sipm for hep detectorsshuman/next/current_design/tp/... · e.popova (mephi) optical crosstalk •...
TRANSCRIPT
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Electron
Hole
Outline
• Review of commercially available SiPM – Comparison of properties
• A HEP detector with SiPM – Stability / spread of SiPM parameters
– Readout electronics
– Monitoring system
• Conclusions
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Electron
Hole
Sources and useful references
• Alliance detector school on SiPM:
https://indico.desy.de/conferenceOtherViews.py?view=standard&confId=3279
Overview of available SiPMs, pros/cons (Jelena Ninković, MPI)
• Industry-academia matching event on SiPM and related technologies
https://indico.cern.ch/conferenceTimeTable.py?confId=117424#20110216
State of the art in SiPM's (Iouri Musienko)
Review of ASIC developments for SiPM signal readout (Wojtek Kucewicz)
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Electron
Hole
What is available
Every producer uses its own name for this type of device: MRS APD, MAPD, SiPM,
SSPM, MPPC, SPM, DAPD, PPD, SiMPl , dSiPM…
MEPhI/Pulsar (Moscow) - Dolgoshein
CPTA (Moscow) - Golovin
Zecotek(Singapore) - Sadygov
Amplification Technologies (Orlando, USA)
Hamamatsu Photonics (Hamamatsu, Japan)
SensL(Cork, Ireland)
AdvanSiD (former FBK-irst Trento, Italy)
STMicroelectronics (Italy)
KETEK (Munich)
RMD (Boston, USA)
ExcelitasTechnologies (former PerkinElmer)
MPI Semiconductor Laboratory (Munich)
Novel Device Laboratory (Beijing, China)
Philips (Netherlands)
….
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Electron
Hole
• The time needed to recharge a cell after a breakdown depends mostly on the cell size (Cpix ) and the quenching resistor (Rq). Recovery time of SINGLE pixel: typical values: Rq ~ 0.5-20M, Cpix ~ 20-150fF
~ 20ns - few s
.
Pixel recovery time
! Polysilicon resistors are T dependent
favor high resistivity metal alloy
Important for design of readout
electronics: Integration or shaping
time has to match SiPM signal
length, otherwise loss of gain
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Electron
Hole
Gain
• As the SiPM is operated in Geiger mode the G ~105 -107
• Single photoelectrons produce a signal of several mV on a 50 Ω load
If full charge is integrated pre-
amplification x1-5 is adequate
Normally not the case with
decoupling circuits or short
shaping times (x10-50 needed)
Each pixel is a binary device – several photons hitting the same cell at the same time produce the same charge (Q)
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Electron
Hole
Dark Rate
Dark-rate rises exponentially with the applied over-
voltage (this will lower the gain and the PDE!)
Rule of thumb:
The thermal generated dark rate doubles for each
temperature increase of 8 °C
Hamamatsu
SensL
14-15 March 2011 [email protected]
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Electron
Hole
Optical crosstalk
A p-n junction in breakdown emits photons in
the visible range (~ 3 x 10-5 per charge carrier
with a wavelength less than 1 μm*)
If they reach a neighboring pixel additional
breakdown can be caused * A. Lacaita, et al., IEEE Trans. Electron Devices ED-40 (1993) 577
E.Popova (MEPhI)
Optical crosstalk
• responsible for the high rate at
thresholds >1.5 p.e.
• Increases with overvoltage (or gain)
threshold level
Limit to the SiPM sensitivity
Influence on acquisition rate &
electronics design
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Electron
Hole
Optical crosstalk II
MPPC: At fixed gain values, small
pixel devices have a higher crosstalk
probability
(average photon travel distance
shorter)
SensL: small cross-talk due to
trenches between pixels
Trenches separating neighboring pixels
Introduced by CPTA /Photonique
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Electron
Hole
After-pulse
carriers can be trapped during the avalanche discharge and then released trigger a new avalanche during a period of several 100 ns after the initial breakdown
Solution:
• Cleaner/better technology
• Longer recovery time (large quenching resistor)
• Lower gain
14-15 March 2011 [email protected] 11/43
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Electron
Hole
Temperature dependence
A. Ta
dd
ay (
Un
iHe
i)
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Electron
Hole
Photo-detection efficiency
Photoemission image
Pulsar SiPM
42 m pitch size
Fill factor
(fill factor)
Hamamatsu MPPC,
100 m pixels
SensL, 35 m pixels J.Ninkovic (MPI)
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Electron
Hole
n-substrate
n- epi n+
p+ el.
holes
Blue/UV sensitivity
Inverted structure produced by MEPhI/Pulsar & Hamamatsu
p-substrate
p- epi p+
el.
•The triggering probability depends on the position where the primary electron-hole pair is generated and it depends on the overvoltage.
•Electrons have in silicon a better chance to trigger a breakdown than holes (larger ionization coefficient). A conversion in the p+ layer has the highest probability to start a breakdown.
Wavelength dependence of PDE linked to depth of penetration of photon
Standard SiPM structure (n-on-p), most of producers
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Electron
Hole
Photo-detection efficiency II
MPPC 50 m
50 m
SensL 20
14-15 March 2011 [email protected] 15/43
PDE absolute values sometimes includes
cross-talk and after-pulsing
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Electron
Hole
Non-linear response function
1 10 100 1000 100001
10
100
1000
Number of pixels fired
Number of photoelectrons
576
1024
4096
B.Dolgoshein,LIGHT06
Response functions for the SiPMs with different total pixel
numbers measured for 40 ps laser pulses MEPhI/Pulsar
Linear response only when the number of detected photons (Nphoton x PDE) is significantly smaller than the number of cells Ntotal.
correct for an “ideal” SiPM (no cross-talk and no after-pulsing) as long as light pulses are shorter than pixel recovery time
Limit to the system dynamic range
Requires correction of non-linear
response (individual/global curve)
Reduces acceptable spread in
light yield of a system
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Electron
Hole
High dynamic range MAPD from Zecotek
Micro-well structure at 2-3μm depth with multiplication regions located in front of the wells offer 10000–40000cells/mm2 and up to 3x3mm2 in area were produced by Zecotek (Singapore).
No quench resistors instead specially designed potential barriers are used to quench the avalanches.
(Z. Sadygovet al, arXiv;1001.3050)
MAPD (135000cells,3x3mm2area) signal amplitude A(in relative units) as function of a number of incident photons N
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Electron
Hole
Spread in parameters
Fra
cti
on
, %
Noise frequency at ½MIP, Hz
Fra
cti
on
, %
Fra
cti
on
, %
Fra
cti
on
, %
Gain (
10-6) Cross talk Noise frequency, kHz
- CPTA
- MEPHI/Pulsar
inter pixel
crosstalk < 10%
noise above
0.5 p.e.
~1.5MHz
Fra
cti
on
, %
Current, μA
typical current
~0.2-0.3uA
G= 0.3-1.3 106
Very large spread on Vbd (30-75V)
Individual adjustment of bias
Individual preamp gain or
threshold adjustment
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Electron
Hole
Spread in parameters II
G=
4-5.5 105
Hamamatsu MPPC 50 m
14-15 March 2011 [email protected] 19/43
Test of 17000 MPPC for T2K
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Electron
Hole
Spread in parameters III
SiPM response curve (MEPhI/Pulsar)
~ 20% spread in Ntotal Requires precise measurement of single response function Typical LY (specific application) 10-20 pix Change in dynamic range ch.-to-ch.
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Electron
Hole
SiPM pioneering experience
R&D for Calorimeters for the ILC The history:
- After the LHC detectors (radiation hard / dense particle environment)
- The next generation HEP experiments precision experiments
- New paradigm for precision measurements in a jet environment
Particle Flow
PFlow techniques have been shown to
improve jet E resolution in existing detectors,
but the full benefit can only be seen on the
future generation of PFlow designed detectors
Requires the design of
- a highly granular calorimeter, O(1cm2) cells
- dedicated electronics, O(20M channels)
- high level of integration
a concept to improve the jet energy resolution of a HEP
detector based on:
proper detector design (high granular calorimeter!!!)
+ sophisticated reconstruction software
14-15 March 2011 [email protected] 22/43
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Electron
Hole
2006
The final goal of CALICE:
A high granularity calorimeter optimised for
the Particle Flow measurement of multi-jets
final state at the International Linear Collider
Establish the technology
Collect hadronic showers data with
unprecedented granularity to
- tune clustering algorithms
- validate existing MC models
The prototype calorimeter system for ILC
Imaging
calorimeter
Si-W ECAL
Scint. Tiles-Fe AHCAL
Scint. Strips-Fe TCMT MC
HCAL Tail Catcher
ECAL
Summer 06, CERN SPS
Test beam installation
beam
DATA
23/43
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Electron
Hole
1 mm2
SiPM pioneering experience
Single tile readout
with SiPM
A crucial technology improvement to calorimetry
Allows unprecedented
high granularity
3x3 cm2
100x100 cm2
1x1m² prototype calorimeter with 8000
channels readout with SiPM (MePHI/Pulsar)
38 layers (~4.5 )
Scintillator – Steel sandwich
structure (0.5:2cm)
MIP
Single Pixel Light Yield = 15 pixels / MIP
Dynamic range ~ 100 MIPs
!! auto-calibration of
SiPM gain from
single-pixel spectra
Si-based =
insensitive to
magnetic field!
[email protected] 24/43
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Electron
Hole
Next step towards a ILC detector
Work on integration and scalability issues (integrated electronics/ power pulsing/ data acquisition..)
36 c
m
3 cm SiPM
Align. pins WLS fiber
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Electron
Hole
Redundant monitoring and calibration system
AHCAL module = 216 tiles
SiPM response curve in situ
Calibration/monitoring system based on UV LED delivers: -Low intensity light for SiPM Gain calibration -High intensity of light for saturation monitoring -Medium intensity light for electronics calibration & monitoring -Temperature measurement for monitoring
Light distributed via clear fibers to each calo cell
Intensity for 8000 ch. within factor 2 (>94% calibration eff.)
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Electron
Hole
Next generation monitoring system
Light distributed by notched fibres Light directly on tile by SMD-LED
- distributed LED
System task: SiPM gain calibration via single photoelectron peak spectra (~1-2 p.e.)
long term stability via response @ medium light (~20-100 p.e.)
measure SiPM saturation level (~2000 p.e.)
Two technological solutions:
I. P
ola
k (
Un
i. P
rag
ue
)
M. R
ein
eke
(D
ES
Y)
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Electron
Hole
High granularity EM Calorimeter for ILC
WLSF Direct coupling
10mm
4.5cm 4.5cm
3mm
thick
3M R.M.F.
Multi-Pixel Photon Counter
from Hamamatsu
Scintillator – Tungsten sandwich structure
Fist prototype ready for test
beam at DESY in Feb. 2007
MPPC R/O
pion
gammas
Scint. : W = 3mm:3.5mm
from T. Takeshita, Shinshu Uni., Japan
Wave-Length
Shifter Fibre
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Electron
Hole
Direct coupling of SiPM to scintillator
Coupling via WLS fiber has the advantage of higher uniformity:
- light from the whole tile is collected and guided to the SiPM
Direct coupling
non-uniformity of light
collection
Special optimization of SiPM
coupling through a dimple in
the scintillator allows to recover
good uniformity
(study: MPI Munich)
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Electron
Hole
Cherenkov light r/o
14-15 March 2011 [email protected] 31/43
First test of Cherenkov light detection from
Sapphire and lead glass tiles
S. Jungmann,
diploma thesis, Heidelberg
Coupled to 3x3 mm2
MPPC, 50um pixel
Possible application in
Dual readout
calorimetry (CLIC?)
After optimization of
coating and coupling
LY sufficient for
calorimeter application
LY uniformity under study
Tested at DESY
TB with 3 GeV
electrons
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Electron
Hole
Overview of SiPM ASICs
Crucial for a multi-channel detector with SiPM is a proper r/o chip
Tested in multi-channel applications:
1. FLC_SiPM– Orsay
2. MAROC – Orsay
3. SPIROC – Orsay
4. NINO – CERN
5. PETA – Heidelberg
6. BASIC – Bari/Pisa
7. SPIDER – Siena/Pisa
8. RAPSODI – Krakow
Review of ASIC developments for SiPM signal readout (Wojtek Kucewicz)
14-15 March 2011 [email protected] 33/43
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Electron
Hole
Overview of SiPM ASICs II
Review of ASIC developments for SiPM signal readout (Wojtek Kucewicz)
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Electron
Hole
Overview of SiPM ASICs III
Review of ASIC developments for SiPM signal readout (Wojtek Kucewicz)
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Electron
Hole
ILC-SIPM
Signal hold
16 selectable gain factors
from 0.67 to10 V/pC
Charge
preamplifier 16 CR (RC)2 shapers
40-180 ns shape time
Single channel
HV tune
decoupling
The FLC-SiPM chip (one channel scheme)
x18 ch.
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Electron
Hole
The SPIROC chip
designed by Omega group LAL (Orsay)
Specific chip for SiPM: • input DAC for bias adjustment
Designed to work at ILC: • power pulsing mode
• 25 W /ch
• internal ADC
• auto-trigger mode
• time stamp (~1ns)
Current challenges in chip understanding:
• 16 cell analog buffer memory characterize properties
• sample and hold method determine spread
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Electron
Hole
The SPIROC chip (one channel scheme)
IN test
50 -100ns
50-100ns
Gain
selection
4-bit threshold
adjustment
10-bit DAC
15ns
DAC output
HOLD
Slow Shaper
Slow Shaper
Fast Shaper
Time
measurement
Charge
measurement
TDC ramp
300ns/5 µs
12-bit
Wilkinson
ADC
Trigger
Depth 16
Depth 16
Depth 16
Common to the
36 channels
8-bit DAC
0-5V
Low gain
Preamplifier
High gain
Preamplifier
Analog memory
15pF
1.5pF
0.1pF-1.5pF
Conversion
80 µs
READ
Variable delay
0.1pF-1.5pF
IN
Discri
Gain
Flag
TDC
Fast path provides auto-trigger and time measurement
Slow path provides
charge measurement
ADC for
time and
amplitude
meas.
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Electron
Hole
Future trends
HAMAMATSU PHOTONICS
MPPC module 8x8 (prototype)
MPPC module 4x4
Replace vacuum phototube with
silicon-based photo-detectors
for “any size and need”
14-15 March 2011 [email protected] 40/43
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Electron
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Future trends
14-15 March 2011 [email protected] 41/43
Industry-academia matching event on SiPM
and related technologies: http://indico.cern.ch/internalPage.py?pageId=0&confId=117424
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Electron
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Digital SiPM
4 identical sub-pixels with 2047
microcells each
Microcell size 30μmx52μm, 50% fill
factor including electronics
• 1 bit inhibit memory in each microcell to enable/disable faulty diodes
• Active quench & recharge, on-chip memory and array controllers
• Integrated time-to-digital converter with σ = 8ps time resolution
• Variable trigger (1-4 photons) and energy (1-64 photons) thresholds
• Acquisition controller implemented in FPGA for flexibility and testing 14-15 March 2011 [email protected] 42/43
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Concluding considerations
• SiPM is an innovative technology for photo-detection
• which opens revolutionary possibilities in detector development
• HEP has been the driving field for SiPM developments
• Crucial for the operation of a multi-channel detector with SiPM
– as small as possible spread of SiPM parameters OR precise characterization measurements of single photo-sensor
– adequate readout chip
– adequate monitoring system
• SiPMs may become the replacement of PMTs
• SiPM with digital readout is a further step in system simplifications
electronics, integration, low cost
14-15 March 2011 [email protected] 43/43
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If this effect is not properly
considered result in too large values
of PDE (values larger than one are
possible)
N. of detected photons
14-15 March 2011 [email protected] 45/43
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Gain and single pixel charge
(Y. Musienko, NDIP-05, Beaune)
For linear device a measured charge:
For SiPM this holds only at small U
as more than 1 pixel is fired by 1 primary
photoelectron
where np is average number of pixels
fired by one primary photoelectron (>1)
due to:
•optical cross-talk between pixels
•after-pulsing
Each pixel is a binary device – several photons hitting the same cell at the
same time produce the same signal (Q)
14-15 March 2011 [email protected] 46/43
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Radiation hardness issue
Relevant for applications in rad. hard environment: what is the SiPM tolerance
S. R. Dugad, “Upgrade plans for hadron
calorimeter in the CMS detector”, Nucl. Inst.
Meth. A (2010), doi:10.1016/j.nima.2010.02.216 14-15 March 2011 [email protected] 47/43
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SiPM radiation hardness
Neutron irradiation by reactor (En 0.8-1.2 MeV)
Only thermal noise increase after 109 n/cm2, no other significant effects on
Gain and response function
Gamma irradiation with 60Co noise below MHz till 60Gy
Hamamatsu MPPC
14-15 March 2011 [email protected] 48/43
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Future trends
Industry-academia matching event on SiPM
and related technologies: http://indico.cern.ch/internalPage.py?pageId=0&confId=117424 49/43