Ion Jump Motion as the Background for Muon Diffusion in Battery Materials Research Using μSR
Abstract
Numerical simulations of muon spin relaxation (μSR) in ion diffusion were performed using the extended Kubo-Toyabe (KT) relaxation function Gz EA(t) that incorporates an Edwards-Anderson type autocorrelation function for the jump motion of ions. The analysis of the generated μSR spectra using the conventional KT function Gz KT(t; KT, KT) (mimicking the previous analysis procedure) suggest that the anomalous peak in the fluctuation rate KT around a specific temperature T* and associated decrease of the linewidth KT above T*, often observed in the previous μSR studies on ion diffusion, originate from the sharp increase in the ion jump rate i against that of the muon μ with increasing temperature. This indicates that a more detailed reanalysis of the vintage data using Gz EA(t) is useful for the proper evaluation of i and μ. Meanwhile, it also suggests that the μSR results showing no such anomaly convey little information on ion diffusion.
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