Персона:
Сорокин, Иван Александрович

Организационные подразделения

Организационная единица

Институт лазерных и плазменных технологий

Стратегическая цель Института ЛаПлаз – стать ведущей научной школой и ядром развития инноваций по лазерным, плазменным, радиационным и ускорительным технологиям, с уникальными образовательными программами, востребованными на российском и мировом рынке образовательных услуг.

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Сорокин

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Иван Александрович

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Теперь показываю 1 - 10 из 19

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ANALYSIS OF ION FLUXES IN LINEAR PLASMA DEVICES
(НИЯУ МИФИ, 2015) Sorokin, I. A.; Vizgalov, I. V.; Bidlevich, O. A.; Сорокин, Иван Александрович
Analysis of both ion mass-spectrum and plasma parameters is very important for plasma-surface interaction experiments to control discharge regime and ion composition. In linear plasma devices with a magnetic field, it is possible to apply a static mass-spectrometer using magnetic field of plasma device to ion separation with focusing at 180 or 360 degree.
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LEIS ANALYSIS OF THE W SURFACE DURING WATER VAPOR ADSORPTION
(НИЯУ МИФИ, 2017) Mamedov, N. V.; Kurnaev, V. A.; Sinelnikov, D. N.; Kolodko, D. V.; Sorokin, I. A.; Мамедов, Никита Вадимович; Колодко, Добрыня Вячеславич; Синельников, Дмитрий Николаевич; Сорокин, Иван Александрович
The adsorption of water on the surface is one of the main problems in vacuum technology. Since water is a good adsorbent, its adsorption is the reason that prevents the fast pumping of vacuum systems up to ultra-high vacuum. In addition, water vapor adsorption on metal surfaces during plasma surface interaction is a problem [1]. Singly scattered and recoil ions could form narrow peaks in energy spectra and provide information about atomic composition of the first atomic layer giving information about structure and composition of the surface and very sensitivity to the first layer of atoms [2 -5]. It was also shown [6] that the thickness of light element thin layers on the heavy substrate can be analyzed with good depth resolution (~0,3nm) due to scattering of hydrogen ions with keV energies. Application of ion scattering spectroscopy at pressures up to several mTorr is presented in [7, 8]. In this work experimental results of low energy ion spectroscopy (LEIS) of W samples during water vapor adsorption are presented.
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Built-In Surface Analyzer for Plasma Devices with Magnetic Field
(2019) Bulgadaryan, D. G.; Sinelnikov, D. N.; Sorokin, I. A.; Kurnaev, V. A.; Efimov, N. E.; Синельников, Дмитрий Николаевич; Сорокин, Иван Александрович; Ефимов, Никита Евгеньевич
© 2019, Pleiades Publishing, Ltd.The erosion and redeposition processes of plasma-facing materials in fusion devices are the most important factors affecting near-wall and core plasma parameters and device lifetime. To determine the possibility of in situ analyzing these processes, we developed an experimental model of a built-in surface analyzer utilizing low-energy proton scattering spectroscopy. The results of experimental approbation of the method are presented.
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Self-Oscillating Mode of a Probe with Increased Secondary Emission for Nonequilibrium Plasma Diagnostics
(2019) Vizgalov, I. V.; Gutorov, K. M.; Kurnaev, V. A.; Sorokin, I. A.; Гуторов, Константин Михайлович; Сорокин, Иван Александрович
© 2019, Pleiades Publishing, Ltd.A method of ion saturation current measurement in a nonequilibrium plasma by a self-oscillating voltage sweep on the probe is described. The generation of voltage pulses is possible if a high secondary electron emission from the probe surface is ensured, significantly exceeding unity at a moderate negative potential. The theoretical basis of the self-oscillating probe method has been considered, which made it possible to describe the ways for controlling the repetition rate and pulse amplitude and the effect of plasma parameters on the shape of current and voltage signals. It is shown that the features of the phase trajectory of the signal from the probe on the (U, I) plane allow one to determine the reference points of instantaneous probe characteristic, in particular, the ion saturation current. The results of experiments on testing the self-oscillating probe technique, which were carried out using the PR-2 plasma-beam facility, are presented.
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A new compact linear beam-plasma discharge simulator BPD-PSI
(2022) Sergeev, N. S.; Sorokin, I. A.; Podolyako, F. S.; Сергеев, Никита Сергеевич; Сорокин, Иван Александрович; Подоляко, Федор Сергеевич
A new BPD-PSI line-type plasma simulator is introduced. The device features two vacuum units: a target unit and an electron gun unit, connected to each other by a water-cooled electron beam transport channel. The Pierce-type electron gun is used to generate stationary or pulsed electron beam, utilized for beam-plasma discharge generation. The plasma electron density can be varied in the range of n e = 1 × 1016 - 1 × 1018 m-3 with electron temperature in the range of T e = 1-20 eV. The ion flux of 1 × 1021 m-2 s-1 and heat fluxes up to 5 MW m-2 are obtained. A set of utilized plasma and plasma-surface interaction diagnostics are described. Five demonstration experiments are presented: 1) high vs low power beam-plasma operation, 2) beam-plasma discharge with/without presence of an external magnetic field, 3) incident ion flux composition analysis, 4) incident ion energy distribution function measurement, 5) in-situ target surface temperature control and in-vacuo thermal desorption spectroscopy measurement. All of the technical features of the setup described in this paper make it a new tool for studying plasma-surface interactions. © 2022 IOP Publishing Ltd and Sissa Medialab.
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Etching of "Microwire-on-Insulator"-Type Structures
(2022) Shustin, E. G.; Kolodko, D. V.; Luzanov, V. A.; Mirgorodskaya, E. N.; Sorokin, I. A.; Колодко, Добрыня Вячеславич; Сорокин, Иван Александрович
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Numerical Simulation of the Instability of the Current between Plasma and a High Emissivity Surface
(2022) Sorokin, I. A.; Сорокин, Иван Александрович
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Measurements of secondary electron emission yield in the linear plasma simulator BPD-PSI
(2023) Sorokin, I. A.; Sergeev, N. S.; Сорокин, Иван Александрович; Сергеев, Никита Сергеевич
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Planar hollow cathode sputtering with asymmetrical voltage supply
(2023) Sorokin, I. A.; Kolodko, D. V.; Сорокин, Иван Александрович; Колодко, Добрыня Вячеславич
This article studies a planar hollow cathode discharge (HCD) with an asymmetric negative potential applied to parallel cathodes. The hollow cathode effect is preserved when an additional high voltage bias is applied to one of cathodes. For the argon pressures of 15, 20 and 60 Pa, the current-voltage characteristics of the HCD were obtained with an extra bias voltage applied on the iron cathode/target. The paper describes the sputtering system based on a HCD, consisting of two cathodes: a flat target and a tungsten mesh located at a distance of 7 mm, through which the deposited material passes. At the argon pressure of 40 Pa, the dynamics of the local plasma parameters and the iron deposition rate on a substrate under floating potential located at a distance of 40 mm from the grid were measured. The asymmetrical voltage supply in hollow cathode sputtering lead to a significant increase in the iron sputtering rate (from 2 to 16 nm/min), which is associated with both an increase in the plasma density and the sputtering coefficient of the target material. Sputtering system based on a planar HCD is advantageous due to the absence of magnetic field, which facilitates deposition of soft magnetic materials. © 2022 Elsevier Ltd
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Vertical stray field measurements using an electron beam in the MEPhIST-0 tokamak
(2024) Vinitskiy, E. A.; Efimov, N. E.; Prishvitsyn, A. S.; Sorokin, I. A.; Krat, S. A.; Виницкий, Егор Александрович; Ефимов, Никита Евгеньевич; Пришвицын, Александр Сергеевич; Сорокин, Иван Александрович; Крат, Степан Андреевич