Latent tracks of swift Bi ions in Si3N4

AJ van Vuuren and A Ibrayeva and RA Rymzhanov and A Zhalmagambetova and JH O'Connell and VA Skuratov and V Uglov and SV Zlotski and AE Volkov and M Zdorovets, MATERIALS RESEARCH EXPRESS, 7, 025512 (2020).

DOI: 10.1088/2053-1591/ab72d3

Parameters such as track diameter and microstruture of latent tracks in polycrystalline Si3N4 induced by 710 MeV Bi ions were studied using TEM and XRD techniques, and MD simulation. Experimental results are considered in terms of the framework of a 'core-shell' inelastic thermal spike (i-TS) model. The average track radius determined by means of electron microscopy coincides with that deduced from computer modelling and is similar to the track core size predicted by the i-TS model using a boiling criterion. Indirect (XRD) techniques give a larger average latent track radius which is consistent with the integral nature of the signal collected from the probed volume of irradiated material.

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