updated results from the slac estb t-506 irradiation study 2014 linear collider workshop
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Updated Results from the SLAC ESTB T-506 Irradiation Study 2014 Linear Collider Workshop Belgrade, Serbia 6-10 October 2014 Bruce Schumm UC Santa Cruz Institute for Particle Physics On behalf of the FCAL Collaboration. T-506 Motivation. BeamCal maximum dose ~100 MRad/yr - PowerPoint PPT PresentationTRANSCRIPT
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Updated Results from the SLAC ESTB T-506 Irradiation
Study
2014 Linear Collider WorkshopBelgrade, Serbia6-10 October 2014
Bruce SchummUC Santa Cruz Institute for Particle Physics
On behalf of the FCAL Collaboration
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T-506 Motivation
BeamCal maximum dose ~100 MRad/yr
BeamCal is sizable: ~2 m2 of sensors.
A number of ongoing studies with novel sensers: GaAs, CVD diamond
Are these radiation tolerant?
Also, might mainstream Si sensors be of use?
Some reasons for optimism for Si…
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Departure from NIEL (non-ionizing energy-loss) scaling observed for electron irradiation
NIEL e- Energy
2x10-2 0.5 MeV
5x10-2 2 MeV
1x10-1 10 MeV
2x10-1 200 MeV
G.P. Summers et al., IEEE Trans Nucl Sci 40, 1372 (1993)
Also: for ~50 MRad illumination of 900 MeV electrons, little loss of charge collection seen for wide variety of sensors[S. Dittongo et al., NIM A 530, 110 (2004)]
But what about the hadronic component of EM shower?
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Hadronic Processes in EM Showers
There seem to be three main processes for generating hadrons in EM showers (all induced by photons):
• Nuclear (“giant dipole”) resonancesResonance at 10-20 MeV (~Ecritical)
• PhotoproductionThreshold seems to be about 200 MeV
• Nuclear Compton scatteringThreshold at about 10 MeV; resonance at 340 MeV
These are largely isotropic; must have most of hadronic component develop near sample
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Irradiating the Sensors
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LCLS and ESAUse pulsed magnets in the beam switchyard to send beam in ESA.
Mauro Pivi SLAC, ESTB 2011 Workshop, Page 6
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ESTB parameters
0.25 nC
Parameters ESA
Energy 15 GeV
Repetition Rate 5 Hz
Charge per pulse 0.35 nC
Energy spread, E/E 0.02%
Bunch length rms 100 m
Emittance rms (xy) (4, 1) 10-6 m-rad
Spot size at waist (x,y < 10 m
Drift Space available for experimental apparatus
60 m
Transverse space available for experimental apparatus
5 x 5 m
3.5-10.5 (for now)
Up to 10 Hz!
≤ 0.15 nC
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1 inch
Sensor
Pitch adapter, bonds
Daughter Board Assembly
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2 X0 pre-radiator; introduces a little
divergence in shower
Not shown: 4 X0 and 8 X0 radiators
just before and after sensor
Sensor sample
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Detector Fluence Distribution (per incident e-)
Radius (cm)
Flu
ence
(p
arti
cles
per
cm
2)
For later charge collection
measurement, must have ~1cm2 uniformly
illuminated area
Raster sensor across beam
1.0 2.0 3.0
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Dose Rates (Including 1 cm2 Rastering)Mean fluence per
incident e-
Maximum dose rate (10.6 GeV; 10 Hz; 150pC per pulse):
28 Mrad per hour
Confirmed with RADFET to within 10%
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T506 Si Doses
“P” = p-type “N” = n-type“F” = float zone “C” = Czochralski
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T506 GaAs DosesNew this year: GaAs pad sensors via Georgy Shelkov, JINR Dubna
Irradiated with 5.7 and 21.0 Mrad doses of electromagnetically-induced showers
Irradiation temperature 3oC; samples held and measured at -15oC
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Assessing the Radiation Damage
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Daughter/Readout Board Assembly
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Sensor +FE ASIC
DAQ FPGA with Ethernet
Charge Collection Apparatus
•Readout: 300 ns
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Channel-over-threshold profile
Efficiency vs. threshold
Median Collected Charge
Charge Collection Measurement2.3 MeV e- through sensor into scintillator
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Results
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Results: PF sensors
Doses of 5 and 20 Mrad
No annealing
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Results: PC sensors
Dose of 20 Mrad
No annealing
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Results: NF sensor for low dose
Doses of 5 and 20 Mrad
No annealing
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Results: NF Sensor to 90 Mrad, Plus Annealing Study
Limited beneficial annealing to 90oC (reverse annealing above 100oC?)
Dose of 90 Mrad
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Results: NC sensors
Dose of 220 Mrad
Incidental annealing
~15% charge loss at 300 ns shaping
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GaAs Charge Collection after 5.7 Mrad Exposure
15-20% charge loss at 300 ns shaping
GaAs
Dose of 5.7 Mrad
No annealing
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Compare to Direct Electron Radiation Results (no EM Shower)
Roughly consistent with direct result
kGy
Georgy Shelkov, JINR
1000 kGy = 100 Mrad
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Summary and Conclusions•In midst of a program of study of radiation damage in a realistic EM shower environment
•Have irradiated and studied several Si sensors to as much as 220 Mrad, and GaAs to 6 Mrad.
•Si sensors show some promise to survive the BeamCal integrated dose
•GaAs shows charge loss at 6 Mrad, but still need to do annealing studies
•Will soon explore 21 Mrad GaAs sensor and do annealing studies on both GaAs sensors
•Expect to run at higher fluence in 2015