Experimental study of density pump-out effect with on-axis electron cyclotron resonance heating at the T-10 tokamak

Андреев, В. В.; Borschegovskij, A A; Chistyakov, V. V.; Dnestrovskij, Yu. N.; Gorbunov, E.P.; Kasyanova, N. V.; Лысенко, С. Е.; Melnikov, A. V.; Myalton, T.B.; Roy, I. N.; Sergeev, D. A.; Zenin, V.N.

doi:10.1088/0741-3335/58/5/055008

Cited by 32 publications

(28 citation statements)

References 21 publications

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“…2 on the right. Panel b) of this figure shows the time evolution of the EC (magenta) and NB (green) power, together with the measured (blue) and the modelled (cyan) loop voltage, which clearly increases after t = 1.2 s. The electron temperature and density profiles from the Thomson Scattering diagnostic before (t = 1 s, solid line) and after (t = 1.5 s, dashed line) the NBI, which are reported in panels c-d), shows that the core plasma density is pumped-out during ECRH [10] (see also Fig. 1 a)), while it is fuelled during NBI (up to 30% at constant gas injection).…”

Section: Nbi Contribution To the Non-inductive Current Drivementioning

confidence: 76%

Extension of the operating space of high-b _N fully non-inductive scenarios on TCV using neutral beam injection

et al. 2019

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The fully non-inductive sustainment of high normalized beta plasmas (betaN) is a crucial challenge for the steadystate operation of a tokamak reactor. In order to assess the difficulties found on such scenarios, steady-state regimes have been explored at the Tokamak à Configuration Variable (TCV) using the newly available 1MW Neutral Beam Injection (NBI) system. The operating space is extended towards plasmas that are closer to those expected in JT-60SA and ITER, i.e. with significant NBI and Electron Cyclotron Resonance Heating and Current Drive (ECRH/CD), bootstrap current and Fast Ion (FI) fraction. BetaN values up to 1.4 and 1.7 are obtained in lower single null L-mode (H 98 (y,2)~0.8) and H-mode (H 98 (y,2)~1) plasmas, respectively, at zero time averaged loop voltage and q 95~6 . Fully non-inductive operation is not achieved with NBI alone, whose injection can even increase the loop voltage in presence of EC waves. A strong contribution to the total plasma pressure of bulk and FIs from NBI is experimentally evidenced and confirmed by interpretative ASTRA and NUBEAM modelling, which further predicts that FI charge-exchange reactions are the main loss channel for NBH/CD efficiency. Internal transport barriers, which are expected to maximize the bootstrap current fraction, are not formed in either the electron or the ion channel in the plasmas explored to date, despite a significant increase in the toroidal rotation and FIs fraction with NBI, which are known to reduce turbulence. First results on scenario development of high-betaN fully noninductive H-mode plasmas are also presented.

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Section: Nbi Contribution To the Non-inductive Current Drivementioning

confidence: 76%

Extension of the operating space of high-b _N fully non-inductive scenarios on TCV using neutral beam injection

et al. 2019

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“…Thereby, the meaningful solution of (9) is an intermediate asymptotic dependence valid at the time much less than the transition time of the daughter waves through the 2D box. We assume the initial thermal noise level (12)…”

Section: Two-uh-plasmon Parametric Decay Of An Extraordinary Wavementioning

confidence: 99%

“…This can make the power deposition profile much wider than it is predicted by the linear theory and can create an illusion of the fast electron energy redistribution. In other words, this nonlinear absorption mechanism can be responsible, at least partly, for the so-called nonlocal electron transport in the on-axis X2-mode ECRH experiments at T-10 and LHD [12,13]. We can also estimate the pump power fraction absorbed by the daughter IB waves as .…”

Section: Two-uh-plasmon Parametric Decay Of An Extraordinary Wavementioning

confidence: 99%

“…The parametric decay instabilities (PDIs), which can accompany the ECRH experiments, are believed to be deeply suppressed by the huge energy loss of daughter waves from the decay region, according to the predictions of theory developed in 80 th [1]. However, during the last decade numerous ECRH experiments performed at TEXTOR, TCV, TJ-II, ASDEX-UG, LHD, T-10 and FTU [2][3][4][5][6][7][8][9][10][11][12][13] have demonstrated excitation of the anomalous phenomena. The clearest evidence of the nonlinear phenomena excitation was obtained at TEXTOR [2,3] where the strong backscattering signals down-shifted in frequency and amplitude modulated at the frequency of magnetic island were observed.…”

Section: Introductionmentioning

confidence: 99%

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Anomalous absorption in ECRH experiments due to the parametric low-threshold excitation of localized UH waves

Popov

Gusakov

2019

EPJ Web Conf.

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We describe the theoretical model which interprets the anomalous phenomena, i.e. the generation of backscattering signal observed in the ECRH experiments at TEXTOR, TCV, TJ-II, ASDEX-UG, LHD and FTU, as a consequence of the excitation of the parametric decay instability (PDI) leading to anomalous damping of the pump wave. The PDI power-threshold is shown to be extremely low due to the localization of both or one daughter upper hybrid (UH) waves in presence of a nonmonotonic (hollow) density profile, which is often observed in the ECRH experiments due to the magnetic island or the density pump-out effect. In the case of the extraordinary wave pump the model predicts substantial (up to 25%) anomalous absorption in the electron channel and explains the anomalous ion acceleration by the generation of secondary low frequency waves which directly transfer the pump power to the ion component. The possibility of anomalous absorption of the O-mode pump in the ECRH experiment due to the parametric excitation of trapped UH wave is also discussed and the anomalous absorption rate at the 10% level is predicted.

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“…При включении ЭЦРН вырастают электронная и периферийная ионная температуры, а также энергосодержание в плазме. При этом падает среднехордовая плотность, измеренная вдоль центральной хорды, в соответствии с известным эффектом откачки плотности (density pump-out) [8]. В рассматриваемых режимах во время работы гиротрона на 700 мс начинается кратковременный напуск гелия.…”

Section: схема экспериментаunclassified

Plasma Electric Potential and Geodesic Acoustic Mode Evolution in Ohmic and Ecrh Regimes With Pulsed Impurity Puffing on the T-10 Tokamak

Zenin¹,

Klyuchnikov²,

Melnikov³

et al. 2016

PAST-TF

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Эволюция электрического потенциала и геодезических акустических мод в омических и ЭЦР-режимах … ВАНТ. Сер. Термоядерный синтез, 2016, т. 39, вып. 3 91 Качественно сравниваются геодезические акустические моды (ГАМ) и эволюция среднего уровня электрического потенциала плазмы в токамаке Т-10 в режимах с импульсным (5 мс) напуском различных примесей (гелия, азота и неона). Показано, что напуск примеси меняет уровень потенциала. Также показано, что напуск примеси сильно влияет на ГАМ, резко снижая её амплитуду и снижая частоту. Это влияние продолжается в течение примерно 50 мс, затем амплитуда и частота ГАМ выходят на новый стационарный уровень. Приведены сравнения параметров ГАМ с основными плазменными параметрами и уровнем флуктуаций электронной плотности. Рассмотрена эволюция частоты ГАМ в сравнении с теоретически ожидаемой зависимостью для частоты локальных ГАМ с локальными значениями температуры на периферии.Ключевые слова: токамак, Т-10, ГАМ, зондирование плазмы пучком тяжёлых ионов.The geodesic acoustic mode (GAM) and the evolution of the average level of the electrostatic plasma potential in the T-10 tokamak in the regime with short (5 ms) impurity puffing are considered in this work. Plasma potential and GAM evolution are compared qualitatively at helium, nitrogen and neon impurities puffing. It was shown that impurity puffing changes the average plasma potential level. It was also shown that impurity puffing strongly affects GAM properties, reducing its amplitude sharply and decreasing its frequency. This effect lasts for about 50 ms, and then the amplitude and frequency of GAM reaches a new stationary level. The GAM parameters are compared with the evolution of the basic plasma parameters and the turbulence level of electron density. The GAM frequency evolution was considered versus theoretical dependence for local GAM taking into account peripheral temperatures.

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Experimental study of density pump-out effect with on-axis electron cyclotron resonance heating at the T-10 tokamak

Cited by 32 publications

References 21 publications

Extension of the operating space of high-b _N fully non-inductive scenarios on TCV using neutral beam injection

Extension of the operating space of high-b _N fully non-inductive scenarios on TCV using neutral beam injection

Anomalous absorption in ECRH experiments due to the parametric low-threshold excitation of localized UH waves

Plasma Electric Potential and Geodesic Acoustic Mode Evolution in Ohmic and Ecrh Regimes With Pulsed Impurity Puffing on the T-10 Tokamak

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Experimental study of density pump-out effect with on-axis electron cyclotron resonance heating at the T-10 tokamak

Cited by 32 publications

References 21 publications

Extension of the operating space of high-b N fully non-inductive scenarios on TCV using neutral beam injection

Extension of the operating space of high-b N fully non-inductive scenarios on TCV using neutral beam injection

Anomalous absorption in ECRH experiments due to the parametric low-threshold excitation of localized UH waves

Plasma Electric Potential and Geodesic Acoustic Mode Evolution in Ohmic and Ecrh Regimes With Pulsed Impurity Puffing on the T-10 Tokamak

Contact Info

Product

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Extension of the operating space of high-b _N fully non-inductive scenarios on TCV using neutral beam injection

Extension of the operating space of high-b _N fully non-inductive scenarios on TCV using neutral beam injection