Your search keyword '"N.A. Khromov"' showing total 15 results

1. The first observation of the hot ion mode at the Globus-M2 spherical tokamak

Author

G.S. Kurskiev, I.V. Miroshnikov, N.V. Sakharov, V.K. Gusev, Yu.V. Petrov, V.B. Minaev, I.M. Balachenkov, N.N. Bakharev, F.V. Chernyshev, V.Yu. Goryainov, A.A. Kavin, N.A. Khromov, E.O. Kiselev, S.V. Krikunov, K.M. Lobanov, A.D. Melnik, A.N. Novokhatskii, S.V. Filippov, N.S. Zhiltsov, A.B. Mineev, E.E. Mukhin, M.I. Patrov, A.V. Petrov, A.M. Ponomarenko, V.V. Solokha, K.D. Shulyatiev, P.B. Shchegolev, O.M. Skrekel, A.Yu. Telnova, E.E. Tkachenko, E.A. Tukhmeneva, V.A. Tokarev, S.Yu. Tolstyakov, V.I. Varfolomeev, A.V. Voronin, A.Yu. Yashin, V.A. Solovey, and E.G. Zhilin

Subjects

Nuclear and High Energy Physics, Condensed Matter Physics

Abstract

Hot ion mode was recently achieved at the Globus-M2 spherical tokamak when the toroidal magnetic field was as high as 0.9 T and plasma current 0.35 MA. The injection of two neutral beams with a total power of 0.7 MW and an energy of 30 keV into a plasma with major radius 0.36 m and minor radius 0.22 m (aspect ratio 1.6) made it possible to heat the plasma ions up to 4 keV, while electron density in the plasma center was as high as 8 × 1019 m−3. The achievement of high temperatures became possible due to the good thermal insulation of the plasma.

Published

2022

2. Globus-M plasma edge modeling with B2SOLPS5.2 code

Author

G. S. Kurskiev, V. A. Rozhansky, E. G. Kaveeva, N.A. Khromov, M. I. Patrov, I. Senichenkov, Globus-M Team, and E. O. Vekshina

Subjects

Range (particle radiation), Materials science, Tokamak, Divertor, Energy flux, Plasma, Edge (geometry), Radiation, Condensed Matter Physics, 01 natural sciences, 010305 fluids & plasmas, law.invention, Nuclear Energy and Engineering, Heat flux, law, 0103 physical sciences, Atomic physics, 010306 general physics

Abstract

The edge plasma of five Globus-M discharges was modeled by the B2SOLPS5.2 code. Plasma current varied in 114–198 kA range, and all discharges were in the H-mode. The modeled scrape-off layer (SOL) width appeared to be inversely proportional to the plasma current. Such a relation is observed in many other tokamaks. Heat flux to the outer divertor target and radiation power was examined for these discharges. Radiation was found to be responsible for 40% of the energy loss. Energy flux to the low outer divertor target was about 1/3 of the energy loss in the single-null low X-point discharges.

Published

2016

3. Integrated modelling of the Globus-M tokamak plasma and a comparison with SOL width scaling

Author

S. P. Voskoboynikov, I. Yu. Senichenkov, E. G. Kaveeva, A. Gogoleva, V. K. Gusev, G. Zadvitskiy, V. A. Rozhansky, N.A. Khromov, E.O. Vekshina, P. Molchanov, and S.A. Lepikhov

Subjects

Physics, Nuclear and High Energy Physics, Tokamak, Thomson scattering, Divertor, Plasma, Spherical tokamak, Condensed Matter Physics, law.invention, Magnetic field, Computational physics, symbols.namesake, Physics::Plasma Physics, law, symbols, Langmuir probe, Scaling

Abstract

Recently a scheme for the coupling of the one-dimensional core transport code ASTRA and the two-dimensional edge transport code B2SOLPS was developed, thus providing the integrated modelling of tokamak discharge. Here, this scheme is improved by taking impurities into account and by considering a real flux surface shape using the equilibrium code SPIDER. This integrated modelling is applied to discharges of the spherical tokamak Globus-M to study the dependence of the scrape-off layer (SOL) width and divertor heat loads on the discharge power and the plasma current. Since these values, together with the magnetic field, are relatively small in Globus-M, this study can test the existing scaling against data in a wider range of tokamak operational parameters. The modelling results agree reasonably with Thomson scattering and Langmuir probe measurements and allow, in principle, the determination of the physical mechanisms responsible for the SOL structure formation. It is found that the SOL width is approximately inversely proportional to the plasma current, in agreement with existing experimental scaling, while its dependence on discharge power is found to be quite weak.

Published

2015

4. Investigation of beam– and wave–plasma interactions in spherical tokamak Globus-M

Author

I. N. Chugunov, A.A. Berezutskiy, V. I. Varfolomeev, K. A. Podushnikova, F. V. Chernyshev, V. K. Gusev, A. V. Petrov, A.B. Mineev, A. E. Ivanov, N.A. Khromov, V. V. Bulanin, E. E. Mukhin, A. V. Voronin, A. Yu. Yashin, O. N. Shcherbinin, V. V. Dyachenko, R.M. Aminov, M. I. Mironov, S. A. Khitrov, M. I. Patrov, I. Yu. Senichenkov, V.A. Yagnov, V.V. Rozhdestvensky, A. D. Melnik, V. B. Minaev, A.N. Novokhatsky, G. S. Kurskiev, N. V. Sakharov, A. Yu. Stepanov, V. A. Rozhansky, Yu. V. Petrov, E.G. Zhilin, A. E. Shevelev, I.V. Miroshnikov, A.V. Dech, S. Yu. Tolstyakov, A. A. Panasenkov, and M. M. Larionov

Subjects

Physics, Nuclear and High Energy Physics, Range (particle radiation), Dense plasma focus, Physics::Plasma Physics, Electron temperature, Plasma, Atomic physics, Spherical tokamak, Condensed Matter Physics, Neutral particle, Neutral beam injection, Beam (structure)

Abstract

The experimental and theoretical results obtained in the last two years on the interaction of neutral particle beams and high-frequency waves with a plasma using the spherical tokamak Globus-M are discussed. The experiments on the injection of low-energy proton beam of ~300 eV directed particle energy are performed with a plasma gun that produces a hydrogen plasma jet of density up to 3 × 1022 m−3 and a high velocity up to 250 km s−1. A moderate density rise (up to 30%) is achieved in the central plasma region without plasma disruption. Experiments on high-energy (up to 30 keV) neutral beam injection into the D-plasma are analysed. Modelling results on confinement of fast particles inside the plasma column that follows the neutral beam injection are discussed. The influence of the magnetic field on the fast particle losses is argued. A neutral beam injection regime with primary ion heating is obtained and discussed. The new regime with fast current ramp-up and early neutral beam injection shows electron temperature rise and formation of broad Te profiles until the q = 1 flux surface enters the plasma column. An energetic particle mode in the range of frequencies 5–30 kHz and toroidal Alfven eigenmodes in the range 50–300 kHz are recorded in that regime simultaneously with the Te rise. The energetic particle mode and toroidal Alfven eigenmodes behaviour are discussed. The toroidal Alfven eigenmode spectrum appears in Globus-M as a narrow band corresponding to n = 1. The first experimental results on plasma start-up and noninductive current drive generation are presented. The experiments are carried out with antennae providing mostly poloidal slowing down of waves with a frequency of 920 MHz, which is higher than a lower hybrid one existing under the experimental conditions. The high current drive efficiency is shown to be high (of about 0.25 A W−1), and its mechanism is proposed. Some near future plans of the experiments are also discussed.

Published

2011

5. Overview of results obtained at the Globus-M spherical tokamak

Author

I.I. Arkhipov, V. B. Minaev, E. E. Mukhin, M.I. Mironov, A.A. Panasenkov, V.V. Rozhdestvensky, S. A. Khitrov, I. N. Chugunov, F.V. Chernyshev, V. K. Gusev, B. Ya. Ber, A.G. Barsukov, V.Kh. Alimov, N.V. Litunovsky, O. N. Shcherbinin, N. V. Sakharov, S. Yu. Tolstyakov, S.E. Aleksandrov, M. I. Patrov, I. Yu. Senichenkov, I.V. Mazul, A.P. Zakharov, E. I. Terukov, M.M. Kochergin, A.V. Dech, V. M. Leonov, E.V. Suhov, G.N. Tilinin, A.E. Gorodetsky, V.M. Lebedev, A.B. Mineev, V. I. Varfolomeev, A. V. Voronin, I.N. Trapesnikova, B.B. Ayushin, K. A. Podushnikova, Yu. V. Petrov, R. Kh. Zalavutdinov, V.A. Yagnov, V.E. Golant, A. E. Shevelev, I.V. Miroshnikov, A.N. Novokhatsky, G. S. Kurskiev, M. P. Petrov, V. A. Rozhansky, E.G. Zhilin, V. V. D’yachenko, Yu. A. Nikolaev, E.A. Kuznetsov, and N.A. Khromov

Subjects

Nuclear and High Energy Physics, Tokamak, Materials science, Plasma parameters, Divertor, Plasma, Spherical tokamak, Condensed Matter Physics, Thermal diffusivity, Neutral beam injection, Ion, law.invention, law, Atomic physics

Abstract

Experiments and simulations to achieve high values of plasma parameters at the Globus-M spherical tokamak (ST) at moderate absolute auxiliary heating power (up to 0.8 MW) and high specific heating power (up to 2–3 MW m−3) are described. Important distinguishing features are the low edge safety factor range, which is unusual for STs, 2.7 < q < 5 and small plasma–outer wall space (3–5 cm). High ion heating efficiency with neutral beam injection (NBI) was demonstrated. Results of numerical simulation of fast ion trajectories are described and fast ion generation during the NBI and ion cyclotron resonance heating is discussed. Investigations on their confinement and slowing down are also presented. Reasons for achievement of high IC heating efficiency are outlined. Reliable H-mode regime achievement is described. Transport ASTRA modelling demonstrated that during NB heated H-mode ion heat diffusivity remains neoclassical and the particle diffusion coefficient inside transport barrier decreases significantly. Analysis was performed of divertor tile and special probe surfaces after irradiation by plasma during a large number of shots (3000–10 000 shots). Mixed layer composition is measured and deuterium retention in different tokamak first wall areas is estimated. Plasma jet injection experiments with upgraded plasma jet are described. Jet penetration to the plasma centre with immediate increase of density and temperature drop is proved and analogy with pellet injection is outlined.

Published

2009

6. In-vessel surface layer evolution during plasma–wall interaction in the Globus-M spherical tokamak

Author

A.N. Novokhatsky, I.N. Trapeznikova, N.V. Litunovsky, Yu. A. Nikolaev, A.E. Gorodetsky, I.I. Arkhipov, Yu. V. Petrov, I.V. Mazul, A.P. Zakharov, A.A. Kurdumov, V.Kh. Alimov, R. Kh. Zalavutdinov, V.M. Lebedev, N. V. Sakharov, E. I. Terukov, V. K. Gusev, B. Ya. Ber, and N.A. Khromov

Subjects

Nuclear and High Energy Physics, Tokamak, Materials science, Thermal desorption spectroscopy, Scanning electron microscope, Analytical chemistry, Plasma, Spherical tokamak, Condensed Matter Physics, law.invention, Deuterium, law, Graphite, Surface layer, Atomic physics

Abstract

The composition, morphology and structure of the mixed layers deposited onto the surface (deposits) after a preliminary carboboronization procedure (B/C : H layers deposition) and subsequent plasma–wall interaction in the different areas of the Globus-M spherical tokamak have been analysed. Globus-M is almost completely covered by recrystallized graphite protection tiles (currently about 90% of its inner vessel area facing to plasma). The deposit properties were examined by different diagnostic techniques (electron probe microanalysis, scanning electron microscope, x-ray diffraction, nuclear resonance reactions, thermal desorption spectroscopy, infrared Raman scattering and secondary ion mass spectroscopy) after sample exposure to plasma during 3000–10000 tokamak pulses. It was found that deposits existed even in high flux regions (separatrix strike points). The initial composition of the protective layers formed during boronization is dramatically modified during long-term plasma–wall interaction and resulted in significant intermixing of its components with materials of the vessel interior. The properties of the layers deposited onto the surfaces intensively interacting with plasma, as well as the composition of the layers deposited in the ‘shadowed’ zones are discussed. Deuterium retention in Globus-M was estimated relying upon the data on deuterium concentrations in the deposits that were measured by different methods. It is revealed that deuterium was absorbed only in the deposits and its concentration vanished in the bulk of the tiles. Conditions of deuterium desorption are analysed and the merits of recrystallized graphite are discussed.

Published

2009

7. The study of filaments by the Doppler backscattering method in the ‘Globus-M’ tokamak.

Author

V.V. Bulanin, V.K. Gusev, N.A. Khromov, G.S. Kurskiev, V.B. Minaev, M.I. Patrov, A.V. Petrov, M.A. Petrov, Yu.V. Petrov, D. Prisiazhniuk, N.V. Sakharov, S.Yu. Tolstyakov, and A.Yu. Yashin

Subjects

FUSION reactors, FIBERS, BACKSCATTERING

Abstract

Investigation of filamentary structures was performed on the spherical tokamak Globus-M by the Doppler backscattering (DBS) method. Filaments were detected in the H-mode regime both during the edge localized mode event and in the periods between them. They manifested themselves as bursts of quasi-coherent fluctuations (BQFs) of the output signals of the DBS quadrature detector. To confirm BQF appearing due to backscattering from a moving filament, special experiments were carried out with two DBS systems located at different poloidal angles. Using the new filament research method one could evaluate their velocity, mode number, and radial and poloidal positions. Using this technique, it was possible to estimate the size of the filaments. Experiments have shown that the filaments move predominantly in the direction of the electron diamagnetic drift with a velocity exceeding the velocity of background small-scale fluctuations. Filaments were recorded more frequently when the density gradient on the plasma periphery increased. [ABSTRACT FROM AUTHOR]

Published

2019

8. Thermal energy confinement at the Globus-M spherical tokamak.

Author

G.S. Kurskiev, N.N. Bakharev, V.V. Bulanin, F.V. Chernyshev, V.K. Gusev, N.A. Khromov, E.O. Kiselev, V.B. Minaev, I.V. Miroshnikov, E.E. Mukhin, M.I. Patrov, A.V. Petrov, Yu.V. Petrov, N.V. Sakharov, P.B. Shchegolev, A.D. Sladkomedova, V.V. Solokha, A.Yu. Telnova, S.Yu. Tolstyakov, and V.A. Tokarev

Subjects

FUSION reactors, PLASMA currents, MAGNETIC fields, TOKAMAKS, HEAT

Abstract

The paper is devoted to the thermal energy confinement study at the compact spherical tokamak Globus-M. The regression fit of the database for the H-mode plasma was performed. The energy confinement time (τE) dependence on toroidal magnetic field BT is very strong. However the τE dependence on plasma current Ip is weaker than conventional scaling IPB98(y,2) predicts. The BTτE dependence on ν* is significantly stronger than in ITER scaling, but weaker than those obtained at NSTX and MAST spherical tokamaks. [ABSTRACT FROM AUTHOR]

Published

2019

9. The effect of increasing toroidal magnetic field in the Globus-M spherical tokamak.

Author

N.N. Bakharev, F.V. Chernyshev, V.K. Gusev, N.A. Khromov, E.O. Kiselev, G.S. Kurskiev, A.D. Melnik, V.B. Minaev, M.I. Mironov, I.V. Miroshnikov, M.I. Patrov, Yu.V. Petrov, N.V. Sakharov, P.B. Shchegolev, A.D. Sladkomedova, V.V. Solokha, A.Yu. Telnova, V.A. Tokarev, S.Yu. Tolstyakov, and V.V. Bulanin

Subjects

TOROIDAL plasma, MAGNETIC fields, TOKAMAKS, NEUTRONS, PLASMA Alfven waves

Abstract

In the final Globus-M experimental campaign Btor and Ip were raised by 25% up to 0.5 T and 250 kA, respectively, expanding available range of experimental parameters. In these experiments an overall improvement in plasma performance was observed, plasma total stored energy and neutron rate increased significantly. The energy confinement time dependence on Btor and ne was close to linear. L-H transition threshold was 5–10 times higher than threshold predicted by the scaling. Despite the small plasma-wall distance, the level of radiation losses in the main plasma volume was relatively small and decreased as Btor rised. An increase in Btor and Ip led to a decrease in the sawtooth-induced losses. While a rise in the plasma current led to a decrease of fast ion losses per TAE burst at the same amplitude; frequency of bursts and their amplitude increased. Doppler backscattering, applied to study TAE localization for the first time, revealed that TAE fluctuations are localized in the region of normalized minor radii ρ  =  0.5–0.75. A new movable 9-pin head probe provided data, necessary for power decay length scaling investigation. Significant power decay length contraction, stronger than predicted by Eich’s scaling, was observed. [ABSTRACT FROM AUTHOR]

Published

2018

10. Spherical tokamak Globus-M2: design, integration, construction.

Author

V.B. Minaev, V.K. Gusev, N.V. Sakharov, V.I. Varfolomeev, N.N. Bakharev, V.A. Belyakov, E.N. Bondarchuk, P.N. Brunkov, F.V. Chernyshev, V.I. Davydenko, V.V. Dyachenko, A.A. Kavin, S.A. Khitrov, N.A. Khromov, E.O. Kiselev, A.N. Konovalov, V.A. Kornev, G.S. Kurskiev, A.N. Labusov, and A.D. Melnik

Subjects

TOKAMAKS -- Design & construction, PLASMA confinement, MAGNETIC fields, PARAMETER estimation, ELECTRIC currents

Abstract

The Globus-M spherical tokamak has demonstrated practically all of the project objectives during the 15-year period of operation. The main factor limiting further progress in plasma performance is a relatively low toroidal magnetic field. The maximum toroidal magnetic field achieved on Globus-M was 0.4 T with the exception of a limited number of shots with 0.55 T, which led to damage of the toroidal field coil in 2002. The increase of the magnetic field up to 1.0 T together with the plasma current up to 0.5 MA will result in the significant enhancement of the operating parameters in the upgraded Globus-M2 machine. The experimental program will be focused on plasma heating and non-inductive current drive and will contribute to the creation of a physical and technological base for the compact fusion neutron source development. In the article a brief overview of the physical background for the machine upgrade is outlined. The current status of the project implementation is described. First experimental results on moderate magnetic field increase from 0.4 T up to 0.5 T in the existing Globus-M machine are discussed. The improvement of plasma confinement as well as enhancement of efficiency of the beam driven current is observed. [ABSTRACT FROM AUTHOR]

Published

2017

11. Geodesic acoustic mode investigation in the spherical Globus-M tokamak using multi-diagnostic approach.

Author

V.V. Bulanin, V.K. Gusev, A.D. Iblyaminova, N.A. Khromov, G.S. Kurskiev, V.B. Minaev, M.I. Patrov, A.V. Petrov, Yu.V. Petrov, N.V. Sakharov, P.B. Shchegolev, S.Yu. Tolstyakov, V.I. Varfolomeev, F. Wagner, and Yu. Yashin

Subjects

OSCILLATIONS, GEODESICS, ELECTRIC fields, PLASMA density, MAGNETIC fields, TURBULENCE

Abstract

The results of a multi-diagnostic approach for geodesic acoustic mode (GAM) studies in the spherical torus Globus-M are presented. The GAM oscillations of radial electric field, plasma density and magnetic field were simultaneously observed. The spatial structures of crucial plasma parameters are exhibited and discussed. The intermittent character of the GAM manifests itself as a modulation at two time-scales: equilibrium time scale and the characteristic time for limit-cycle oscillations. The mutual influence of GAM oscillations and turbulence is demonstrated by bicoherence analysis. [ABSTRACT FROM AUTHOR]

Published

2016

12. The first lower hybrid current drive experiments in the spherical tokamak Globus-M.

Author

V.V. Dyachenko, O.N. Shcherbinin, E.Z. Gusakov, V.K. Gusev, M.A. Irzak, G.S. Kurskiev, Yu.V. Petrov, A.N. Saveliev, N.V. Sakharov, S.A. Khitrov, N.A. Khromov, V.I. Varfolomeev, and A.V. Voronin

Subjects

CURRENT-drive heating, TOKAMAKS, WAVEGUIDES, ELECTRICAL conductors, MICROWAVE transmission lines

Abstract

First experiments on non-inductive current drive (CD) in the spherical tokamak using lower hybrid (LH) waves at 2.45 GHz are described. The basic characteristics of the new experimental approach utilizing poloidal LH wave slowing-down scheme obtained by modeling are presented at the beginning of the paper. The experimental results for a poloidal slowing-down scheme are described. The CD efficiency comparable or even higher than theoretically predicted is demonstrated in the experiment using a 10 waveguide grill with 120° phase shift between neighboring waveguides. [ABSTRACT FROM AUTHOR]

Published

2015

13. Review of Globus-M spherical tokamak results.

Author

V.K. Gusev, N.N. Bakharev, V.A. Belyakov, B.Ya. Ber, E.N. Bondarchuk, V.V. Bulanin, A.S. Bykov, F.V. Chernyshev, E.V. Demina, V.V. Dyachenko, P.R. Goncharov, A.E. Gorodetsky, E.Z. Gusakov, A.D. Iblyaminova, A.A. Ivanov, M.A. Irzak, E.G. Kaveeva, S.A. Khitrov, M.V. Khokhlov, and N.A. Khromov

Subjects

WAVEGUIDES, PHASE shift (Nuclear physics), SCATTERING (Physics), PLASMA density, MAGNETIC fields

Abstract

The first experiments on noninductive current drive (CD) using lower hybrid waves in a spherical tokamak are described. Waves at 2.45 GHz were launched by a 10 waveguide grill with 120° phase shift between neighbouring waveguides. The experimental results for a novel poloidal slowing-down scheme are described. The CD efficiency is found to be somewhat larger than that predicted theoretically whilst at the same time being somewhat less than that for standard tokamak lower hybrid CD. Geodesic acoustic modes (GAM) have been discovered in Globus-M. GAMs are localized 2–3 cm inside the separatrix. The GAM frequency agrees with theory. The mode structures of plasma density and magnetic field oscillation at the GAM frequency have been studied. Fast particle confinement during neutral beam injection has been investigated and numerically simulated. Alfvén instabilities excited by fast particles were detected by a toroidal Mirnov probe array. Their excitation conditions are discussed and the dynamics of fast ion losses induced by Alfvén eigenmodes is presented. Preliminary experiments on the isotopic effect influence on global confinement in the ohmic heating (OH) regime are described. Scrape-off layer (SOL) parameters were measured and compared with results from self-consistent integrated transport modelling. Results showed that SOL width scales inversely proportional to plasma current. The behaviour of an a priori damaged tungsten divertor plate mock-up exposed to plasma flows was investigated. Preliminary conclusions are that the initial damage gives rise to a loose layer formation with low thermal conductivity right beneath the surface. Finally, engineering design issues of the next step—Globus-M2 (1 T, 500 kA) and the status of component manufacture are described. [ABSTRACT FROM AUTHOR]

Published

2015

14. Integrated modelling of the Globus-M tokamak plasma and a comparison with SOL width scaling.

Author

I.Yu. Senichenkov, E.G. Kaveeva, A.V. Gogoleva, E.O. Vekshina, G.V. Zadvitskiy, P.A. Molchanov, V.A. Rozhansky, S.P. Voskoboynikov, N.A. Khromov, S.A. Lepikhov, V.K. Gusev, and Team, The Globus-M

Subjects

TOKAMAKS, PLASMA boundary layers, PLASMA confinement devices, PLASMA transport processes, LANGMUIR probes, PLASMA flow, PLASMA frequencies, THOMSON scattering

Abstract

Recently a scheme for the coupling of the one-dimensional core transport code ASTRA and the two-dimensional edge transport code B2SOLPS was developed, thus providing the integrated modelling of tokamak discharge. Here, this scheme is improved by taking impurities into account and by considering a real flux surface shape using the equilibrium code SPIDER. This integrated modelling is applied to discharges of the spherical tokamak Globus-M to study the dependence of the scrape-off layer (SOL) width and divertor heat loads on the discharge power and the plasma current. Since these values, together with the magnetic field, are relatively small in Globus-M, this study can test the existing scaling against data in a wider range of tokamak operational parameters. The modelling results agree reasonably with Thomson scattering and Langmuir probe measurements and allow, in principle, the determination of the physical mechanisms responsible for the SOL structure formation. It is found that the SOL width is approximately inversely proportional to the plasma current, in agreement with existing experimental scaling, while its dependence on discharge power is found to be quite weak. [ABSTRACT FROM AUTHOR]

Published

2015

15. Geodesic acoustic mode observations in the Globus-M spherical tokamak.

Author

A.Yu. Yashin, V.V. Bulanin, V.K. Gusev, N.A. Khromov, G.S. Kurskiev, V.B. Minaev, M.I. Patrov, A.V. Petrov, Yu.V. Petrov, D.V. Prisyazhnyuk, N.V. Sakharov, P.B. Shchegolev, S.Yu. Tolstyakov, V.I. Varfolomeev, and F. Wagner

Subjects

REFLECTOMETER, REFLECTOMETRY, OPTICAL reflection, GEODESIC domes, ANTARCTIC oscillation

Abstract

The results of geodesic acoustic mode (GAM) studies in the spherical torus Globus-M via Doppler reflectometry are presented. The intermittent character of the GAM evolution is similar to the limit-cycle oscillation behavior of zonal flows. The evident correlation between the GAM rotational velocity and both Dα emission and plasma density oscillations is exhibited and discussed. The obtained experimental results are compared with those from tokamaks with large aspect ratios. [ABSTRACT FROM AUTHOR]

Published

2014