Issue 23, 2021

A new approach to near-surface positron annihilation analysis of ion irradiated ferritic alloys

Abstract

The present work provides an innovative approach to the near-surface slow-positron-beam (SPB) study of structural materials exposed to ion-beam irradiation. This approach enables the use of variable-energy positron annihilation lifetime spectroscopy (PALS) to characterise a wide range of microstructural damage along the ion implantation profile. In a typical application of the SPB PALS technique, positron lifetime is used to provide qualitative information on the size of vacancy clusters as a function of the positron energy, i.e., the probing depth of the spectrometer. This approach is limited to a certain defect concentration above which the positron lifetime gets saturated. In our experiments, we investigated the back-diffusion of positrons and their annihilation at the surface. The probability of such an event is characterised by the positron diffusion length, and it depends on the density of lattice defects, even in the saturation range of the positron lifetime. Until now, the back-diffusion experiments were reported only in connection with Doppler broadening spectroscopy (DBS) of positron-annihilation radiation. To verify the validity of the used approach, we compared the obtained results on helium-implanted Fe9Cr alloy and its oxide dispersion strengthened variant with the transmission electron microscopy and “conventional” slow positron DBS analysis.

Graphical abstract: A new approach to near-surface positron annihilation analysis of ion irradiated ferritic alloys

Article information

Article type
Paper
Submitted
27 May 2021
Accepted
31 Aug 2021
First published
03 Sep 2021
This article is Open Access
Creative Commons BY license

Nanoscale Adv., 2021,3, 6596-6607

A new approach to near-surface positron annihilation analysis of ion irradiated ferritic alloys

V. Kršjak, P. Hruška, J. Degmová, S. Sojak, P. Noga, T. Shen, V. Sabelová, W. Egger and V. Slugeň, Nanoscale Adv., 2021, 3, 6596 DOI: 10.1039/D1NA00394A

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