V. L. Berezhnyj scite author profile

V. L. Berezhnyj

5Publications

64Citation Statements Received

28Citation Statements Given

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Affiliations

Kharkiv Institute of Physics and Technology

Publications

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RF plasma production and heating below ion-cyclotron frequencies in Uragan torsatrons

Moiseenko¹,

Berezhnyj²,

Bondarenko³

et al. 2011

Nucl. Fusion

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In the IPP-Kharkiv there are two torsatrons (stellarators) in operation, and in both of them Alfvén resonance heating under high-k ∥ conditions is used. This method of heating is advantageous for small-size devices, since in contrast to the minority and second-harmonic heating it can be realized at lower plasma densities. A series of experiments has been performed at the Uragan-3M torsatron with an aim to investigate the features of the discharge with a three-half-turn antenna. Electron temperatures in the range are achieved at plasma densities . The plasma energy content has increased by a factor of 2 with respect to the plasma produced with the frame antenna. A new four-strap shielded antenna has been manufactured and installed in the Uragan-2M. A high-frequency discharge for wall conditioning is introduced in the Uragan-2M torsatron. The discharge is sustained by a specially designed small frame antenna, and efficient hydrogen dissociation is achieved. A self-consistent model has been developed for simulation of plasma production in ICRF. The model includes a set of particle and energy-balance equations for the electrons, and the boundary problem for the Maxwell equations. The first calculation results on RF plasma production in the Uragan-2M stellarator with the frame-type antenna are presented.

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Simulation of environment effects on retroreflectors in ITER

Voitsenya

Donné

Bardamid

et al. 2005

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Two plasma diagnostics in ITER will use cube-corner reflectors (CCR): poloidal polarimetry and toroidal interferometry/polarimetry. The multichannel poloidal polarimetry system is planned to operate at a wavelength of 118.8μm. The multichannel toroidal interferometry/polarimetry system is based on a CO2 laser operating at wavelengths of 10.6 and 9.27μm. The long term sputtering by charge exchange atoms and/or deposition of carbon-based (or beryllium-based) contaminant layers can affect the optical properties of the CCR. The role of both these potentially deleterious effects on the CCR operation is analyzed in this article, taking into account the probing beam wavelength and the CCR locations. The conclusion is that for the intended use of a CCR in the poloidal polarimetry at 118μm neither erosion nor deposition should pose a problem. On the other hand, in the toroidal interferometry/polarimetry system operating at 10μm, care must be taken to reduce the charge exchange atom flux and it is likely that deposition will occur and could have deleterious effects especially on the polarization properties of the reflected radiation.

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Behavior of RF Discharge Plasmas in the Uragan‐3M and Uragan‐2M Torsatrons

Pankratov¹,

Beletskii

Berezhnyj

et al. 2010

Contrib. Plasma Phys.

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In the Uragan‐3M (U‐3M) and Uragan‐2M (U‐2M) torsatrons possibilities and prospects of Alfvén method utilization for wall conditioning, plasma production and heating are studied. In U‐3M the effect of fast ion loss on H‐like mode formation is investigated. In U‐2M the wall conditioning associated with the chemical reactivity of the atomic hydrogen to create volatile substances is used. A compact four‐strap antenna is proposed for Alfvén resonance heating in U‐2M (© 2010 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)

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Progress in stellarator research in Kharkov IPP

Voitsenya¹,

Shapoval²,

Pavlichenko³

et al. 2014

Phys. Scr.

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Serviceability of using the carbon–graphite materials for inner elements of microwave diagnostic for large fusion devices

Berezhnyj

Fomin

Ocheretenko

et al. 1999

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As an alternative to metal-made inner elements of MM and subMM diagnostics (antennae, reflectors, waveguides) we propose the elements fabricated of carbon–graphite materials (CGM). A comparative study of antennae and reflectors made of CGM and metal for 30–150 GHz in MM and for subMM ranges was carried out under the influence of pulsed plasma streams and heating up to 1000 °C. The effect of neutron irradiation on reflectivity at 337 μm was studied as well. The obtained data demonstrated that CGM can be used as material for fabricating the above mentioned inner diagnostic components in those large-scale fusion devices where similar materials are in use for the first wall protection. The Fabry–Perot type resonator with spherical CGM-made mirrors showed rather good characteristics, and can be used for measuring plasma properties in a divertor flow.

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V. L. Berezhnyj

RF plasma production and heating below ion-cyclotron frequencies in Uragan torsatrons

Simulation of environment effects on retroreflectors in ITER

Behavior of RF Discharge Plasmas in the Uragan‐3M and Uragan‐2M Torsatrons

Progress in stellarator research in Kharkov IPP

Serviceability of using the carbon–graphite materials for inner elements of microwave diagnostic for large fusion devices

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