RD50 CCE measurements and annealing studies on proton irradiated p-type MCz diodes Herbert Hoedlmosera, Michael Molla, Michael Koehlerb, Henri Nordlundc.

RD50 CCE measurements and annealing studies on proton irradiated p-type MCz diodes Herbert Hoedlmosera, Michael Molla, Michael Koehlerb, Henri Nordlundc a: CERN, b: University Siegen, c: Helsinki Institute of Physics RD50 Workshop CERN, Contents CCE setup CCE Measurements on irradiated p-type MCz CV/IV characterization of irradiated p-type MCz Differences in reverse-annealing due to thermal donors RD50 Workshop 06: CERN Herbert Hoedlmoser

Investigated material
RD50 300 μm MCz by Okmetic Processing: ITC-IRST square MG diodes n+/p (batch SMART2) W066 – series: p-spray dose = 3 x 1012 cm-2 8 diodes with VDEP = 8 to 17 V W182 – series: p-spray dose = 5 x 1012 cm diodes with VDEP = 97 to 110 V After being processed together the two wavers were inhomogeneous: Differences in VDEP between the wavers and between different locations on the waver due to inhomogeneous TD generation according to talk by D. Menichelli, at the Hamburg-Workshop; Irradiation: 24 GeV/c CERN/PS up to Φ = 1016 cm-2 Die dimension: (5920 μm)2 Diode area (p+ implant): mm2 Metal hole area: mm2 (Φ 2.4 mm) 1 Large guard (~90 μm) + 10 float rings RD50 Workshop 06: CERN Herbert Hoedlmoser

CCE system NIKHEF CCE system © Fred Hartjes RD50
signal shaping time: 2.5 µs gain calibration factor: 245 e-/mV temperature: down to -30 oC with fridge + peltier bias: up to 1000 V guard ring: connected to ground noise: 567e e- /pF trigger rate with 90Sr source: ≈ Hz control software: labview RD50 Workshop 06: CERN Herbert Hoedlmoser

CCE: measurement & analysis
RD50 NIKHEF CCE analysis software automatic Landau fit and noise deconvolution pedestal events: < 2% separate pedestal measurement to deconvolute gaussian noise from signal RD50 Workshop 06: CERN Herbert Hoedlmoser

Measurements & Parameters
RD50 Measurements performed for the investigations CCE: measured at -10OC (-25OC for highly irradiated diodes) CV: measured at -10OC and at room temperature (RT) IV: measured at -10OC and at room temperature (RT) Annealing: at 80OC T-dependence of measurements! RD50 Workshop 06: CERN Herbert Hoedlmoser

CCE for irradiated detectors
RD50 irradiation: 24 GeV/c protons annealing: 4 80 oC RD50 Workshop 06: CERN Herbert Hoedlmoser

CCE as a function of fluence
RD50 irradiation: 24 GeV/c protons annealing: 4 80 oC RD50 Workshop 06: CERN Herbert Hoedlmoser

only depletion voltage changes, maximum CCE remains at 82%
Annealing: CCE RD50 IRST-W irradiation: Φ= 3.5×1014 p/cm2 only depletion voltage changes, maximum CCE remains at 82% RD50 Workshop 06: CERN Herbert Hoedlmoser

similar results for all fluences
Annealing: CCE RD50 IRST-W irradiation: Φ= 3.3×1013 p/cm2 IRST-W irradiation: Φ= 1.1×1014 p/cm2 IRST-W irradiation: Φ= 3.5×1014 p/cm2 IRST-W irradiation: Φ= 1.1×1015 p/cm2 similar results for all fluences RD50 Workshop 06: CERN Herbert Hoedlmoser

IV measurements @ room temperature
Leakage current RD50 IV room temperature Current related damage rate: α(1 MeV n eq.) = 4.9 x [A cm-1] irradiation: 24 GeV/c protons annealing: 4 80 oC RD50 Workshop 06: CERN Herbert Hoedlmoser

Annealing: leakage current
RD50 80OC; measurements at room temperature Measurement of the current related damage rate α as a function of annealing time: Comparison with parametrization of α: RD50 Workshop 06: CERN Herbert Hoedlmoser

RD50 Results for annealing of 3 different diodes: W Φ= 1.1×1014 p/cm2 W Φ= 1.1×1014 p/cm2 W Φ= 3.3×1013 p/cm2 Currents corrected to reference temperature! RD50 Workshop 06: CERN Herbert Hoedlmoser

VDEP as a function of fluence
RD50 CV room temperature irradiation: 24 GeV/c protons annealing: 4 80 oC RD50 Workshop 06: CERN Herbert Hoedlmoser

IRST-W066-22 irradiation: Φ= 3.5×1014 p/cm2
Annealing: VDEP RD50 IRST-W irradiation: Φ= 3.5×1014 p/cm2 Evaluation of: ΔNeff ≈ 6E12 cm-3 ≡ Ny,∞ reverse annealing amplitude RD50 Workshop 06: CERN Herbert Hoedlmoser

Annealing: VDEP RD50 Evaluation of change in effective doping concentration as a function of fluence reverse annealing amplitude Ny,∞ RD50 Workshop 06: CERN Herbert Hoedlmoser

Difference in annealing behavior due to TDs?
Difference between w066 and w182 series presumably due to TDs: Depletion voltage before irradiation ≈ 10 x higher for w182! Higher TD concentration Reverse annealing of W066 series (higher TD concentration) is delayed: RD50 Workshop 06: CERN Herbert Hoedlmoser

Effect confirmed with independent evaluation of VDEP by CV and CCE VDEP by CCE VDEP by CV Reverse annealing of W066 series is delayed RD50 Workshop 06: CERN Herbert Hoedlmoser

Effect confirmed for different fluences: reverse annealing of W066 series (higher TD conc.) is delayed RD50 Workshop 06: CERN Herbert Hoedlmoser

Comparison of reverse-annealing time constants RD50 Workshop 06: CERN Herbert Hoedlmoser

Summary RD50 CCE/CV/IV measured for p-type MCz diodes irradiated up to fluences of GeV/c p/cm CCE(300V): 1.2E14 p/cm (7.4E13 1MeV/c n/cm2) 1.1E15 p/cm2 (6.8E14 1MeV/c n/cm2) Annealing of an irradiated diode changes depletion voltage and leakage current but not CCE TDs seem to influence reverse-annealing: higher TD concentration  delayed reverse-annealing? Plan: systematic study of this effect by deliberate activation of TDs in p-type MCz. RD50 Workshop 06: CERN Herbert Hoedlmoser

VDEP by CCE @ -10OC VDEP by CV @ RT
backup slide Evaluation VDEP RD50 VDEP by -10OC VDEP by RT W / Φ=1.15E14 p/cm2 evaluation by CCE usually leads to higher values of VDEP than CV: differences tue to T dependencies and slow CCE measurement RD50 Workshop 06: CERN Herbert Hoedlmoser

backup slide CCE: comparison to CV
RD50 1 = e- 1 = 1/(6.7 pF)2 W / Φ=1E14 p/cm2 ….considering the T-dependencies in the measurements of irradiated detectors! RD50 Workshop 06: CERN Herbert Hoedlmoser

backup slide CCE(fluence)
RD50 Material: standard p-type and oxygenated (DOFZ) p-type RD50 Workshop 06: CERN Herbert Hoedlmoser

Reverse annealing for different fluences:
backup slide Annealing: VDEP RD50 Reverse annealing for different fluences: RD50 Workshop 06: CERN Herbert Hoedlmoser

RD50 Correction of the measured currents for T-dependency: RD50 Workshop 06: CERN Herbert Hoedlmoser

backup slide CCE: measurement & analysis
RD50 Example: p-type MCz IRST-W irradiation: Φ= 3.5×1014 p/cm2 temperature: -10 oC annealing: oC bias: 200 V pedestal measurement deconvoluted landau distribution RD50 Workshop 06: CERN Herbert Hoedlmoser

refrigerator “Environment” NIKHEF CCE system © Fred Hartjes CV/IV box
RD50 NIKHEF CCE system © Fred Hartjes CV/IV box refrigerator RD50 Workshop 06: CERN Herbert Hoedlmoser

Setup: detector mounting
RD50 …bonded to PCB support RD50 Workshop 06: CERN Herbert Hoedlmoser

RD50 CCE measurements and annealing studies on proton irradiated p-type MCz diodes Herbert Hoedlmosera, Michael Molla, Michael Koehlerb, Henri Nordlundc.

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RD50 CCE measurements and annealing studies on proton irradiated p-type MCz diodes Herbert Hoedlmosera, Michael Molla, Michael Koehlerb, Henri Nordlundc.

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Presentation on theme: "RD50 CCE measurements and annealing studies on proton irradiated p-type MCz diodes Herbert Hoedlmosera, Michael Molla, Michael Koehlerb, Henri Nordlundc."— Presentation transcript:

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