Detectors for Particle PhysicsD. Pitzl, DESY DESY summer students lectures 5.8.2008 Detectors for...
Transcript of Detectors for Particle PhysicsD. Pitzl, DESY DESY summer students lectures 5.8.2008 Detectors for...
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
Detectors for Particle Physics
Lecture 2:
Drift tubes
Muon detectors
MWPC, CSC, RPC, TRT, TPC, Cherenkov
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Detectors 2.2
Outline● Lecture 1:
▶ Collider detectors▶ Charged particles in a magnetic field▶ Silicon detectors
● Lecture 2:▶ Drift tubes▶ Muon systems▶ MWPCs, CSCs, RPCs, TRTs, TPCs, Cherenkovs
● Lecture 3:▶ Electromagnetic showers and calorimeters▶ Photon detectors▶ Hadronics showers and calorimeters▶ Particle flow technique
● Discussion session:▶ Your questions, please
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
Principle of drift detectors
+ HV
signal
cathode
Anode Wire
Gas-filled tube-
----
+++
++
t0
-
+ ++
++
t1✦ Track ionises gas atoms✦ electrons drift towards anode: vD ✦ Amplify✦ Measure drift time: Δt = t1-t0✦ Reconstruct radius: Δs = vD Δt.✦ vD depends on gas, voltage, pressure, temperature, field: need calibration.
----
Δs
Δs
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Drift velocity
● Drift velocity depends on electric field, pressure, gas, temperature, magnetic field.
● Want stable operation point: just above maximum.
● tradeoff:
▶ slower gas = higher resolution.
▶ faster gas better in a highrate environment.
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
ATLAS drift tubestube wall: 0.4 mm Al
30 mm diameter
wire: 50 µm W-Re at +3300Vendplug
Gas: Ar (91%) CH4 (5%) N2 (4%) at 3 bar
Drift velocity: 30 µm/ns
Distance from time: Resolution [µm]:
R=15 mm
80 µm
Length up to 6 m
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
CMS drift cells
drift velocity calibration: time synchronization:
tmeas = telectr + t.o.f. + tprop + tdrift
Extra electrode for field shaping:more uniform drift.
Left/right ambiguity remains.
time spectrum:
ttrig
vdrift = L / (2 × <Tmax>)
resolution = vdrift × <Tmax>
Tmax distributions:
time pedestal (ttrig)
tmax
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- - -
- - -
- - -
- - -
-
+ +
+ +
+ +
+ +
+ +
+
anode
cathode
Charged particle
Drifting electrons
primary ionization
gas
Signal Induced by a Moving Charge
Choice of Gas 1: ionization and drift
● Drifting electrons should not be trapped:▶ Use noble gas, e.g. Ar.
● Want large primary ionzation yield:▶ Ar gives 25 ions/cm at normal
T, p for a minimm ionizing particle.
● The primary electrons may ionize further atoms:▶ ×3 or ×4 increase.
● Xe and/or higher pressure are even better (and more expensive).
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Detectors 2.8
Signal amplification near the wire
Amplification by 104 possible
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.9
The Avalanche
ion cloud
● Amplification depends on:▶ Anode voltage▶ Wire radius▶ Gas composition▶ Pressure▶ temperature
Receeding ion cloudinduces signal on the wire
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+ +
+ +
+ +
+ +
+ +
+
cathodeElectroncloud
gas
Signal Induced by a Moving Charge
Choice of Gas 2: high gain, stable operation
--- - ---
-
UV
● Want large gain at low voltage:▶ Ar is monoatomic gas▶ No vibrational or rotational modes,
only excitation and ionization.● Excited Ar atoms may emit UV
photons (11.6 eV):▶ UV photons may reach the cathode
and produce photoelectrons.▶ Photoelectrons drift back towards
the wire and may start a new avalanche
▶ Continous discharge!● Need 'quencher' molecules that
absorb UV photons without creating photoelectrons:
▶ CH4, C2H6, CO2, ...
photoelectron
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Signal Induced by a Moving Charge
Choice of Gas 3: prevent ageing
● Impurities in the gas (or in the chamber) may form deposits on the wire and reduce the gain.
● 'Whiskers' lead to HV instabilities.● Prevention:
▶ Build chamber in a clean room.▶ Use clean gas.▶ Add ~1% alcohol, water, or oxygen.
deposits on the wire:
'whiskers':
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
ATLAS Drift Tube ChambersBarrel• 6 drift tube layers, arranged in
2 multilayers glued to a spacer frame• length: 1 – 6 m, width: 1 – 2 m• optical system to monitor chamber deformations
• gas: Ar:CO2 (93:7) to prevent aging, 3 bar
• chamber resolution: 50 µm single tube resolution: 100 µm required wire position accuracy: 20 µm
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.13
Assembly of MDT Chambers (Frascati, IT)
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ATLAS muon spectrometer• Excellent stand-alone capabilities and coverage in open geometry• Complicated geometry and field configuration (large fluctuations in acceptance and performance over full potential coverage (|| < 2.7)
ATLAS
ATLAS muon system
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ATLAS Barrel muon system in the toroid field
Detailed field map needed!
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CMS muon spectrometer• Superior combined momentum resolution in the central region with silicon tracker.• Limited stand-alone resolution and trigger (at very high luminosities) due to multiple scattering in iron• Degraded overall resolution in the forward regions (|| > 2.0) where solenoid bending power becomes insufficient
CMS
CMS muon system
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Pseudo-rapidity
x=center
y=upz=beam
Polar angle Azimuthal angle
p t =px2p y
2
p=p x2 p y
2 pz2
=arctan p y /p x ∈ [− , ]
=arccos p z /p ∈ [0, ]
pseudorapidity: =−ln tan /2
(soft hadron production: dn/d ≈ const. 'central rapidity plateau')
0
±1±2±3±4±5
90o
±40o
±15o
±6o
±2o
±1o
rapidity: y =12
ln E pz
E −pz
y ≈ for p ≫ m
p
0
1
23
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
CMS Muon chambers
iron
cosmic raymuon track
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ATLAS and CMS: muon momentum resolution
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lowpT muons
Requirements for muon identification and reconstruction at low pT
• Identify track stub in first layer of muon system• Check for minimum ionising signals in last layers of hadron calorimeter• Match as precisely as feasible (within limitations due to large MS and energy loss in calorimetry) measured track in inner detector with track stub in muon system
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.21
Multiwire proportional chambers MWPCs
Georges Charpak, CERNNobel prize 1992
field lines:
2 mm wire spacingresolution ~ 0.5 mm
±3 mm.max.drifttimecan be< 50 ns.Fast!
string many anode wires between cathode planes:
signals can be extractedfrom the wire andboth cathode planes.Cathodes can besegmented.
1968
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
CMS Cathode Strip Chambers
wires: 4 ns timingfor the trigger
cathodestrips: 0.1 mmresolution.
6 planes/chamber468 chambers 6000 m2
450k channels
1m
3m
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
ATLAS muon chamber wheel
Ø25m
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.24
RPC Resistive plate chambers
no wires!2 Bakelite plates separatedby a gas gap and 8kV.
gas
a particles causes local dischargewhich induces signals in thereadout strips.
RPCs are fast andstable at high rate.Used as triggerchambers.
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.25
Transition Radiation Relativistic particles passing through an interface radiate.
polypropylene(C3H6)x
ℏP = 20 eV
airℏP = 0.7 eV
≈ 1/
~ N ℏP
Em
= E/m
1% probability per foil
ℏ ≈ 1030 keVfor ≈ 10'000
Xe gas to absorbXray.
depends onparticle!
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DESY summer students lectures 5.8.2008
e/ separation using TRT
ATLASATLAS
pion reduction by factor 75for 90% electron efficiency
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.27
ATLAS Transition Radiation Tracker A
Straw gas mixture : Xe(70%) CO2(27%) O2(3%)
2 mm radius
Radiator foils are placedbetween the straws
built from straw tubes:
0.13 mm resolution
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
First cosmic ray event seen in the Barrel TRT!
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.29
ATLAS inner tracking: silicon and straws
red = tracks foundin the silicon layers.
white = hits in the straw tubes.36 hits/track: good for pattern recognition.
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
Wire chamberswith cathode padsmeasure x,y
- -- - - - -
- --
-
--
++
+
+
++
z = vdrift t
E
B
Separate two regions: Drift along z: 2030 µs/m. Amplify at the end plateNo material inside drift volume!
E∥B: drifting electrons curl around B field lines:limited spread.
Cathodeplane-100kV
Time Projection Chamber in a solenoid field
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.31
ALICE TPC
max. drift time 88 µs.LHC operates with low luminosityat ALICE (pp and PbPb).
readout:
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.32
TPC
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.33
Energy loss of charged particles in matter● Charged particles loose energy in collisions with electrons in matter:
1
dEdx
=−4 N A r e2 me c 2 Z
Az 2
2 [ ln 2 me c 2 2 2
⟨I ⟩ −2−2 ]
BetheBloch:
mediumparticle density
correctionionisationpotential
~1/2
minimum atp/m ≈ 3.5 for all particles
dE/dx
in iron (=7.9 g/cm3):dE/dx = 1.3 GeV/m.
=vc=
cpE
,=E
mc 2 , =cp
mc 2
relativistic rise ~ln()
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dE/dx Data
PEP4 TPC
e
good for particleidentification atlow momenta.
<dE/dx> averaged overmany samplings: ~ N.
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DESY summer students lectures 5.8.2008D. Pitzl, DESY
Cherenkov-Effect:A charged particle moving faster than the speed of light in a medium v > c/nemits Cherenkov radiation.
Emission of a coherent wave front: cosθC = 1/(βn)
Cerenkov Radiation
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.36
LHCb Cerenkov Detector
LHCb
The Cherenkov cone is imaged into a ring at a position-sensitive photon detector.Ring radius -> Cherenkov angle-> particle velocity.Together with momentum measurement: determine particle mass.Good for π – K- p separation.
aerogeln=1.03
n=1.0014
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Hybrid photon detector HPD
● A Cherenkov photon reaches the multialkalicoated quartz window of an HPD.
● A photoelectron is released, and is accelerated toward the silicon array by a 20kV potential.
● The photoelectron creates around 5,000 electronhole pairs in the silicon.
● The silicon array has 1024 pixels for position measurement.
● Readout is by a bumpbonded amplifier and discriminator chip.
8192Vacuum
Electrode
Photoelectrons
Solderbump bonds
Ceramic Carrier
Binaryelectronicschip
Photon
Photocathode (S20)at -20kV
Si Sensor8192 pixels
QuartzWindow
Ø10 cm
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DESY summer students lectures 5.8.2008D. Pitzl, DESY Detectors 2.38
Summary
CMS
● Drift detectors● muons systems● MWPC, CSC, RPC● transition radiation● TPCs● BetheBloch dE/dx● Cherenkov and HPDs