The Effect of Water on Ionic Conductivity in Olivine
Hongzhan Fei, Dmitry Druzhbin, Tomoo Katsura
Abstract
Abstract High‐temperature ionic conductivity in olivine single crystals has been measured in the [100], [010], and [001] crystallographic orientations as a function of pressure from 2 to 10 GPa, temperature from 1450 to 2180 K, and H 2 O content from 20 to 580 wt. ppm using multianvil presses with in situ impedance analyses. The experimental results yield an activation energy, activation volume, and H 2 O content exponent of 250–405 kJ/mol, 3.2–5.3 cm 3 /mol, and 1.3 ± 0.2, respectively, for the high‐temperature ionic conduction regime. Olivine ionic conductivity has negative pressure and positive temperature dependences and is significantly enhanced by H 2 O incorporation. The [001] direction is more conductive than the [100] and [010] directions. The H 2 O‐enhanced ionic conductivity may contribute significantly to the electrical conductivity profile in the asthenosphere, especially in the regions under relatively high‐temperature and low‐pressure conditions.