排序方式: 共有23条查询结果,搜索用时 15 毫秒
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Razumova K. A. Dremin M. M. Kasyanova N. V. Kirneva N. A. Klyuchnikov L. A. Krupin V. A. Krylov S. V. Lysenko S. E. Notkin G. E. Sarychev D. V. Soloviev N. A. Chukanov M. V. Ongena J. Messiaen A. M. 《Plasma Physics Reports》2020,46(4):337-348
Plasma Physics Reports - The phenomenon of improved energy confinement during radiative cooling at the plasma edge was studied experimentally in the T-10 tokamak. It was shown that the effect is... 相似文献
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K. A. Razumova V. F. Andreev I. S. Bel’bas A. V. Gorshkov A. Yu. Dnestrovskij K. S. Dyabilin A. Ya. Kislov S. E. Lysenko G. E. Notkin N. N. Timchenko A. N. Chudnovskiy D. A. Shelukhin 《Plasma Physics Reports》2013,39(9):691-697
Results are presented from experiments on the formation of an internal electron transport barrier near the q = 1.5 rational surface in the T-10 tokamak. The experiments were carried out in the regime with off-axis electron cyclotron resonance (ECR) heating followed by a fast plasma current ramp-up. After suppressing sawtooth oscillations by off-axis ECR heating, an internal transport barrier began to form near the q = 1.5 rational surface. In the phase of the current ramp-up, the quality of the transport barrier improved; as a result, the plasma energy confinement time increased 2–2.5 times. The intentionally produced flattening of the profile of the safety factor q(r) insignificantly affected magnetohydrodynamic activity in the plasma column in spite of the theoretical possibility of formation of substantial m/n = 3/2 and 2/1 magnetic islands. Conditions are discussed under which the flattening of the profile of the safety factor q near low-order rational surfaces leads to the formation of either an internal transport barrier or the development of an island magnetic structure induced by tearing modes. 相似文献
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Stefanovskii A. M. Dremin M. M. Kakurin A. M. Kislov A. Ya. Notkin G. E. Pavlov Yu. D. Sushkov A. V. 《Plasma Physics Reports》2019,45(12):1142-1163
Plasma Physics Reports - Experimental data on plasma cooling during slow discharge disruptions at the T-10 tokamak are analyzed. It is shown that, in the initial phase of thermal quench at T-10,... 相似文献
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V. V. Alikaev A. A. Borshchegovskii V. V. Volkov M. M. Dremin Yu. V. Esipchuk A. M. Kakurin N. A. Kirneva A. Ya. Kislov D. A. Kislov I. V. Klimanov V. A. Kochin V. A. Krupin S. V. Krylov T. B. Myalton A. Yu. Novikov G. E. Notkin Yu. D. Pavlov V. V. Piterskii V. I. Poznyak I. N. Roi P. V. Savrukhin M. M. Stepanenko A. V. Sushkov V. M. Trukhin E. V. Trukhina V. V. Chistyakov 《Plasma Physics Reports》2000,26(12):991-999
In T-10 experiments, attempts were made to significantly exceed the Greenwald limit $\bar n_{Gr} $ during high-power (P ab=750 kW) electron-cyclotron resonance heating (ECRH) and gas puffing. Formally, the density limit $(\bar n_e )_{\lim } $ exceeding the Greenwald limit $({{(\bar n_e )_{\lim } } \mathord{\left/ {\vphantom {{(\bar n_e )_{\lim } } {\bar n_{Gr} }}} \right. \kern-0em} {\bar n_{Gr} }} = 1.8)$ was achieved for q L=8.2. However, as q L decreased, the ratio ${{(\bar n_e )_{\lim } } \mathord{\left/ {\vphantom {{(\bar n_e )_{\lim } } {\bar n_{Gr} }}} \right. \kern-0em} {\bar n_{Gr} }}$ also decreased, approaching unity at q L≈3. It was suggested that the “current radius” (i.e., the radius of the magnetic surface enclosing the bulk of the plasma current I p), rather than the limiter radius, was the parameter governing the value of $(\bar n_e )_{\lim } $ . In the ECRH experiments, no substantial degradation of plasma confinement was observed up to $\bar n_e \sim 0.9(\bar n_e )_{\lim } $ regardless of the ratio ${{(\bar n_e )_{\lim } } \mathord{\left/ {\vphantom {{(\bar n_e )_{\lim } } {\bar n_{Gr} }}} \right. \kern-0em} {\bar n_{Gr} }}$ . In different scenarios of the density growth up to $(\bar n_e )_{\lim } $ , two types of disruptions related to the density limit were observed. 相似文献
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K. A. Razumova V. V. Alikaev I. S. Bondarenko A. A. Borschegovskii V. A. Vershkov A. V. Gorshkov Yu. V. Gott Yu. N. Dnestrovskij V. V. Dreval M. M. Dremin L. G. Eliseev G. S. Kirnev A. Ya. Kislov I. V. Klimanov A. S. Kozachok A. D. Komarov V. A. Krupin L. I. Krupnik S. V. Krylov S. E. Lysenko A. A. Medvedev A. V. Melnikov T. B. Myalton G. E. Notkin A. Yu. Novikov Yu. D. Pavlov D. P. Petrov V. I. Poznyak I. N. Roy P. V. Savrukhin V. V. Sannikov S. V. Soldatov A. V. Sushkov V. M. Trukhin S. M. Khrebtov V. V. Chistyakov D. A. Shelukhin 《Plasma Physics Reports》2001,27(4):273-277
Abstract-the formation of transport barriers under electron cyclotron resonance heating and current drive in the t-10 tokamak is studied. in regimes with off-axis co-eccd and q L <4 at the limiter, a spontaneous transition to improved confinement accompanied by the formation of two electron transport barriers is observed. the improvement resembles an L-H transition. It manifests itself as density growth, a decrease in the Dα emission intensity, and an increase in the central electron and ion temperatures. Two deep wells on the potential profile (the first one at r/a L ≈0.6, where a L is the limiter radius, and the second one near the edge) arise during the transition. the internal barrier is formed when dq/dr~0 with q≈1 in the barrier region. 相似文献
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K. A. Razumova A. A. Borschegovskiy E. P. Gorbunov M. M. Dremin N. V. Kasyanova N. A. Kirneva A. Ya. Kislov L. A. Klyuchnikov V. A. Krupin S. V. Krylov S. E. Lysenko A. V. Melnikov T. B. Myalton A. R. Nemets G. E. Notkin M. R. Nurgaliev D. V. Sarychev A. V. Sushkov V. V. Chistyakov J. Ongena A. Messiaen 《Plasma Physics Reports》2017,43(11):1043-1051
Improvement of plasma energy confinement in the T-10 tokamak by injection of impurity gases was studied experimentally. Injection of Ne and He in the ohmic and ECR heating regimes allows one to separate the dependences of energy confinement on the plasma density and on the edge plasma cooling rate. It is shown that the well-known dependence of the energy confinement time on the plasma density is, in fact, the dependence on the radiative loss power. This phenomenon can be explained by plasma self-organization. The experiments are described by a thermodynamic model for self-organized plasma in which the transport coefficient depends on the difference between the actual and self-consistent pressure profiles. The reduction in the heat flux at the plasma edge due to radiative cooling leads to a decrease in the transport coefficient in this region and, accordingly, improves energy confinement. Results of approximate model calculations for experiments with Ne injection are presented. 相似文献