r&d status of the scintillator-strip based ecal for the ild
DESCRIPTION
R&D status of the Scintillator-strip based ECAL for the ILD. Scintillator strips For active & fine granular sensor. Oct 2014 @ LCWS14 Belgrade Satoru Uozumi (KNU) For the CALICE collaboration. Contents. Introduction of the Scintillator-strip ECAL ( ScECAL ) Principle & structure - PowerPoint PPT PresentationTRANSCRIPT
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R&D status of the Scintillator-strip based ECAL for the ILDOct 2014 @ LCWS14 Belgrade
Satoru Uozumi (KNU)For the CALICE collaboration
Scintillator stripsFor active & fine granular sensor
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Contents• Introduction of the Scintillator-strip ECAL (ScECAL)– Principle & structure– Physical & Technological prototypes
• Improvements ongoing– Hardware … optimization of scintillator shape and optical signal readout– Software … hit strip →cluster reconstruction
Evaluation of Jet Energy Resolution (JER)
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Introduction : Why ScECAL?• First requirement : high granularity to improve jet energy
resolution• Second requirement : chop the calorimeters as small as possible
☆ Need 5 mm x 5 mm effective segmentation→ Strip idea Orthogonally aligned strips with Pixelated Photo Detector (PPD) make “virtual cells”.
~ 107 strips
☆ Low cost.☆ many established technologies ☆ Challenge with new Si-photo sensor ☆ Timing resolution < 1 ns
5 x 45 mmPlastic scintillator
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• Two scintillator layers in an alveolar make a sandwich structure with a tungsten absorber.• Strip directions are orthogonal to each other.
base board
Scintillator layer (x)
W absorber
base boardCu radiator
Scintillator layer (z)
• Mechanical design of the barrel and the endcaps is developed by CALICE ECAL group.
•“Alveolar” frame structure is made with tungsten absorber.
Strip ScECAL in the ILD
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Physics & technological
prototypes
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180x180mm2
x30 layers2160 ch
Physics prototype (BT 2009@FNAL, will be published to NIM)
4510
3
(unit mm)
An array of strips in a layerLED light is distributed to eachchannel by those fibers
9 MPPCs on a cable
Scintillator strip with MPPC and WLS fiber
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Two layers of Technological prototype
3 GeV e-
Tungsten plate in front of ECAL
Ecal behind AHCAL :-)two-layers ECAL two-layers HCAL
one HCAL channel corresponds 6x6 ECAL segmentations
BT@DESY 2013
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Improvements of scintillator
& photo-sensor components
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Granularity 10mm → 5mm … hard step
90SrBaseline design:
- Photon yield (~10p.e.) is OK
- Uniformity is almost OK except very close side of the photo-sensor
Beta-ray scanning system
Any idea to uniformize scitillator-strip response?? → next
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New ideas
dead area,0.9mm
MPPC base board
ScintillatorBaseline design has
Tokyo Group45 mm
1-2 mm
MPPC
sensor
4 mm0.5mm MC
0.25 mm
1x1mm2 0.25x4mm2
Bottom readout with wedge
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Wedge-type readout strip(Otani group@Tokyo)
Many wedge types are tested
Current best solution (by horizontal beta-ray scan)• Better response uniformity than baseline design• High light yield
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Wedge-type readout : implementation
Oct 8th 2014 ~ Testbeam@CERN
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New idea : readout by rectangular PPD & tapered scintillator
Scintillator strip
Sensitive area
PPD
max – min ~ 7% Light strength
• Tapered scintillator and PPD with r ectangul ar PPD is a new idea to absorb response non-uniformity
• Simple MC simulation result shows ~7% of non-uniformity
• Asking Hamamatsu to provide the r ectangular PPD
MC simulation result
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PPD (MPPC) developmentWe were (are) requiring: lower noise rate, cross-talk, afterpulse: high Photon Detection Efficiency: large number of pixelsto Hamamatsu K.K.
Saturation effect is drastically improved!
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Development of Reconstruction
software
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Jet energy resolution @45-250 GeV
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cos(θ_Thrust) < 0.7 (Barrel)RMS90: RMS of 90% of center events
SSA makes JER of strip ECAL close to 5 x 5 mm2 tile ECAL
45 x 5 mm2 ScECAL w SSA
DBD result (SiW ECAL)5 x 5 mm2 tile ScECAL
15 x 15 mm2 tile ScECAL
45 x 5 mm2 ScECAL w/o SSA
Difference is only 0.2-0.25%.
PFA algorithm = PandoraPFA
alternate(45 x 5+10 x 10) mm2
ScECAL w 2 step SSA
Study with more realistic MC simulation is currently underway.
(Kotera @ Shinshu)
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Summary & Plans
• The ScECAL is being established through physics & technological prototypes
• Further improvement of scintillator components & PPDs are actively underway
• At this moment, test beam of the wedge-type scintillator is ongoing!
• Cluster reconstruction study shows reasonable performance with Strip Splitting Algorithim.
• Next Goal : determine the detector design in couple of years.
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Backup
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1600 pix
2500 pix
PPD(MPPC) measured linearity
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Physics prototype 2 - 32 GeV electron (at Fermilab)
Maximum deviation : 1.6±0.7%
data MC
stochasticterm 12.8±0.1±0.4 13.26±0.08
constantterm 1.0±0.1+0.5
-1.0 0.66±0.08
- Linearity and Resolution
difference < 1 σ
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Strip Split Algorithm
Left: position accuracy and precisionError bar (RMS) < 1 mm w/ SSA.
Middle: Energy is recovered correctly w/ SSA.
Right: Jet energy resolution is kept w/ SSA.
Position of 10 GeV photon Energy sum of 2 x 100 GeV jet Energy resln. 100 GeV Jet
5mm W, 1 mm TSc. strip
Sc strip
Energy deposits are redistributed into 5x5 mm2 virtual cells referring hits in the nearest layers.
strips in the nearest layers have orthogonal direction.
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