 1cm cells. Three modules, each with different W thicknesses: layers 1-10 - 1.4mm layers 11-20 - 2.8mm layers 21-30 - 4.2mm Oct/2006 run: all 30 layers are partially instrumented (6 out of 9 wafers / layer). Total of 30 x 6 x 36 = 6480 channels.

5 5CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 The CALICE HCal prototype Czech Rep., France, Germany, Russia, UK, USA Design: 38 scintillator-steel layers, with SiPM readout. Layering: 0.5cm active / 2.0cm steel. Three granularity regions per layer: 3x3, 6x6 and 12x12 cm 2 Oct/2006 run: 23/38 layers in place: Layers 1-17 – all instrumented Layers 19-29 – every other layer instrumented 23 layers x 216 channels / layer = 4968 channels HCAL TCMT beam

6 6CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 HCal and TCMT segmentation

7 7CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 The CALICE TCMT prototype Designed and built at NICADD/NIU, in partnership with DESY, and with engineering help from Fermilab. Design: 16 Scint-steel layers with alternate x,y orientations, with SiPM-readout scintillator strips. Each strip is 100 x 5 x 0.5 cm 3 Layers 1-8: ~2cm absorber Layers 9-16: ~10cm absorber 16 layers x 20 strips = 320 channels Oct/2006 run: All 16 layers fully instrumented, according to design. HCAL TCMT beam

8 8CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 A typical muon event

9 Example pion event display HCAL TCMT 40GeV/c pion, with CALICE online analysis software Late shower in HCAL TCMT clearly needed to contain shower

10 10CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Analysis overview ● Data collected with pion beams at 6-80 GeV. This analysis focuses on 10- 20 GeV. ● Official CALICE software packages and conditions database used for pedestal subtraction, calibration, and zero-suppression. ● Processing of ECal hits is done by a single processor. ● Processing of AHCal hits is modularized into several processors. ● TCMT hit processing is modelled after AHCal. – Pedestal is stable within 1%, MIP within 1.5%. ● Difference at low end of AHCal response between MC and data is thought be due to inadequate modeling of photosensor noise and cross-talk. ● Hit selection requirement: Ehit > 0.5 Emip.and. Ehit > 2  pedestal

11 11CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Pedestal stability in the TCMT 10 GeV pions

12 12CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 MIP calibration and response stability of the TCMT muons extracted from 10 GeV pion runs

13 13CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Combination of ECal, HCal, & TCMT energies ● Analog as well as semi-digital measurements tried. ● Semi-digital = weighted hit counting in 4 energy bins (i.e. 2 bits) ● 7 regions defined, each with its own sampling weight = the subdetector's inter-component factor times intra-component thickness.

14 14CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Combining ECal & HCal: analog approach (A) 20 GeV pions

15 15CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Adding TCMT to ECal & HCal : analog approach 20 GeV pions

16 16CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Semi-digital approach (D): weighted (2- bit) hit-counting in ECal, HCal, and TCMT – Four energy bins used, each with its own weight: – Same for all 3 detectors. – The thresholds and weights have not been fine-tuned. Optimal combinations are quite possibly multiple and/or broad.

17 17CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Semi-digital approach (D) 20 GeV pions

18 18CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Comparison between data (L) and MC (R) 20 GeV pions A D MC = Mokka v06-03-p01, with LHEP physics list & TBCern1006_01 eometry

19 19CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Reconstruction at different energies and comparison with MC 10, 15, 20 GeV pions A D data, MC

20 20CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Linearity and energy resolution ratios (preliminary) ● Chisquare-based method for finding sampling factors. ● Only 23 out of 38 HCal layers were instrumented. ● Semi-digital measurement gives better resolution in a quick-and-crude attempt, but... ●... there is room for improvement in both analog and digital measurements.

21 21CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Summary ● Preliminary results are most promising. – Excellent agreement in the limited comparisons with MC done so far. – Still more data to come (Jul/Aug '07 @ CERN, late 2007 @ MTBF/FNAL). ● SiPM readout for high-granularity scintillator -based hadron calorimetry is successful. ● TCMT clearly improves energy resolution. ● Semi-digital calorimetry yields good resolution for single hadrons around 10- 20 GeV. ● More detailed analysis, incl. shower shape and better weight-tuning coming soon. – The prototype's high granularity allows a detailed study of shower shapes: validation of hadronic shower simulation models. – evaluation (and developments) of clustering and particle flow algorithms in future, high-granularity calorimeters.

22 22CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Back-up slides

23 23CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Layout of beam test area during 08/06 run

24 24CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Layout of beam test area during 10/06 run

25 25CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 Calibration of a TCMT strip

26 26CALICE TB analysis - D. Chakraborty, NIU LCWS07, Hamburg May 29 - June 3, 2007 AHCAL response: data-MC comparison

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