Yu.V. Skosyrev scite author profile

Yu.V. Skosyrev

5Publications

36Citation Statements Received

48Citation Statements Given

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Kurchatov Institute

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Electron particle transport and turbulence studies in the T-10 tokamak

et al. 2013

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The goals of this paper are to compare the results of electron particle transport measurements in ohmic (OH) plasmas by means of a small perturbation technique, high-level gas puff and gas switch off, investigate the phenomenon of ‘density pump out’ during electron cyclotron resonance heating (ECRH) and to correlate density behaviour with turbulence. Two approaches for plasma particle transport studies were compared: the low perturbation technique of periodic puff (δn/ne = 0.3%) and strong density variations (δn/ne < 50%), including density ramp-up by gas puff and ramp-down with gas switch off. The model with constant in time diffusion coefficients and pinch velocities could describe the core density perturbations but failed at the edge. In the case of strong puff three stages were distinguished. Degraded energy confinement and, respectively, low turbulence frequencies were observed during density ramp-up and ramp-down, while enhanced confinement and higher turbulence frequencies were typical for the intermediate stage. Density profile variation during this intermediate phase could be described in the framework of the transport model with constant in time coefficients. The application of ECRH at the density ramp-up phase provided the possibility of postponing the ‘density pump out’. The increase in the low-frequency modes in turbulence spectra was observed at the ‘density pump out’ phase during central ECRH. Although the high- and low-frequency bands of turbulence spectra behaved as trapped electron mode and ion temperature gradient, respectively, they both rotated at the same angular velocity as a rigid body together with magnetohydrodynamic mode m/n = 2/1 and [E × B] plasma rotation.

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High density experiments with gas puffing and ECRH in T-10

Esipchuk¹,

Kirneva²,

Borschegovskij³

et al. 2003

Plasma Phys. Control. Fusion

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High density experiments were carried out in T-10 with gas puffing and electron cyclotron resonance heating (with absorbed power value up to 1.4 MW) with oblique and perpendicular power launch. Densities exceeding the Greenwald limit (n Gw ) by up to a factor of 1.8 were achieved in a regime with a high value of the edge safety factor at the current flat-top, q(a) ∼ = 8.2. The decrease of q(a) to a value of 3 led to the reduction of the ratio ( ne ) lim /n Gw to 1. Confinement degradation with density increase was not significant up to the density limit. However, the typical T-10 linear increase of energy confinement time with density saturates at ne 0.6n Gw . This saturation is the result of the development of an additional transport in the electron heat channel. However, the saturated τ E values exceeded the ITER L-mode scaling predictions by up to a factor of 1.2 and were close to the value predicted by the ITER H-mode scaling. Effect of the strong gas puffing on the plasma confinement and experiments with neon seeding are also discussed in this paper.

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Electromagnetic fields in a plasma heated near the lower hybrid resonance

Skosyrev¹,

Krivov²,

Glagolev³

1973

At Energy

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Time evolution of the ion temperature in the T-10 tokamak during simultaneous pellet injection and electron-cyclotron resonance heating

et al. 2007

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Imitation of influence of plasma and neutron fluxes on graphite made plasma-facing components of plasma diagnostics in mm and sub-mm wavelength range

Berezhnyj

Chebotarev

Fomin

et al. 1996

Journal of Nuclear Materials

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Yu.V. Skosyrev

Electron particle transport and turbulence studies in the T-10 tokamak

High density experiments with gas puffing and ECRH in T-10

Electromagnetic fields in a plasma heated near the lower hybrid resonance

Time evolution of the ion temperature in the T-10 tokamak during simultaneous pellet injection and electron-cyclotron resonance heating

Imitation of influence of plasma and neutron fluxes on graphite made plasma-facing components of plasma diagnostics in mm and sub-mm wavelength range

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