Your search keyword '"N. V. Zamanov"' showing total 9 results

1. Characteristics of the three-half-turn-antenna-driven RF discharge in the Uragan-3M torsatron

Author

A. Ye. Kulaga, K. K. Tretiak, Yu.K. Mironov, L.I. Grigor'eva, R. O. Pavlichenko, N. V. Zamanov, I. K. Tarasov, D. L. Grekov, A. A. Kasilov, M. M. Kozulya, A. A. Beletskii, Vladimir E. Moiseenko, V. S. Romanov, V. S. Voitsenya, V.V. Chechkin, and A.V. Lozin

Subjects

Physics, Wavelength, Electron density, Physics and Astronomy (miscellaneous), Physics::Plasma Physics, RF power amplifier, Electron temperature, Plasma, Antenna (radio), Inductively coupled plasma, Electric current, Atomic physics, Condensed Matter Physics

Abstract

In the l = 3 Uragan-3M torsatron hydrogen plasma is produced by RF fields in the Alfven range of frequencies (ω ≤ ωci). The initial (target) plasma with the line-averaged density of units 1012 cm−3 is produced by a frame antenna with a broad spectrum of generated parallel wavenumbers. After this, to heat the plasma and bring its density to ~1013 cm–3, another, shorter wavelength three-half-turn antenna with large transverse currents is used. The behavior of the density, electron temperature, and loss of the plasma supported by the three-half-turn antenna is studied depending on the RF power fed to the antenna and initial values of the density and electron temperature supplied by the frame antenna.

Published

2015

2. The effect of an electrostatic field on runaway electrons in the Uragan-3M stellarator

Author

Vladimir E. Moiseenko, M. I. Tarasov, I. K. Tarasov, A. E. Kulaga, V.B. Korovin, R. O. Pavlichenko, I. E. Garkusha, V.K. Pashnev, N. V. Zamanov, M. A. Lytova, and D. A. Sitnikov

Subjects

Physics, Physics and Astronomy (miscellaneous), Astrophysics::High Energy Astrophysical Phenomena, Flux, law.invention, Nuclear physics, Runaway electrons, law, Electric field, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Atomic physics, Astrophysics::Galaxy Astrophysics, Stellarator

Abstract

The possibility of suppressing the flux of runaway electrons at the stage of their generation in an Uragan-3M stellarator has been experimentally studied and theoretically analyzed.

Published

2014

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

Author

I.M. Pankratov, A.A. Beletskii, V.L. Berezhnyj, P.Ya. Burchenko, V.V. Chechkin, L. I. Grigor'eva, D. Hartmann, R. Koch, V. G. Konovalov, A. Ye. Kulaga, G. G. Lesnyakov, A.V. Lozin, A.I. Lyssoivan, S.M. Maznichenko, Yu.K. Mironov, V.Ye. Moiseenko, V. K. Pashnev, A. A. Petrushenya, A. V. Prokopenko, V. S. Romanov, A. N. Shapoval, A.F. Shtan', D.A. Sitnikov, A.I. Skibenko, A.S. Slavnyj, S.I. Solodovchenko, E. L. Sorokovoy, Ye. L. Sorokovoy, O. M. Shvets, Yu. S. Stadnik, I. K. Tarasov, V. I. Tereshin, S. A. Tsybenko, N. V. Zamanov, and Ye. D. Volkov

Subjects

Materials science, Hydrogen, Plasma heating, Turbulence, chemistry.chemical_element, Plasma, Condensed Matter Physics, Ion, chemistry, Physics::Plasma Physics, Physics::Space Physics, Antenna (radio), Atomic physics, Rf discharge

Abstract

en wave plasma heating, turbulent transport suppression, H-like mode, wall conditioning, compact antenna for Alfv´ en heating. In the Uragan-3M (U-3M) and Uragan-2M (U-2M) torsatrons possibilities and prospects of Alfv´ en 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

Published

2010

4. Fast ion loss-driven H-mode transition in RF discharge plasmas of the Uragan-3M torsatron

Author

P. Ya. Burchenko, D. V. Kurilo, S. A. Tsybenko, L.I. Grigor'eva, N. V. Zamanov, A.S. Slavnyj, A. A. Beletskii, Ye. L. Sorokovoy, A. Ye. Kulaga, V.V. Chechkin, E. L. Sorokovoy, Yu. S. Lavrenovich, V. S. Romanov, Yu.K. Mironov, E.D. Volkov, and A.V. Lozin

Subjects

Physics, Work (thermodynamics), Range (particle radiation), Electron density, Physics and Astronomy (miscellaneous), Physics::Plasma Physics, Divertor, Orbit (dynamics), Outflow, Plasma, Atomic physics, Condensed Matter Physics, Ion

Abstract

In the l = 3 Uragan-3M (U-3M) torsatron with a helical divertor the plasma is produced and heated by RF field in the ω ≤ ωci range of frequencies. A two-temperature ion perpendicular energy distribution with a suprathermal tail sets in with heating. If the heating power is high enough, a spontaneous transition to an H-like confinement mode is observed. Recently, it has been supposed that the transition is connected with hotter and suprathermal ions (common name “fast ions“, FI) loss. The objective of this work is an experimental elucidation of the real link between the H-transition and FI loss. To do this, a transient regime of the RF discharge with two H-mode states is chosen, and the evolution is followed of electron density, FI content in the confinement volume, FI outflow to the divertor and edge potential. On the basis of juxtaposing of these processes, a conclusion is made that the H-mode transition in U-3M is really driven by FI loss. Possible mechanisms resulting in the transition are discussed, among them the ion orbit loss and the radial drift of helically-trapped ion orbits seem most probable.

Published

2009

5. Spectral and statistical analysis of fluctuations in the SOL and diverted plasmas of the Uragan-3M torsatron

Author

P. Ya. Burchenko, V. S. Romanov, A.S. Slavnyj, Ye. D. Volkov, E. L. Sorokovoy, L.I. Grigor'eva, A. Ye. Kulaga, N. V. Zamanov, S. A. Tsybenko, Yu.K. Mironov, Yu. S. Lavrenovich, V.V. Chechkin, A. A. Beletskii, Ye. L. Sorokovoy, and A.V. Lozin

Subjects

Physics, Toroid, Physics and Astronomy (miscellaneous), Turbulence, Divertor, Probability density function, Plasma, Low frequency, Condensed Matter Physics, Spectral line, Ion, Nuclear magnetic resonance, Physics::Plasma Physics, Atomic physics

Abstract

In the l = 3/m = 9 Uragan-3M (U3-M) torsatron (R0 = 1 m, ā ≈ 0.12 m, ι(ā)/2π ∼ 0.3) with an open helical divertor and a plasma produced and heated by RF fields (ω ≲ ωci), studies of low frequency (5–100 kHz) density and potential fluctuations in the SOL plasma and in the diverted plasma flows (DPFs), have been carried out. It is shown, that in the SOL to more (less) distantly located points relative to the last closed magnetic surface, higher (lower) frequency fluctuations are inherent. Such a spectral splitting in two sub-ranges occurs in the DPFs too. A peculiarity of the spatial distribution of DPF fluctuation spectra is that lower frequency fluctuations dominate on the ion toroidal B × ∇B drift side. During L-H-like transition in U-3M simultaneously with strong Er shear formation, a suppression of lower frequency fluctuations and a decrease of local radial turbulent particle flux take place. Results are presented of investigation of plasma density fluctuations in SOL with the use of probability distribution function (PDF) analysis. Evaluations of skewness and kurtosis of fluctuations have been made. The analysis of Is fluctuations in DPF have been carried out in a similar way.

Published

2009

6. Studies of fast ion outflow to the helical divertor of the U-3M torsatron

Author

S. A. Tsybenko, Yu. S. Lavrenovich, L.I. Grigor'eva, V.V. Chechkin, A. Ye. Kulaga, Yu.K. Mironov, E. L. Sorokovoy, V. S. Romanov, N. V. Zamanov, E.D. Volkov, P. Ya. Burchenko, A.S. Slavnyj, A.V. Lozin, A. A. Beletskii, Ye. L. Sorokovoy, and D. V. Kurilo

Subjects

Physics, Toroid, Field (physics), Mean free path, Divertor, media_common.quotation_subject, Plasma, Condensed Matter Physics, Asymmetry, Ion, Nuclear Energy and Engineering, Physics::Plasma Physics, Outflow, Atomic physics, media_common

Abstract

In the l=3 Uragan–3M torsatron with RF-produced and heated plasmas (ω ≲ ωci), a two-temperature ion distribution with a suprathermal tail is formed. Faster ions (FIs) can be the characteristic of reactor-size stellarators in the long mean free path regime. The presence of the helical divertor offers new opportunities for studying FI loss by measuring ion fluxes and energies in the divertor plasma. Ion energy distributions were measured in divertor flows in two symmetric poloidal cross-sections in several field periods. It is shown that FI flows out to the divertor mainly on the ion B×∇B drift side in accordance with the assumptions of a determinative FI contribution to the plasma divertor flow vertical asymmetry inherent to torsatrons/heliotrons. Strong toroidal non-uniformities in flows and energies of ions outflowing into the divertor are observed. The island structure of the U-3M magnetic configuration and locality of RF power injection are considered as possible reasons for these non-uniformities.

Published

2008

7. Observation of 20–400 kHz fluctuations in the U-3M torsatron

Author

R. O. Pavlichenko, M. Dreval, A.S. Slavnyj, Yu. V. Yakovenko, A. E. Kulaga, E. L. Sorokovoy, A. Hirose, and N. V. Zamanov

Subjects

Physics, Waves in plasmas, Electron, Plasma, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, Ion, Two-stream instability, Physics::Plasma Physics, Physics::Space Physics, 0103 physical sciences, Radio frequency, Atomic physics, 010306 general physics, Flattop, Excitation

Abstract

First observations of quasi-coherent fluctuations in the frequency range of 20–400 kHz in Alfven-wave-heated plasmas of the U-3M torsatron are presented. The excitation conditions of these modes depend on the radio frequency antenna type and the plasma density, the appearance of the modes correlating with the presence of both suprathermal electrons and high-energy ions in the plasma, which supports our opinion that the modes are excited by energetic particles. Complicated evolution of the mode frequencies with abrupt changes at the instants of plasma confinement transitions is observed at the initial stage of each discharge. The frequencies become stable at the stage of the plasma current flattop. Raw estimates show that toroidicity-induced Alfven eigenmodes could be responsible for the 150–400 kHz fluctuations. Low-frequency 20–70 kHz bursts are observed during plasma confinement transitions. The poloidal mode number of one of these bursts with the frequency of 20 kHz burst was determined to be m = 2. Th...

Published

2016

8. Progress in stellarator research in Kharkov IPP

Author

M N Makhov, M. M. Kozulya, A. A. Kasilov, M. I. Tarasov, V.D. Kotsubanov, N. B. Dreval, A.N. Shapoval, Ye.D. Kramskoi, A. E. Kulaga, V V Filippov, Vladimir E. Moiseenko, V.G. Konovalov, S.M. Maznichenko, I.M. Pankratov, R. O. Pavlichenko, A. F. Shtan, S. A. Tsybenko, A. A. Beletskii, N. V. Zamanov, V. S. Voitsenya, V. Ya. Chernyshenko, V.V. Chechkin, V.L. Berezhnyj, V.N. Bondarenko, A.S. Slavnyj, Yu.K. Mironov, Igor E. Garkusha, I. K. Tarasov, D. A. Sitnikov, L.I. Grigor'eva, V.B. Korovin, I. K. Nikolskij, A.V. Lozin, G G Lesnyakov, and V. S. Romanov

Subjects

Physics, Cyclotron, Electron, Fermion, Plasma, Condensed Matter Physics, Electromagnetic radiation, Atomic and Molecular Physics, and Optics, Computational physics, law.invention, Physics::Plasma Physics, law, Antenna (radio), Atomic physics, Radiant intensity, Mathematical Physics, Stellarator

Abstract

Recent results of the experimental program on the stellarator-type device Uragan-3M at the IPP in Kharkov are presented. Efforts were focused mainly on optimization of the operation of the frame-type radiofrequency antenna to produce a target plasma for the three-half-turn antenna. Different regimes of the Uragan-3M operation, which are characterized by different temporal behavior of the average plasma density, electron cyclotron emission radiation intensity and particle confinement time, are considered. Elementary atomic processes responsible for plasma creation are studied. The particle confinement time for the Uragan-3M plasmas is estimated. Measurements of energy spectra of charge exchange atoms are carried out. The principal possibility of realizing a 'stellarator–magnetic mirror' scheme as a prototype of a stellarator-mirror fusion–fission hybrid is shown for Uragan-2M. Future plans are discussed.

Published

2014

9. Characteristics of regular discharges in Uragan-3M torsatron

Author

V.N. Bondarenko, V.G. Konovalov, R. O. Pavlichenko, Yu. Kovtun, V. S. Romanov, N. V. Zamanov, Yu.K. Mironov, A. E. Kulaga, V. V. Nemov, A.V. Lozin, V. N. Kalyuzhnyj, A.N. Shapoval, Igor E. Garkusha, M. M. Kozulya, and Vladimir E. Moiseenko

Subjects

Materials science, Cyclotron, Plasma, Condensed Matter Physics, 01 natural sciences, Charged particle, 010305 fluids & plasmas, law.invention, Nuclear Energy and Engineering, law, Ionization, Electrical equipment, Harmonics, 0103 physical sciences, Electron temperature, Atomic physics, 010306 general physics, Stellarator