О. А. Нефедова scite author profile

О. А. Нефедова

5Publications

53Citation Statements Received

111Citation Statements Given

How they've been cited

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105

Affiliations

Institute of Engineering Science, Ural Branch of the Russian Academy of Sciences

Publications

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Quantum Diffusion of Deuterium in Sodium

et al. 2019

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The online nuclear reaction analysis technique has been applied to study the temperature dependence of deuterium diffusion coefficients for deuterium in sodium at temperatures ranging between 110 and 240 K, and at cryogenic temperatures, below 160 K, tunneling of deuterium atoms in the metal lattice has been observed. Above 160 K, diffusion occurs by the classical mechanism of overbarrier atomic jumps. Results of quantum diffusion of deuterium in a metal have been obtained for the first time; they used to be known only for the lightest hydrogen isotope, protium, in niobium and tantalum. The analysis has shown that the necessary condition for carrying out the quantum mechanism of deuterium migration is low Debye temperature of a metal, below 200 K. Experimental data on diffusion of hydrogen isotope in an alkali metal have also been obtained for the first time in this paper.

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First Observation of Quantum Diffusion in Non-Cubic Metal: Deuterium Diffusion in In

Выходец

Нефедова

Куренных

et al. 2023

Metals

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Diffusion of deuterium in indium is studied herein. In the temperature range 200–350 К, mass transfer is controlled predominantly by the mechanism of overbarrier atomic jumps; at temperatures from 80 to 120 К, by tunneling; whereas in the range from 120 to 200 К, there takes place a gradual transition from one migration mechanism to the other. These results are of fundamental significance since it is shown for the first time that quantum diffusion can be observed in a metal with a crystal lattice other than the body centered cubic one. Conditions are specified that are necessary for the observation of quantum diffusion of hydrogen: low values of Debye temperature, density of atomic packing in the lattice, and distance between the nearest equilibrium positions of hydrogen atoms. Moreover, data on the influence of point defects on hydrogen tunneling in solids are gained for the first time as well. The quantum diffusion coefficient is twice as high in the sample with enhanced vacancy concentration.

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Application of the Nuclear Reaction Analysis Online Technique to Study the Diffusion of Deuterium in Metals

Выходец¹,

Нефедова

Obukhov³

et al. 2018

Jetp Lett.

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Solution of the Problem of Initiating the Heat Wave for a Nonlinear Heat Conduction Equation Using the Boundary Element Method

Казаков

Нефедова

Спевак

2019

Comput. Math. and Math. Phys.

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Debye Temperature and Quantum Diffusion of Hydrogen in Body-Centered Cubic Metals

et al. 2022

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Diffusion of deuterium in potassium is studied herein. Mass transfer is controlled predominantly by the mechanism of overbarrier atomic jumps at temperatures 120–260 K and by the tunneling mechanism at 90–120 K. These results together with literature data allowed us to determine conditions under which the quantum diffusion of hydrogen in metals can be observed, which is a fundamental problem. It is established that in metals with a body-centered cubic lattice tunneling can be observed only at temperatures below the Debye temperature θD solely for metals with θD < 350 K. Predictions are made for metals in which quantum diffusion of hydrogen can be experimentally registered. Metals for which such results cannot be obtained are specified as well. Among them are important engineering materials such as α-Fe, W, Mo, V, and Cr.

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