Recent studies and characterization of UFSD sensors
Transcript of Recent studies and characterization of UFSD sensors
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Recent studies and characterization of UFSD sensors
34th RD50 Workshop, Lancaster, UK, June 12-14 2019
M. Ferrero1, R. Arcidiacono4, G. Borghi5, M. Boscardin5, N. Cartiglia1, M. Costa2, G.F. Dalla Betta3, F. Ficorella5, G.Gioachin2, M. Mandurrino1, M.M. Obertino2, L. Pancheri3, G. Paternoster5, F. Siviero2, V. Sola1,2, A. Staiano1 , M.Tornago2
1INFN, Torino, Italy2Università di Torino, Torino, Italy
3University of Trento and INFN, Department of Industrial Engineering, Trento, Italy4Università del Piemonte Orientale, Novara, Italy
5Fondazione Bruno Kessler (FBK), Trento, Italy
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Ø Gain uniformity on FBK-UFSD3 and HPK-Exx28995-Type3.1 productions:• gain layer depletion voltage non-uniformity• Collection charge
Ø Characterization of FBK-UFSD2 50µm ± 1µm thick PiN diodes irradiated at high fluences, 1015-1016 neq/cm2
• Acceptor creation• Gain at high Electric field >100 kV/cm• Charge collection efficiency
Outline
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OutlineM
arco
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Measurement setup
Ø Particulars TCT setup:Ø IR pulsed laser 1064nm à 10-20 µm spot diameterØ Chiller Lauda Eco Silver Re1050 for coolingØ InGaAs Reference diode + laser splitter 10%-90% to check laser
stabilityØ CIVIDEC Broadband amplifier à 40dBØ Lecroy Oscilloscope (BW 4GHz, 40Gsample/s) for data acquisition
Reference diode
BB AmplifierLauda Chiller
Lecroy oscilloscope
Reference diodeSignal
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Irradiation campaignPi
N
LGAD
Pairs of 1x1mm2 PiN-LGAD
Ø FBK UFSD2 single pad PiN sensors:FZ bulk with active thickness of 50µm ± 1µm (from CV measurements)
Ø Neutron irradiation in Ljubljana (2018 irradiation campaign)(AIDA2020) è thank you GK and friends!
Ø Fluence steps: 0,8/1,5/3/6/10*1015 neq/cm2
PiN ’s operating range @-20°C:• Not irradiated and irradiated at 8E14 à Breakdown at ~ 400V• Irradiated above 8E14 à Breakdown at ~ 750V
T = -20°C
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Gain in irradiated 50µm PiN diodes
Collected charge normalize @ 400V
Measurements performed at two laser intensity
Onset of gain above 600V
Ø Onset of gain at 600V in irradiated sensors above fluences of 1.5E15 neq/cm2
Ø Same gain appears in sensors irradiated at 6E15 and 1E16 neq/cm2
Ø Higher gain occurs at fluence 3E15 neq/cm2 than at 6E15 and 1E16 neq/cm2
T = -20°C
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Acceptor creation in irradiated 50µm FZ bulk
Acceptor creation
'( ∅ = CD33∅ geff ~ 0.02 cm-1
Expected linear acceptor creation as a function of fluence
Assuming an uniform acceptor creation in 50µm thickness, the acceptor density is proportional to full depletion voltage
(VFD) of PiN diode
'( ∅ ∝ "FG
Full depletion voltage from collection charge measurements
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Full depletion voltage in irradiated 50µm PiN diodes
Collected charge normalize @ 400V
Measurements performed at two laser intensity
Full depletion voltage increase
with the fluences
Full depletion voltage in PiN diodes (50µm thick, -20°C) irradiated at 6E15 and 1E16 neq/cm2 are very close, not in agreement with the expected trend by acceptor creation law.
T = -20°C
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Acceptor creation in 50µm PiN diodes
Measurements at two laser intensity
Acceptor creation saturation above 6E15 neq/cm2?
geff = 0.03 cm-1
geff = 0.02 cm-1
What happens up to 1016 neq/cm2 ?
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Charge collection efficiency in 50µm PiN diodes
Measurements conditions:• Room temperature• Measurements with laser 1064nm• Measurements at 3 laser intensity • Reference diode to check laser stability
All measurements are performed hundreds volt higher the full depletion voltage of the sensors and below 600V
Ø CCE decreases until fluence 3E15 neq/cm2
Ø CCE of about 60%-80% at 1E16 neq/cm2
Ø CCE saturation above 3E15 neq/cm2
Preliminary
CCE = CC(∅)/CC(0)
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2D calculation of superposition
Probability of hitting an empty square of area 1 Å2
• Define a particle hit on the surface by a small square ao (for example 1 Å2 )• Calculate the probability for the (n+1)th particle to hit an empty square
1) Probability for a particle to hit a square = ao / cm2 = 1E-182) Probability for a particle to miss a square: 1 – 1E-183) Probability for a particle to hit a square that has been missed by the previous n = (1 – 1E-18)n
4) This is a Poisson probability problem, with parameter ao
After 5E15 n/cm2, the probability of hitting an Amstrong square already hit is 50%
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Conclusion
Gain uniformity:Ø FBK-UFSD3: gain layer implant uniformity on single wafer ~ 2%
Ø HPK-Type3.1: gain layer implant uniformity on single wafer 0.5%-1gain layer implant uniformity on production ~ 2.7%
Ø Variation of ~ % on fraction of gain layer doping is equivalent at tens% of variation in collected charge
Irradiated PiN diodes:Ø Onset of gain above 600V, up to fluences of 3E15 neq/cm2, at -20°C
Ø Same gain in PiN diodes irradiated at 6E15 and 1E16 neq/cm2, lower than sensors irradiated at 3E15 neq/cm2
Ø Onset of acceptor creation saturation above fluence of 6E15 neq/cm2
Ø Onset of CCE saturation above fluence of 3E15 neq/cm2
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Acknowledgements
We kindly acknowledge the following funding agencies, collaborations:
Ø INFN - Gruppo VØ Horizon 2020, grant UFSD669529Ø Horizon 2020, grant no. 654168 (AIDA-2020)Ø U.S. Department of Energy grant number DE-SC0010107Ø Dipartimenti di Eccellenza, Univ. of Torino (ex L. 232/2016, art. 1, cc.
314, 337)
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Backup
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∆VGL < 0.1 V
Measurement performed 10 times on the same sensors
HPK single pad CMS 500 (MW)
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CV measurementsSetup precision
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Extrapolation of active acceptor density into gain layer (Method)
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VGL is proportional to the amount of the active doping of the gain layer
NA = Active doping concentration ω = thickness of the gain layer (~1 µm)q = electron electric chargeε = Dielectric constant of Silicon
VGL = Depletion Voltage for Gain LayerVFD = Full Depletion Voltage of sensor
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Effect of gain layer doping variation on charge collection in HPK UFSD @ different bias
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Effect of gain layer doping variation on charge collection in HPK UFSD @ different bias
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Effect of gain layer doping variation on charge collection in HPK UFSD @ different bias
Charge collection at room temperature