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Konstantinos NikolopoulosUniversity of Athens / BNL
ATLAS Cathode Strip ChambersInstallation and Commissioning
XXVI Workshop on Recent Developments in High Energy Physics and Cosmology
Ancient Olympia, 16-19 April 2008
©CERN
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 2
ATLAS
CMS
LHC
The ATLAS detector at LHC
Current LHC Plan : 1st June beam-pipe close and bake-out, 1st injection ~mid-June, 1st collisions
~end of summer, pilot physics run (10 TeV and 1.1x1032cm-2s-1) looks possible for 2008.
Muon Spectrometer
Air-core toroid, Precision drift and Trigger chambers
PT resolution:~10% at PT = 1 TeV (standalone)
~2.3% at PT = 50 GeV (combined)
Hadron Calorimetry
Fe/Sci + Cu/LAr
/E~60%/E 3%
E/M Calorimetry
Pb/LAr
/E~10%/E
Inner Detector
2 T solenoid
Si (Pixels + Strips)
Transition
Radiation Tracker
ALICE
LHCb
©CERN
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 3
SM Higgs → ZZ(*) → 4μ Acceptance
Building a high-precision spectrometer
is not enough. Good pseudorapidity (η)
coverage also important!
By extending the coverage from |η|
<2 to |η|<2.7 the acceptance for a
150 GeV SM Higgs decaying to
four muons increases by ~60%
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 4
Challenges in the high η coverageBesides muons from pp interactions, increased
occupancy in the Muon Spectrometer due toPrimary Background (e.g π/Κ decay in flight,
punch through hadrons) and Radiation Background (mainly n/γ ~1 MeV)
The Radiation Background is more severe for the forward region and especially for the Inner Station
(>200 Hz/cm2).
The CSCs are Multi-Wire Proportional Chambers with a symmetric cell:
1. High rate capability.
2. High single layer spatial accuracy.
3. Good two-track separation (~40% of read-out pitch).
4. Insensitive to moderate gain variations.
5. Short electron drift time (max ~ 45ns) and good timing resolution (~3.5ns)
6. Low sensitivity to neutrals → εn<10-4, εγ~1%
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 5
Principle of Operation
Spatial accuracy in the precision coordinate is in the 60 – 80 μm range, by measuring the
induced charge on the segmented cathode by the avalanche formed in the anode wire.
(Charge Interpolation)
Relative measurement → important to know the cathode strips’ relative response.
(Electronics Calibration)
η = 2
CSCs are present in 27% of the Muon Spectrometer’s pseudorapidity coverageη = 2.7
30720 channels in total →
80% in precision coordinate
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 6
Pulse Shaping / Signal Reconstruction
66.11;12;)(
,1
1)(
)(
21
2max
1
nnwidth
tttz
ezn
z
zf
Ampzf
samplingstart
zn
Only four samples of the bipolar waveform (20 MHz), mainly in its first
half, available to reconstruct the signal.
Bipolar signal shaping with relatively short peaking time (75ns) selected
crude approach → parabola around the peak
better approach → fit bipolar pulse using all samples
Parabola
Bipolar
in progress
Pulser input
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 7
Noise CorrelationThe electronic noise of the four samples is not totally independent
→ one amplifier shaper for whole pulse.Correlation pattern explained by bipolar shaping and peaking time.
Covariance
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 8
Cosmic data studies
relative layer rotation
cluster charge effect on resolution
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 9
Channel-to-Channel Cross-talk
Cross-talk appears in the pre-amplifiers due to parasitic capacitance
→ this affects several channels around the one with the main pulse
Effect of cross-talk ~0.4% of main pulse amplitude, opposite polarity and
higher frequency
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 10
Calibration/Electronics Linearity
Equalization of strips’ response using calibration
pulser (one for each layer) which provide 64
different pulse heights.
The relative amplitudes of the different calibration
levels, are understood at the 0.3% level.
The calibration system cannot cover the lower
part of the dynamic range
→ linearity of electronics is important
Found deviations consistent with pulser
understanding and well below the noise.
the electronics are linear
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 11
Cathode Strip Chamber Installation
The Cathode Strip Chambers are mounted on the Small Wheels,
which are 10 m in height nevertheless!
Contrary to ATLAS practice,
the Small Wheels were
fully assembled and
commissioned on the
surface
©CERN
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 12
Noise Levels are at the nominal valuesLarge-Small Chamber Periodicity observedStructure within sectors also as expected
Noise Performance
Most Probable muon signal ~350 ADC counts
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 13
Calibration Pulser Runs
Pulser runs used to test in detail the response of the precision strips to different pulse amplitudes and verify that the calibration system is fully operational.
Only two sample distributions presented here.
Bipolar Pulse Peaking Time Width of Bipolar Pulse
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 14
Cosmic RunsStrip response, HV connection and stability, gas and water circulation and the overall chamber condition.
UnfortunatelyCSC’s preferred direction not favored by the setup + Trigger on cosmic ray induced particle showers
(efficiency ~10%)= Low Rate + Low Data Quality
SW – A : 10 days of cosmic runs. 24 h runs per sector pair.SW – C : 6 days of cosmic runs. Few hours of data taking per sector pair.
Trigger ScintillatorsThe chambers were found to be in good shape!
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 15
Hit Distribution : Precision Strips
All layers have approximately the same number of hits, as expected
Layer average
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 16
Lowering the Small Wheels to the cavern
Small Wheel Side-C lowered in the cavern on 15th of February.
Small Wheel Side-A lowered in the cavern on 29th of February.
The last A
TLAS pieces
lowere
d in th
e cavern.
©CERN
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 17
CSCs at the ATLAS cavern
Noise ratio with respect to surface tests.
Work in progress!
Small Wheels currently at the “Open” position,
7m of additional unshielded cable present
→ Not present during ATLAS data taking.
Almost all services connected. Noise studies on-going. High Voltage tests to follow
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 18
Cooling system stability
Due to high heat dissipation
(~280W/chamber) cooling is needed
→ three water loops/chamber.
Final leak-less cooling system functional for
several weeks, without any problems.
One sector switched off
Controlled shut-down of two sectors
ΔPedestal/ΔΤ ~-0.03 ADC/°C
No cooling No cooling Cooling
SW-C
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 19
Summary
Detector/electronics level performance
studies performed using final CSC
electronics and data acquisition
In parallel
pre-commissioning of CSCs at the laboratory (Jul–Nov)
installation/commissioning on Small Wheels (Sep–Jan).
CSCs lowered at the cavern end of February
→ almost all services connected.
Noise studies to understand new grounding configuration
/ interferences on-going.
Preliminary results encouraging
Looking forward to pp interactions!
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 20
Additional S
lides
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 21
Muon Spectrometry in ATLAS
The ATLAS Muon Spectrometer is designed to perform precise muon reconstruction up to PT =1 TeV.
In order to achieve this goal, high spatial accuracy in the bending plane is required.
This is implemented in a cost-effective way with the usage of Drift Chambers in most
of Muon Spectrometer’s coverage.Oct 2005
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 22
Signal Reconstruction / Timing
Totally 30720 channels in the CSCs → 80% in precision coordinate
Implemented in the ATLAS softwareBipolar fit has been implemented in the ATLAS software
(currently under validation), taking into account reconstruction time issues → Don’t waste reconstruction time
Data decoding only
Bipolar Fit + Data decoding
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 23
X-Y strip charge correlation in cosmics
Line FitQy = 0.51 + 0.979*Qx
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 24
ASM-I ASM-II
CSC On-Chamber Electronics
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 25
CSC Commissioning
Data taking and testing for SW-C finished end of November 2007, for SW-A just before CERN’s annual closure.
The cathode strip chamber operation exhibits several levels of organization. Each one of them should be tested :1) Chamber Level : LV, Gas, Water, Calibration Pulser2) Layer Level : HV, Calibration Pulser3) Groups of 24 channels4) Groups of 12 channels5) Single channel level : Disconnected or noisy channels
Too complicated to intervene now, will have to live with them!
The CSC chambers have been tested several times. The latest one was Jul – Nov at the laboratory (blg. 184), both using the calibration pulser and cosmic rays.
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 26
Hit Distribution : Transverse Strips
K. Nikolopoulos (University of Athens/BNL) – ATLAS Cathode Strip Chambers – HEP 2008 – April 17th, 2008 27
Induced Charge Distribution