Elsevier

Physics Procedia

Volume 30, 2012, Pages 206-209
Physics Procedia

Motion of Mu+ inTransparent Conducting Oxides

https://doi.org/10.1016/j.phpro.2012.04.074Get rights and content
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open access

Abstract

We have been investigating diamagnetic muonium centers in several optically transparent conducting oxides by zero field (ZF) muon spin depolarization. In this report we present our findings on single crystal β -Ga2O3. ZF data from Ga2O3 are represented with a single static Kubo Toyabe (sKT) function over the whole scanned temperature range. Below room temperature we confirm shallow donor ionization. Between 400 and 500 K, sKT relaxation rates indicate local motion for Mu+ among a set of similar sites. Above 500K the relaxation rate decreases and reachesa plateau staying roughly constant up to 650 K. This behaviour is consistent with Mu+ finding an energetically more favorable site with a smaller local dipolar field. Above 650K the depolarization rate starts to decrease again. We attribute this behavior to the onset of global Mu+ diffusion. We have performed transverse field muon spin rotation experiments at low temperatures to investigate Mu0 ionization. We will discuss the general trend of Mu+ behavior and possibility of a second shallow Mu donor.

Keywords

Hydrogen
Muonium
Oxides
Hydrogen Diffusion
Shallow Donor

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