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A new generation of gaseous tracking and
imaging detectors
Harry van der GraafNikhef, Amsterdam
on behalf of theGridPix/Gossip group
Brookhaven BNL: Oct 27 2008MIT-LNS: Oct 28
Stanford SLAC: Oct 29Berkeley LBL: Oct 30
Fermilab: Oct 31
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Some history on gaseous detectors
Geiger Tube 1908! 100 years ago!
Geiger-Muller tube: 1928Proportional tube 1945
Spark Chambers
Multi Wire Proportional Chamber 1968 Charpak & SauliDrift Chambers, TPCs
ScintillatorsPhotographic emulsion
100 years agoHans Geiger operated first gaseousdetector in Manchester, UK, 1908
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Bad granularity: - occupancy problem- bad spatial resolution 1980: Si Detectors!
nice narrow strips, small pixels
Essentials: - creation of electron-ion pairs by radiation, therefore- free drifting electrons- in strong (1/R) field near wire: gas amplification: avalanches
But: - wires can’t be fixed closer than 1 mm pitch- ’integrate’ in direction along wire
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Micro Strip Gas Counter
Wire chambers: granularity ~ 1 mmMSGCs: granularity 200 μm
Invented by A. Oed, 1988
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Micro Strip Gas Counters: hard to operate:
- discharges, ruining electrodes- ageing
! Very strong electric field in insulator’s volume & surface !
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Not often applied:
…sparks……!
F.Hartjes, MSGC damage
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Let us eliminate wires: wireless wire chambers
1996: F. Sauli: Gas Electron Multiplier (GEM)
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Micro Patterned Gaseous Detectors
• High field created by Gas Gain Grids
• Most popular: GEM & Micromegas
Ideally: each grid hole red out by a pad
Pad size ~ hole pitch !VLSI pixel readout chip
GEM
Micromegas
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The MediPix2 pixel CMOS chip
256 x 256 pixelspixel: 55 x 55 μm2
per pixel: - preamp- shaper- 2 discr.- Thresh. DAQ- 14 bit counter
- enable counting- stop counting- readout image frame- reset
We apply the ‘naked’ MediPix2 chipwithout X-ray convertor!
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April 2004 Micromegas + MediPix 2 NIKHEF/Saclay/Univ. Twente:
MediPix2 pixel sensorBrass spacer blockPrinted circuit boardAluminum base plate
Micromegas
Cathode (drift) plane
55Fe
Baseplate
Drift space: 15 mm
MIPs
No source, 1sNo source, 1s5555Fe, 1sFe, 1s
He/Isobutane80/20Modified MediPix
δ-ray!14 mm
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Digital Bubble Chamber-like picture Gallery
14 mm
2 cm2
• Particles:
Cosmics
• Gas Mixture
He iC4H10 80/20
• No trigger
Time & luck
δ-ray?
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Wafer post-processing:InGrid
InGrid: an Integrated Grid on Si (wafers or chips)
• perfect alignment of grid holes and pixel pads• small pillars Ø, hidden pillars, full pixel area coverage• Sub-micron precision: homogeneity• Monolithic readout device: integrated electron amplifier
Grids
Silicon wafer
HV biasing
Hex / Pillars
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Full post-processing of a TimePix• Timepix chip + SiProt + Ingrid:
“Uniform”
MESA+
IMT Neuchatel
Charge mode
14 mm
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A “scratch” occurred during the construction of Ingrid;
Loose parts removed. Ingrid working!
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setup
Next-1,2
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A “long” cosmic track
Timepix +
20 μm thick Siprot
+
Ingrid
Drifttime (bin = 10 ns)
Stable operation in He iC4H10
10 mm
cathode @ - 1500 V 14 mm
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Cosmic rays in Argon
Time mode
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Gas On Slimmed SIlicon Pixels
Gossip: replacement of Si tracker
Essential: thin gas layer (1.2 mm)
1.2 mm
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GOSSIP-Brico: PSI-46 (CMS Pixel FE chip)First prototype of GOSSIP on a PSI46 is working:
• 1.2 mm drift gap• Grid signal used as trigger• 30 µm layer of SiProt
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Animated GIF of 100 hits on the PSI46 brico, 30µm SiProt.(if this does not animate, drop the picture into a web browser)
8m
m
7.8mm
We can see tracks!(Frame # 17 is really great)
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Gas instead of SiPro:- no radiation damage in sensor: gas is exchanged- modest pixel (analog) input circuitry: low power, little space- no bias current: simple input circuit- low detector material budget: 0.06 % radiation length/layer
typical: Si foil. New mechanical concepts- low power dissipation : little FE power (2 μW/pixel); no bias dissipation- operates at room temperature (but other temperatures are OK)- less sensitive for neutron and X-ray background- 3D track info per layer if drift time is measured- gas is cheap (and very cheap wrt. Si sensors!), and light
Con:- Gaseous chamber: discharges (sparks): destroy CMOS chip- gas-filled proportional chamber: ‘chamber ageing’- Needs gas flow- Parallax error: 1 ns drift time measurement may be required- diffusion of (drifting) electrons in gas limit spatial resolution
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Un-coated anode
Coated anode
SiProt: a low T deposited hydrogenated amorphous silicon (aSi:H) layer
Up to 50 μm thick films, ~1011 Ω.cm
SiProt protection against:
• hot spark plasma• Too large charge in pixel circuitry [principle of RPCs]
• local reduction of E-field: quenching• widening discharge funnel: signal dilution• increased distance of ‘influention’
3 µm
pixel chip
high-resistivity layer-
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Final assessment: spark-proofness
• Provoke discharges by introducing small amount of Thorium in the Ar gas– Thorium decays to Radon 222 which emits 2 alphas of 6.3 & 6.8 MeV– Depose on average 2.5.105 & 2.7.105 e- in Ar/iC4H10 80/20
at -420 V on the grid, likely to trigger discharges
Since 1 week, some 5.104 alpha events recordedin 1% of which …
Charge mode
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Qmax ~ 1 – 2 fC
Chip may die if Qmax > 10 fC
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… discharges are observed !
For the 1st time: image of discharges are being recorded
Round-shaped pattern of some 100 overflow pixels
Perturbations in the concerned column pixels– Threshold– Power
Chip keeps working
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Discharge signals on grid directly measured on scope
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proportional signalsfrom alfas discharges
- CMOS chips are no longer destroyed
- discharges in gas proportional chambers are hard to exclude
- SiProt makes chips spark proof
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July 2008: protection layer made of Si3N4 (Silicon Nitride), only 7 µm thick
3 SiH4 + 4 NH3 Si3N4 + 12 H2
Silicon Nitride is often applied as passivation layer:top finish of chips.
With overdose of SiH4:conductivity: high resistively bulk material
Favoured material for bearings in turbo chargers, jet engines
The application of SiNProt and InGrid on CMOS chip is likelyto become a standard, low cost procedure by industry[compare bump-bonding of Si sensors & processing Si sensors]
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Bulk high-resistivity materials
hydregenated amorphous silicon
Si rich silicon nitride (Si3N4)
Now under study: to constructInGrid out of Si3N4
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Ageing
Radiation damage of CMOS pixel chip is relevant- common for all tracking detectors- believed to widthstand ATLAS Upgrade Dose in 90 nm technology
Radiation damage of sensor: not relevant for Gossip sensor since this is gas being exchanged
Typical for gaseous detectors: the deposit of an (insulating) polymeron the electrodes of a detector. Decrease of signal amplitude
Little ageing expected:- little primary ionisation (~ 10 e-/track)- low gas gain (500 – 1000)- large anode surface (compare pixel anode plane with surface of thin wire)- E-field at flat anode ~3 lower than E-field at anode wire
1 chamber ageing2 material damage3 CMOS chip damage
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Obtained so far for GEM and Micromegas
Gossip 23Nov 28Ar/iC4H10 70/30Particle flux: 1.6 GHz
Gossip ageing using mips from 90Sr source
Time (days)0 5 10 15 20 25
I ce
ntr
e (
nA
)
0
50
100
150
200
G = 1000 G = 1000
Fluence (mips/cm2)
0 1e+15 2e+15 3e+15
C/cm20 2 4 6 8 10 12
switch fromVgrid = -635 to -640 V
MicromegasMicromegas(Nikhef measurement)(Nikhef measurement)
GEMGEM
M. Alfonsi et al, M. Alfonsi et al, Nucl. Instr. and Meth. A518(2004)106Nucl. Instr. and Meth. A518(2004)106
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Micromegas ageing
32
0,0
0,1
0,2
0,3
0,4
0,5
0,6
0,7
0,8
0,9
1,0
13/04/07 14/04/07 15/04/07 16/04/07 17/04/07 18/04/07 19/04/07 20/04/07 21/04/07 22/04/07 23/04/07 24/04/07
Nor
mal
ized
uni
t
Time (d)
- Mesh current- Mesh current
Ar/CF4/Iso (95:3:2)16,1 C / cm² ~ 20 LHC yearsDavid Attié, MPGD workshop CERN Sept. 2007David Attié, MPGD workshop CERN Sept. 2007
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Loss of gain: rapid • Rapid ageing is generally caused by the
formation of a polymer on the anode
surface
• Catalysed by pollutants
– mC/cm range for wires/strips
– May be removed by etchants
• CF4, O2, H2O
• Possible polymer reaction
– C2H4 → 2CH2:
– CH2: extremely reactive radical, can
easily build polymer chains
– Studied by plasma physicists
Gossip ageing using mips from 90Sr source
Time (days)0.0 0.1 0.2 0.3 0.4 0.5 0.6
I cen
tre (
nA
)
0
50
100
150
200
G = 1000G = 1000
Fluence (mips/cm2)
0 2e+13 4e+13 6e+13 8e+13
Charge (C/cm2)0.00 0.05 0.10 0.15 0.20 0.25
Ar/iC4H10
DME/CO2
Preliminary
Gossip 25June 4, 2008DME/CO2 59/41Particle flux: 2.206 GHz
The most reactive fragment The most reactive fragment is assumed to be CHis assumed to be CH22::
Nikhef measurementNikhef measurement
0.3 C/cm2
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Example of rapid ageing: MSGC
• Gas: DME/CO2 60/40• Low dose applied (0.5 mC/cm)
• Result: anode strip covered by a thick transparent wax-like layer– (Scratch made on purpose for
better visibility)• => big decrease in gas gain
Irra
diat
ed (
0.5
mC
/cm
)
Non
-irr
adia
ted
100
µm
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Field geometry of most common gaseous detectors
Micromegas: homogeneous amplification field across 50 µm
Y. Giomataris et al, Nucl. Instr. and Meth. A376(1996)239 Y. Giomataris et al, Nucl. Instr. and Meth. A376(1996)239 F. Sauli, Nucl. Instr. and Methods A386(1997)531F. Sauli, Nucl. Instr. and Methods A386(1997)531
GEM: amplification field across ~ 25 µm (high at the edges of the hole)
Anode NOT close to avalanche
Wire chamber: 1/R amplification field
MSGC: dipole amplification fieldVery high field at
cathode edge
ANODE STRIPANODE STRIP
CATHODE STRIPSCATHODE STRIPSA.Oed, Nucl. Instr. and Meth. A263(1988)351 A.Oed, Nucl. Instr. and Meth. A263(1988)351
50 µ
m
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Dependence on detector technology• Polymerisation will be mainly at the end of the
avalanche where the electron density is highest
– A few µm away from the anode– Exception: GEM
• Key issue– What is the field at the anode surface?– High field => high avalanche temperature– => more dissociation organic molecules– => more sensitive to ageing
• How big is the anode surface near avalanche?– MSGC: very small (edge of anode strip)– Wire chamber: quite small– Micromegas: large– GEM: avalanche not in vicinity of anode
• => GEM and Micromegas less vulnerable for ageing
Field strength (E) along the central drift path (X) to the anodefor three different electrode geometries
X (m)
0 20 40 60 80 100
E(k
V/m
m)
0
10
20
30
40
Wire chamber
MSGC
Micromegas/InGrid
MSGC ageing:In the µC/cm range
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Linear fitI = I0 + a.ta = -0.5932=> a/I2 = 0.0183
av current = 5.9 A=> total charge deposited = 5.9*3600*24*4 = 2.55 Csurface 0.49 cm2
=> 5.2 C/cm2
assume: drift distance 1 mm Ar/CH4 having 9e-/mm=> 1 mip = 9*1000*1.6*10-19
= 1.44 10-15Cdeposited charge corresponds to3.6 1015 mips/cm2
X ray irradiation at PANalytical (detail)
Time
14-M
ay-0
5
16-M
ay-0
5
18-M
ay-0
5
I cath
(A
)
0
2
4
6
8
Icath
1/x fit
3.6x1015 mips/cm2@ gain = 1000
gas: standard Ar/Methane 90/10. Deposit containing C found on anode
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Irradiation with 8 keV X-rays:
No rate effects up to anode current density of 0.2 μA / mm2
very fast track counting possible!
After 0.3 Coulomb/mm2:
(eq. 3.7 x 1016 MIPs/cm2 !!)
deposit of carbon polymer on anode is clearly visible. Micromegas is clean (!?)Little deposit on cathode, and……Chamber still worked!
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set up ageing test
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Gossip 23Nov 28Ar/iC4H10 70/30
Particle flux: 1.6 GHz
Gossip ageing using mips from 90Sr source
Time (days)
0 5 10 15 20 25
I cent
re (
nA)
0
50
100
150
200
G = 1000 G = 1000
Fluence (mips/cm2)
0 1e+15 2e+15 3e+15
switch fromVgrid = -635 to -640 V
little ageing in Argon/IsobutaneBut: HV breakdown after 3 x 1015 MIPs
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Interesting example of wire chamber ageing:Production of LHCB straw tracker
• Tracker from boxes filled with straws (Ar/CO2 70/30)
• Uniformity of response automatically scanned with a 90Sr source across the full surface• Radhard test during production
– Scan– Single point irradiation with a 2 mCi 90Sr source (20 h)
• accumulated charge 2.8 mC/cm (peak value)– Verification scan
Ref:, Ageing in the LHCb Outer TrackerNiels Tuning (Nikhef)IEEE NSS (N48-3) Nov. 1, 2007
Irradiation profile across the straws
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Result • At accumulated charge 2.8 mC/cm (peak value)
Strong unexpected ageing effect No ageing downstream
• At prototype tests no ageing observed– Until 3 C/cm
Gas flow
2nd scan /1st scan
Accumulated 3 C/cm in 120 days
No effects seen
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Up to now not a single compound is known to cause ageing
New approach: a non-ageing, but ageing-sensitive set up:
(heated) containerfor suspect matterial
+ UV light source
Is radiation creating radicals?Is SiH4 an ageing causing compound?Is SiO2 causing ageing?Any hydro-carbon with Si replacing C?
Is this magic or science?
high prim. current
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55Fe quanta conversions seen by GridPix‘The digital TPC’
After large drift distance, primary e- separate and can be counted
Gas mixture: Ar/iso 95/5
InGrid
55Fe X-ray E0
5.9 and 6.5 keV
Photo-e-
TimePix chip
Auger-e-
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55Fe quanta conversions seen by GridPix
Raw spectrum
Escape peak (only photo-e)
Photo-peak (photo-e and
Auger-e)2 conversions
3 conversions
Look at the escape peak only (smallest number of primary electrons)
55Fe X-ray E0
5.9 and 6.5 keV
Photo-e-
TimePix chip
Auger-e-
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Measurements of W and F
What is measured is the mean and variance of the number of detected electrons (Nd, Vd)
Correction for limited collection and detection efficiencies yield Np and Vp
W = E0 / Np
F = Vp / Np
Collection and detection eff. should be known
Np , Vp
Nc , Vc
Nd , Vd
55Fe X-ray E0
5.9 and 6.5 keV
Photo-e-
TimePix chip
Auger-e-
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Detection efficiency
pixel threshold
κ = ∫t∞ p(g).dg
Exponential fluctuations:κ(g) = exp (-t/<g>)
Polya-like fluctuations:parameter m=1/b ~ 2with √b the relative rmsκ(2,g) = (1+2.t/<g>) . exp(-2.t/<g>)
Detection efficiency will be determined by fitting κ(g) to (Nd,Vgrid) data points
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Detectors
Chamber geometry: 10 cm field cage Guard electrode surrounding the chip (inside chamber)
Two measurement periods
Timepix chip # 1:Standard InGridLow event statistics
Timepix chip #2 :Increased event statisticsNew GEMGrid structureFilter out 6.5 keV with Cr foil
40 μm hole diameter
30 μm hole diameter
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Measured spectra at -330 V• Timepix #1 • Timepix #2
5.9 and 6.5 keV escape events (event ratio ~ 7:1)
5.9 and 6.5 keV escape events (event ratio ~ 50:1)
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Peak position and grid voltageAsymptotic value of Nd gives the number of collected electrons Nc
Polya fit works very well where exponential one (not shown) fails!
Nc = 115 e-Nc = 102 e-
• Compatible with the smaller hole diameter of InGrid #2
• Contribution from collection efficiency to peak width now known
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W and F in Ar/iso 95/5 at 2.9 keV
Assume full collection efficiency of detector #1
Np = Nc = 115 ± 2 e-
W = 25.2 ± 0.5 eV
Peak width measured with detector #2 corrected for detection and collection eff. (87 %)
RMS(Np) ~ 4.3 %
F = 0.21 ± 0.06
W = 25.0 ± 0.6 eV
F = 0.250 ± 0.010
Ar/iso 20/80 – 1253 eV X-rays
from Pansky. et al.
J. Appl. Phys. 79 (1996) 8892
Extrapolation to 5.9 keV photo-peak straightforward
Np = 230 ± 4 e-
Compatible with literature
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Very low (parasitic) capacitanceat the input (Cpar → 10fF) .
Input pad
Substrate
Cfb=1fF
Cpar = 10fF…50fF
Coaxial-like layout of the input interconnection.Parasitic metal-to-metal
fringe capacitances.
Ground plane
Output
Cfb
Rfb
Cpar Iin(t)
Qin
Output
Open loop voltage gain of the OPAMP
A
M1
M2
M3
M6
LM
Ground
ElectronicsGOSSIPO-1:
test of preamp-shaper-discriminator for GOSSIP
‘MultiProjectWafer’ in 0.13 μm technology
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Triple well layout in 130 nm (IBM) technology:
isolation of digitalandanalog sections
Guard rings GNDGND_ana
VDD_ana
P-type substrateP-well
N-well
Analog P-type FET area
Analog N-type FET area
Digital N-type FET area
substrate current
GNDGND_ana
VDD_ana
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- match extreme small source capacity: 15 fF- peaking time: 40 ns- noise (expected: 60 e- input eq.)- power: 2 μW/pixel (!)
MultiProject Wafer:
Vladimir Gromov/NIKHEF CERN Micro-electronics group
- Input noise eq. reached- No effect of digital switching within pixel
GOSSIPO chipSubmitted December 2005.
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GOSSIPO-2
test of preamp-shaper-discriminator
+
700 MHz TDC per pixel
• 0.13 μm technology• containing 16 x 16 pixels• Submission Nov 2006• Can be used for GOSSIP demo!
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40 MHz BX
Time Over Threshold
Oscillator on pixel
1 ns TDC per pixel
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New CMOS pixel chip: TimePix-2
Medipix-1
Medipix-2
TimePix
Medipix-3
TimePix-2
130 nm technologyTimePix-2:
- TDC per pixel: σ = 1 ns- ‘ADC’ per pixel: TimeOverThreshold- noise: 80 e- eq.- discharge protection circuit- fast (trigger enabled) readout
Gossipo-2 MPW
600 MHz oscin each pixel
Low-noise,low power analoginput
TimePix-2
Essentially ALL info on primary electrons in gas is extracted!
250 nm technology
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Construction of many test chambersprototypesNext-1,2,3,4,5Next QuadNext-64 (ReNexed, ReLaXd)DICEAgeing Chambers
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Next-64 / ReLaXd / ReNexd
CO2 cooling!
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DICE
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DICE
Nuclear ReactorWater Bassin10 x 10 x 10 m3
ReactorInstituteDelftRID
CO2
17N
‘anomality in angulardistribution of internal conversione+e-’
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GridPix/Gossip for
ATLAS SCT UpgradeILCCLIC
…….insulators in strong E- fields……….…….the frustration of innovation………..
Harry van der GraafNikhef, Amsterdam
IEEE-NSS ConferenceMPGD-Si Detector WorkshopDresden, Oct 18, 2008
30 years from now
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Si (vertex) track detector GOSSIP
CMOS chip
Si [depletion] layer
Vbias
• Si strip detectors• Si pixel detectors• MAPs• CCDs
Gas: 1 mm as detection medium99 % chance to have at least 1 e-
Gas amplification ~ 1000:
Single electron sensitive
All signals arrive within 20 ns
Cluster3
Cathode (drift) plane
Integrated Grid (InGrid)
Cluster2
Cluster1
Slimmed Silicon Readout chipInput pixel
1mm,100V
50um, 400V
50um
Separate detection materialand readout!
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Upgraded SCT: Gossip could replace:
- Pixel vertex detector: Gossip- Si Strip detectors: replace by Gossip Strixel detectors- TRT: use Gossip as tracker/TR X-ray detector
Essentials:
- power dissipation: 60 mW/cm2
- intrinsic mass: 0.1 % radiation length- low cost: 10 $ / cm2
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- Ladder strings fixed to end cones- Integration of beam pipe, end cones & pixel vertex detector- 5 double layers seems feasible
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ATLAS pixel: basic element
C-C support
sensor
Flex Hybrid
bumps
MCC Side view
not to scale
Wire-bonding FE’sWire-bonding MCC
FE chipFE chip
Flex module 2.xFlex module 2.x
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Gossip in ATLAS (Goat-1) Stave TimePix-2 chipSiNProt layerInGrid (Si3N4)Gas Cover
‘G’(round)String
‘P’(ositive)Stringcarrying 1.3 V
‘Road’: C-fibre reinforced databus + aux services
Stiff, light Stave formed by G-stringP-stringRoad triangle
StainlessSteel tubefor CO2 cooling
casted aluminiumpower line
gasmanifold
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Ø60mm Beampipe
Inner Layer: 7 double Goat strings
CO2 cooling channels
P-string conductor (+voltage)
G-string conductor (+voltage)
Gossip detector unit
Gossip readout
GOAT: GOssip in ATlas
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ATLAS Insertable B-layer (IBL)
- project ‘owned’ by pixel group- ‘mainstream’ detector (2012) defined but:
- Integrated luminosity uncertain- radiation damage uncertain
- Advantage Gossip:- MUCH cheaper and simpeler: no bump-bonded sensor- CO2 cooling integrated in mech design- rad hard- ultralight- flexible in configuration
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Upgraded SCT: Gossip/GridPix could replace:
- Pixel vertex detector: Gossip- Si Strip detectors: replace by Gossip Strixel detectors- TRT: use GridPix as tracker/TR X-ray detector
strixels/strips
preamp channels
Essentials:
- power dissipation: 1/16 x 60 mW/cm2 = 4 mW/cm2
now:25 mW/cm2
- intrinsic mass: 0.1 % radiation length- low cost: 10 $ / cm2
~ 20 mm
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Upgraded Tracker: Gossip could replace:
- Pixel vertex detector: Gossip- Si Strip detectors: replace by Gossip Strixel detectors- TRT: use Gossip with 17 mm Xe layer
as tracker/TR X-ray detector
Essential:- high position-resolution tracker throughout tracker- low mass, low cost detector- Efficient TRD possible
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L=30 mm
0.05 mm
V0 V1
Anatoli Romaniouk, Serguei Morozov, Serguei KonovalovMartin Fransen, Fred Hartjes, Max Chefdeville, Victor Blanco Carballo
Transition Radiator
Testbeam Nov 5 – 12, 2007PS/T9: electrons and pions, 1 – 15 GeV/c
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Samples pions (left) and electrons (right)
Particle Identification
6 GeV/c
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5 (double) layer Gossip Pixel
4 layer Gossip Strixel
3 layers Gossip TRT
radiator
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The future:Electron Emission Foil
MEMS made MicroChannelPlates: 200 ps time resolution: CLIC
electron emission foil
CMOS pixel chip
electron avalanche in gasEE-Foil replaces InGridParallel Plate Chamber
electron emission foil
CMOS pixel chip
replace gas by vacuumMicro Channel Platesub-ns time resolutionNote CLIC experiments
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New: use Secondary Electron Emission foilSEE foil is the cathode of a narrow-gap Parallel Plate Chamber
MIP
New developments in SEE foil:
- low work function (CsI, bi-alkali, CVDiamond)- surface treatment: nanotubes, CVDiamond- Extracting electric field
pixel chip
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Now wires are eliminated from gaseous detectors (‘wire chambers’)
Replace InGrid by Micro Channel Plate (wafer post processing tech.)
Apply ‘secondary electron emission’ foil
Minimum Ionising Particle
MCP invacuum
Gasless track detector
Time resolution < 200 ps
CLIC: BXs separated by 0.5 ns!
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Data Transport
- to outside world- inter (pixel) chip communication- Level 1 trigger
status: kapton/aluminium: dominant material for pixel detectors @ sLHC!VCels + optical fiber: not rad hard, much material, much power required
photodiode
laser
pixelchip
Kerrcrystal
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Two points:Track segment(vector)
Double (Si) layers
Gossip measures track segmentin single layer
Requires inter-pixel chipcommunication
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projected track lengthis measure for momentum:
- directly available (LVL1)- at no (extra) cost (mass, power)- at larger R: gas drift gap ~20 mm ~ 12 BXs
Requires fast on-board processing
We are using 130 nm tech.
What about 45 nm tech?
LVL1 trigger from inner tracker
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Conclusions and plans
• Gossip has shown to work with the PSI-46 CMS Pixel FE chip• With a 20 µm SiProt layer, CMOS chips are spark proof• Si3N4 is a promising material for protection & InGrid
Next steps:
• Mass production (by industry) of (SiNitride) InGrid, SiNProt• Build from (TimePix, PSI-46) + SiProt + InGrid
– Many more small chambers– Demo ‘beam telescope’: testbeam work– ATLAS Pixel Staves
• Gas ageing studies: testing Si containing compounds (SiO2, SiH4, SiCnHm)
• In framework of CERN R&D project RD51 (kick-off Worshop @ Nikhef April 2008)– Simulations– Development of general purpose GridPix chip TimePix-2
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NikhefHarry van der Graaf, Max Chefdeville, Fred Hartjes, Jan Timmermans, Jan Visschers, Marten Bosma, Martin Fransen, Yevgen Bilevych,Wim Gotink, Joop Rovekamp
University of TwenteCora Salm, Joost Melai, Jurriaan Schmitz, Sander Smits,Victor Blanco Carballo
University of Nijmegen Michael Rogers, Thei Wijnen, Adriaan Konig, Jan Dijkema,
Nicolo de Groot
CEA/DAPNIA SaclayD. Attié, P. Colas, I. Giomataris
CERNM. Campbell, X. Llopart
University of Neuchatel/MTINicolas Wyrsch
Czech Tech. Univ. Prague, PrahaPixelman: T. Holy et al.