The ATLAS Radiation Dose Measurement System
Jochen Hartert
Graduiertenkolleg Seminar
Freiburg, 15 October 2008
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ATLAS
The ATLAS Experiment
Proton-proton collisisions at√
s = 14 TeV and L = 1034cm−2s−1
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ATLAS Radiation Environment at LHC and SLHC
Motivation and Measured Quantities
Why care about radiation dose levels?
Irradiation changes the performance of detectors and electronics!
Measured quantities:1 Total Ionizing Dose (TID)
Mainly due to photons, electrons and positronsMeasured in Gray (Gy), 1 Gy = 1 J/kgProblem to MOS and bipolar devices
2 Non Ionizing Energy Loss (NIEL) / equivalent fluence (Φeq)
Hadrons cause displacement damage in siliconExpressed in 1 MeV neutron equivalent fluence (n/cm2)
Φeq = κΦ =R
D(E)φ(E) dE
D(En=1 MeV)
3 Thermal neutron fluence
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ATLAS Radiation Environment at LHC and SLHC
Radiation Field in ATLAS
Exposure of electronics to:
radiation from pp-collisions(mainly pions)neutrons from interactions ofhadrons with detector material
After 10 years of LHC operationelectronics irradiated up to:
Total Ionizing Dose:TID > 100 kGyNon Ionizing Energy LossΦeq > 1015 1 MeVn/cm−2
Monitoring of radiation levelsneeded in order to:
cross check simulationsunderstand change in detectorperformanceand as independent measurement
Non Ionising Energy Loss in theATLAS Inner Detector
FLUKA simulation by Ian Dawson
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ATLAS Radiation Environment at LHC and SLHC
Radiation Field at SLHC
Luminosity: L(SLHC) ≈ 10× L(LHC)
Ionizing dose scales with luminosity:
TID(SLHC) ≈ 10× TID(LHC)
Upgrade of ATLAS tracker to full silicon→ loss of moderating effect of theTransition Radiation Tracker→ NIEL not expected to scale withluminosity→ as compensation introduce a 5 cmthick moderator
Non Ionising Energy Loss atthe SLHC
Ian Dawson
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Online Measurement Techniques in Use Total Ionizing Dose
Total Ionizing Dose (TID) Measurement - RadFETs
RadFET: Radiation Field Effect Transistor
Electrons escape, holes are trapped in SiO2-Siboundary.
Higher negative gate voltage needed to opentransitor.
Measure gate voltage increase at given draincurrent. ∆V = a× (TID)b
Sensitivity depends on oxide thickness
Three RadFETs used in ATLAS to cover largerange of doses:
0.01 Gy to 10 Gy: 1.6µm from CNRS LAAS,Toulouse, Franceup to 104 Gy: 0.25µm from REM, Oxford, UKup to 105 Gy: 0.13µm from REM, Oxord, UK
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Online Measurement Techniques in Use Total Ionizing Dose
Response curves of RadFETs in use
1.6µm LAAS RadFET
0.01 Gy to 10 Gy
0.25µm REM RadFET
up to 104 Gy
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Online Measurement Techniques in Use Non Ionizing Energy Loss
Non Ionising Energy Loss (NIEL) Measurement (1)
First Method: Bulk damage in forward biased p-i-n diode
NIEL causes bulk damage in silicon
⇒ reduced minority carrier lifetime in a p-i-n diode
⇒ increase of resistance
⇒ measure voltage change at given forward current
Φeq = k × (V − V0)
p-i-n diodes used in ATLAS:
1 108 to 1012 n/cm2: CMRP from University of Wollongong, Australia
2 1012 to 1015 n/cm2: OSRAM BPW34 Silicon PIN photodiode
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Online Measurement Techniques in Use Non Ionizing Energy Loss
Response curves of p-i-n diodes in use
CMRP p-i-n diode
108 to 1012 n/cm2
BPW34 p-i-n diode
up to 1015 n/cm2
The BPW34 diodes that are used in ATLAS were pre-irradiated with3× 1012 n/cm2
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Online Measurement Techniques in Use Non Ionizing Energy Loss
Non Ionising Energy Loss (NIEL) Measurement (2)
Second Method: Bulk damage in silicon→ Increase of leakage current (Ileakage) in reverse biased diode:
Φeq = Ileakage/(αV ) (V: sensitive (depleted) Volume)
1011 to 1015 n/cm2 higher fluences with higher voltagePad diode with guard ring structure on epitaxial silicon25µm thin → fully depleted at voltages < 30 V also after irradiation
Federico Ravotti
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Online Measurement Techniques in Use Thermal Neutron Fluence
Thermal Neutron Fluence Measurements
DMILL transistors areused in readoutelectronics in parts of theInner Detector (SCT).
Base current at fixedcollector currentsensitive to fast andthermal neutrons:∆IbIc
= keqΦeq + kthΦth
keq and kth knownΦeq measured withdiodes→ determine Φth
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Online Measurement Techniques in Use Thermal Neutron Fluence
Radiation Monitoring Sensor Boards
Inner Detector: 14 Modules that contain:
3 RadFETs for different dose ranges2 PIN diodes for low and high fluences1 Epitaxial (large fluence range)2 DMILL bipolar transistorsNTC temperature sensorresistive pad for heating on the back side
Outside the Inner Detector region: 48 modules
1 high sensitivity PIN diode (CMRP)1 RadFETNTC temperature sensor
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Readout and Online Monitoring
Readout
Usage of standard ATLAS components for straight forwardintegration:
ELMB: 64 adc channels, CAN bus communicationELMB-DAC: current source, 16 channels
Sensors are only biased during readoutPVSS based detector control system (DCS)Integration in ATLAS DCS and data base archiving
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Readout and Online Monitoring
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Readout and Online Monitoring
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Tests in Mixed Radiation Field
Tests in Mixed Radiation Environment at CERN PS
Mixed high energy particles in IRRAD6 environment at CERN PS.
Two modules (Inner Detector style) are irradiated since mid May.
Test of readout setup/procedure and calibration constants.
F. Ravotti, M. Glaser et. al
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Tests in Mixed Radiation Field
PIN diodes in Mixed Radiation Environment
Secondary Emission Counter (SEC) counts number of protons
conversion factors to TID and NIEL from previous measurementsnot useful for very small doses (unstable beam conditions)
CMRP PIN diode also sensitive to low fluences (109 1 MeV neq/cm2).
Good agreement between PIN diodes (20 % uncertainty).
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Tests in Mixed Radiation Field
RadFETs in Mixed Radiation Environment
High sensitivity RadFET
(LAAS 1.6µm)
Medium sensitivity RadFET
(REM 0.25µm)
LAAS RadFET sensitive already at doses 10−2 Gy
But: reduced response of LAAS in proton rich environment→ recalibration for this special case
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Tests in Mixed Radiation Field
DMILL Transistors in Mixed Radiation Environment
β = collector currentbase current thermal neutron fluence
Directly measure degradation of DMILL transistor performance.
Determine neutron fluence (using Φeq from PIN diode as input).
Improvement of the readout timing to avoid “noise”
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Tests in Mixed Radiation Field
ATLAS Baseline Measurements
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Summary
Summary
Radiation monitoring important
to cross check simulationsdetermine the correlation between dose levels and luminositymonitor electronics performance changes - particularly in the innerdetector
The system in ATLAS allows online monitoring of radiation levels:
TID in SiO2 from cGy up to 100 kGyNIEL in Si from 108 neq/cm−2 up to 1015 neq/cm−2
thermal neutron fluence and degradation of DMILL bipolar transistors
Integration in ATLAS Detector Control System
Test and optimization in mixed radiation field at low dose rates
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Summary
Backup
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Summary
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