Abstract
The paper reports potassium diffusion measurements performed on gem-quality single-crystal alkali feldspar in the temperature range from $1169$ to $1021 \, \mbox{K}$. Natural sanidine from Volkesfeld, Germany was implanted with $\mbox{}^{43}\mbox{K}$ at the ISOLDE/CERN radioactive ion-beam facility normal to the (001) crystallographic plane. Diffusion coefficients are well described by the Arrhenius equation with an activation energy of $2.4 \, \mbox{eV}$ and a pre-exponential factor of $5\times10^{-6} \, \mbox{m}^{2}/\mbox{s}$, which is more than three orders of magnitude lower than the $\mbox{}^{22}\mbox{Na}$ diffusivity in the same feldspar and the same crystallographic direction. State-of-the-art considerations including ionic conductivity data on the same crystal and Monte Carlo simulations of diffusion in random binary alloy structures point to a correlated motion of K and Na through the interstitialcy mechanism.
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