A.L. Samgin scite author profile

Based on a sticking-probability formulation, we have considered a breakdown of absolute rate theory in relation to prefactor anomalies in superionic conductors in the case of arbitrary energy losses of ions. We present simulation results concerning the prefactor dependence on the magnitude of the average energy loss in the energytransfer range from 10 −3 to 0.46 kT and the energy dependence of the sticking probability for ions.

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On a Stochastic Theory of Ion Transfer at Intermediate Damping

Samgin

2005

Russ J Electrochem

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The stochastic method, which was formulated earlier by Gurevich and Kharkats on the basis of a classic solution of the Fokker-Planck equation in a phase space of coordinates and momenta, is developed to extend it to the case of intermediate damping. In contradistinction to the Gurevich-Kharkats model, the new theory is based on the Fokker-Planck equation in the energy-action coordinates. Analytical expressions for the exchange current and conductance are derived. The expressions are valid in a broad damping regime. As compared with the Gurevich-Kharkats model, the expression for the exchange current contains an additional factor, which depends on the energy losses sustained by the ion upon its collision with the cage of a crystal lattice. An explanation for the isotope effect in the high-temperature protonic conductors is suggested. It is demonstrated that the friction coefficient for these solid electrolytes may correspond to the underdamped-to-intermediatedamping regime. This fact makes it possible to put forth an explanation for the existing contradictions between their properties and simple hopping models, which ignore the interaction of ions with the crystal lattice.

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A model for anomalous penetration of “hot” deuterium in proton conductors

Samgin

2002

Solid State Ionics

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A.L. Samgin

Lattice-assisted proton motion in perovskite oxides

A statistical theory of the isotope effect in proton conducting oxides

Simulation of prefactor anomalies in superionic conductors in the case of arbitrary energy losses

On a Stochastic Theory of Ion Transfer at Intermediate Damping

A model for anomalous penetration of “hot” deuterium in proton conductors

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