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MAPS ECAL
SiD Workshop
RAL 14-16 Apr 2008
Nigel Watson
Birmingham University
 Overview
 Testing
 Summary
For the CALICE MAPS group
J.P.Crooks, M.M.Stanitzki, K.D.Stefanov, R.Turchetta, M.Tyndel, E.G.Villani
(STFC-RAL)
J.A.Ballin, P.D.Dauncey, A.-M.Magnan, M.Noy (Imperial)
Y.Mikami, T.Martin, O.D.Miller, V.Rajovic, NKW, J.A.Wilson (Birmingham)
MAPS ECAL: basic concept
Weighted no. pixels/event
• Swap ~0.5x0.5 cm2 Si pads with small pixels
• “Small” := at most one particle/pixel
• 1-bit ADC/pixel, i.e. Digital ECAL
• How small?
• EM shower core density at
500GeV is ~100/mm2
• Pixels must be<100100mm2
• Our baseline is 5050mm2
• Gives ~1012 pixels for ECAL –
“Tera-pixel APS”
SiD Workshop, RAL, 15-Apr-2008
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Effect of pixel size
50mm
100mm
>1 particle/
pixel
Incoming photon energy (GeV)
Nigel Watson / Birmingham
TPAC1 overview
Logic/SRAM columns
 8.2 million transistors
 28224 pixels; 50 mm; 4 variants
Region
 Sensitive area 79.4mm2
 Four columns of logic+SRAM




Logic columns serve 42 pixel “region”
Hit locations & (13 bit) timestamps
Local SRAM
11% deadspace for readout/logic
 Data readout




Slow (<5 MHz) – train buffer
Current sense amplifiers
Column multiplex
30 bit parallel data output
SiD Workshop, RAL, 15-Apr-2008
“Group”
(region=7 groups of 6 pixels)
3
Nigel Watson / Birmingham
TPAC1 overview
Logic/SRAM columns
 8.2 million transistors
 28224 pixels; 50 mm; 4 variants
Region
 Sensitive area 79.4mm2
 Four columns of logic+SRAM




Logic columns serve 42 pixel “region”
Hit locations & (13 bit) timestamps
Local SRAM
11% deadspace for readout/logic
 Data readout




Slow (<5 MHz) – train buffer
Current sense amplifiers
Column multiplex
30 bit parallel data output
SiD Workshop, RAL, 15-Apr-2008
“Group”
(region=7 groups of 6 pixels)
4
Nigel Watson / Birmingham
Beam background
 Beam-beam interaction by
GUINEAPIG
 LDC01sc (Mokka)
purple = innermost endcap radius
500 ns reset time  ~ 2‰ inactive pixels
 2 machine scenarios :
 500 GeV baseline,
 1 TeV high luminosity
y (mm)
Repeat in SiD01,
verify optimisation
1TeV high lumi
ECAL endcap hits
[O.Miller]
X (mm)
SiD Workshop, RAL, 15-Apr-2008
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Nigel Watson / Birmingham
Progress with sensor tests
 Work ongoing to test unformity of threshold and gain
 Report today on testbeam
SiD Workshop, RAL, 15-Apr-2008
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Nigel Watson / Birmingham
MAPS testbeam
 Desy 10-17 Dec. 2007 (or + 9 months)
 Extremely tight schedule…
 4 sensors, PMT pair
 3, 6 GeV e With/without W pre-shower material
 Threshold scans
 Design allows to cope with pixel-to-pixel
variations
 Foreseen to calibrate channel-bychannel (no built in calibn.)
 As we had
 Moderate pixel-pixel variations
 Insufficient time before beam test
 Forced to set high threshold to keep
noise/rate acceptable for reliable operation
 Ran without problems for whole run
 Will not quote efficiency today
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USB_DAQ crate
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Experimental area
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PMT trigger
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Sensor setup in testbeam
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Concentrate on shapers
Concentrate on a single pixel variant
“Like-with-like” comparison
Two overlapping layers
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Clustering
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Timestamp within train
Sensor #2
Sensor #8
Timestamp (of 8k)
Timestamp (of 8k)
 Basic data validity check
 Clusters uniform in timestamp within train
 Indicates buffers not saturating
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Layer-layer correlations: x
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Layer-layer correlations: y
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Layer-layer alignment
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Summary
 MAPS ECAL: alternative to baseline design (analogue SiW)
 Multi-vendors, cost/performance gains




New INMAPS deep p-well process (optimise charge collection)
Four architectures for sensor on first chips
Tests of sensor performance ongoing
Physics benchmark studies to evaluate performance relative to
standard analogue Si-W designs for SiD (also ILD)
Future plans
 Recognised as “generic” sensor technology with “generic”
applications
 Much interest to continue development of concept for ECAL
 Including for SiD
 Systematic studies of pixel to pixel gain and threshold variations
 Absolute gain calibration
 Second sensor…
SiD Workshop, RAL, 15-Apr-2008
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Backup/spares
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CALICE INMAPS TPAC1
First round, four architectures/chip
(common comparator+readout logic)
0.18mm feature size
INMAPS process: deep p-well
implant 1 μm thick under electronics
n-well, improves charge collection
4 diodes
Ø 1.8 mm
Architecture-specific
analogue circuitry
SiD Workshop, RAL, 15-Apr-2008
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