Importance of starting time for defect analysis using positron annihilation lifetime measurements
Abstract
Conventional positron annihilation lifetime measurements have focused on determining the lifetime and relative intensity of each lifetime component deduced by multi-component analysis or the “mean” lifetime deduced by single-component analysis. So far, little attention has been paid towards the starting time (T 0) on the spectrum’s time axis. When analysing lifetime spectra with multiple components using an exponential function with a single-component, there is a difference between the experimental data and the fitted spectrum. Compensating for this difference causes a shift in the T 0 value in the fitted spectrum. This study examines the shifts in T 0 (ΔT 0) in positron lifetime spectrum analyses of metal samples with defects. We conducted simulations of trapping models and experiments with shot-peened stainless steel, verifying that ΔT 0 changed depending on the defect concentration even when almost all positrons were trapped (full trap). Therefore, we propose ΔT 0 as a new parameter for evaluating positron annihilation lifetime measurements.
- Publication:
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Japanese Journal of Applied Physics
- Pub Date:
- December 2019
- DOI:
- 10.7567/1347-4065/ab4fbb
- Bibcode:
- 2019JaJAP..58l6501Y