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1. Overview of HL-2A recent experiments

Author

Xu, M, Duan, XR, Liu, Yi, Song, XM, Liu, DQ, Wang, YQ, Lu, B, Yang, QW, Zheng, GY, Ding, XT, Dong, JQ, Hao, GZ, Zhong, WL, Shi, ZB, Yan, LW, Zou, XL, Liu, YQ, Chen, W, Xiao, GL, Zhang, YP, Jiang, M, Hou, YM, Cheng, J, Liang, AS, Bai, XY, Cao, JY, Cao, Z, Chen, HT, Cui, CH, Cui, ZY, Delpech, L, Diamond, PH, Ekedahl, A, Feng, BB, Giruzzi, G, Gong, SB, He, HM, Hoang, T, Huang, M, Huang, Y, Ida, K, Inagaki, S, Isobe, M, Itoh, K, Itoh, S-I, Ji, XQ, Ke, R, Kobayashi, M, Lei, GJ, Li, B, Li, GS, Li, HJ, Li, JQ, Li, Q, Li, Qing, Li, XD, Li, YG, Li, Yongge, Mao, WC, Mazon, D, Mckee, GR, Morita, S, Nie, L, Peng, JF, Peysson, Y, Rao, J, Ren, Y, Tynan, GR, Wang, HX, Wang, QM, Wei, HL, Xia, F, Xiao, XP, Xuan, WM, Yan, Z, Yao, K, Yu, LM, Yu, Y, Yu, DL, Yuan, BD, Yuan, BS, Zhang, JH, Zhou, Y, and Liu, Yong

Subjects
magnetic fusion, overview, HL-2A tokamak, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas
Abstract

The mission of HL-2A is to explore the key physical topics relevant to ITER and to the advanced tokamak operation (e.g. the operation of future HL-2M), such as the access of H-mode, energetic particle physics, edge-localized mode (ELM) mitigation/suppression and disruption mitigation. Since the 2016 Fusion Energy Conference, the HL-2A team has focused on the investigations on the following areas: (i) pedestal dynamics and L-H transition, (ii) techniques of ELM control, (iii) turbulence and transport, (iv) energetic particle physics. The HL-2A results demonstrated that the increase of mean shear flow plays a key role in triggering L-I and I-H transitions, while the change of flow is mainly induced by the ion pressure gradient. Both mitigation and suppression of ELMs were realized by laser blow-off seeded impurity (Al, Fe, W). The 30% Ne mixture supersonic molecular beam injection seeding also robustly induced ELM mitigation. The ELMs were mitigated by low-hybrid current drive. The stabilization of m/n = 1/1 ion fishbone activities by electron cyclotron resonance heating was found on the HL-2A. A new m/n = 2/1 ion fishbone activity was observed recently, and the modelling indicated that passing fast ions dominantly contribute to the driving of 2/1 fishbone. The non-linear coupling between the toroidal Alfven eigenmode and tearing mode (TM) led to the generation of a high frequency mode with the toroidal mode number n = 0. The turbulence was modulated by TM when the island width exceeds a threshold and the modulation is localized merely in the inner area of the islands. Meanwhile, turbulence radial spread took place across the island region.

Published
2019

2. Temporal-spatial structures of plasmas flows and turbulence around tearing mode islands in the edge tokamak plasmas

Author

Zhao, KJ, Nagashima, Y, Li, FM, Shi, Yuejiang, Diamond, PH, Dong, JQ, Itoh, K, Itoh, S-I, Zhuang, G, Liu, H, Chen, ZP, Cheng, J, Nie, L, Ding, YH, Hu, QM, Chen, ZY, Rao, B, Cheng, ZF, Gao, L, Zhang, XQ, Yang, ZJ, Wang, NC, Wang, L, Jin, W, Yan, W, Xu, JQ, Wu, YF, Yan, LW, Fujisawa, A, Inagaki, S, Kosuga, Y, and Sasaki, M

Subjects
tearing mode, magetic island, plasma flow, turbulence, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas
Abstract

The temporal-spatial structures of plasma flows and turbulence around tearing mode islands are presented. The experiments were performed using Langmuir probe arrays in the edge plasmas of J-TEXT tokamak. The correlation analyses clearly show that the flows have similar structures of m/n = 3/1 as the magnetic island does (m and n are the poloidal and toroidal mode numbers, respectively). The sign of the potential fluctuations for the flows inverses and the powers significantly reduce at q = 3 surface. Approaching to the last closed flux surface for the magnetic islands, the radially elongated flow structure forms. The flows are concentrated near separatrix and show quadrupole structures. The turbulence is concentrated near X-point and partly trapped inside the magnetic islands.

Published
2017

3. Overview of recent HL-2A experiments

Author

Duan, XR, Liu, Yi, Xu, M, Yan, LW, Xu, Y, Song, XM, Dong, JQ, Ding, XT, Chen, LY, Lu, B, Liu, DQ, Rao, J, Xuan, WM, Yang, QW, Zheng, GY, Zou, XL, Liu, YQ, Zhong, WL, Zhao, KJ, Ji, XQ, Mao, WC, Wang, QM, Li, Q, Cao, JY, Cao, Z, Lei, GJ, Zhang, JH, Li, XD, Bai, XY, Cheng, J, Chen, W, Cui, ZY, Delpech, L, Diamond, PH, Dong, YB, Ekedahl, A, Hoang, T, Huang, Y, Ida, K, Itoh, K, Itoh, S-I, Isobe, M, Inagaki, S, Mazon, D, Morita, S, Peysson, Y, Shi, ZB, Wang, XG, Xiao, GL, Yu, DL, Yu, LM, Zhang, YP, Zhou, Y, Cui, CH, Feng, BB, Huang, M, Li, YG, Li, B, Li, GS, Li, HJ, Li, Qing, Peng, JF, Wang, YQ, Yuan, BS, and Liu, Yong

Subjects
tokamak, plasma physics, HL-2A, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas
Published
2017

4. Mesoscale electric fluctuations interacting with zonal flows, magnetic fluctuations and turbulence

Author

Zhao, KJ, Nagashima, Y, Diamond, PH, Dong, JQ, Itoh, K, Itoh, S-I, Yan, LW, Cheng, J, Fujisawa, A, Inagaki, S, Kosuga, Y, Sasaki, M, Huang, ZH, Yu, DL, Li, Q, Ji, XQ, Song, XM, Huang, Y, Liu, Yi, Yang, QW, Ding, XT, and Duan, XR

Subjects
magnetic fluctuations, turbulence, zonal flows, mesoscale electric fluctuations, nonlinear synchronization, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas
Published
2017

6. How turbulence fronts induce plasma spin-up.

Author

Kosuga, Y, Itoh, S-I, Diamond, PH, and Itoh, K

Abstract

A calculation which describes the spin-up of toroidal plasmas by the radial propagation of turbulence fronts with broken parallel symmetry is presented. The associated flux of parallel momentum is calculated by using a two-scale direct-interaction approximation in the weak turbulence limit. We show that fluctuation momentum spreads faster than mean flow momentum. Specifically, the turbulent flux of wave momentum is stronger than the momentum pinch. The scattering of fluctuation momentum can induce edge-core coupling of toroidal flows, as observed in experiments.

Published
2017

7. A simple model for electron dissipation in trapped ion turbulence

Author

Lesur, M, Cartier-Michaud, T, Drouot, T, Diamond, PH, Kosuga, Y, Réveillé, T, Gravier, E, Garbet, X, Itoh, S-I, and Itoh, K

Subjects
Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Classical Physics, Fluids & Plasmas
Abstract

Trapped ion resonance-driven turbulence is investigated in the presence of electron dissipation in a simplified tokamak geometry. A reduced gyrokinetic bounce-averaged model for trapped ions is adopted. Electron dissipation is modeled by a simple phase-shift δ between density and electric potential perturbations. The linear eigenfunction features a peak at the resonant energy, which becomes stronger with increasing electron dissipation. Accurately resolving this narrow peak in numerical simulation of the initial-value problem yields a stringent lower bound on the number of grid points in the energy space. Further, the radial particle flux is investigated in the presence of electron dissipation, including kinetic effects. When the density gradient is higher than the temperature gradient, and the phase-shift is finite but moderate (δ≈0.02), the particle flux peaks at an order-of-magnitude above the gyro-Bohm estimate. Slight particle pinch is observed for δ

Published
2017

8. Synchronization of Geodesic Acoustic Modes and Magnetic Fluctuations in Toroidal Plasmas

Author

Zhao, KJ, Nagashima, Y, Diamond, PH, Dong, JQ, Itoh, K, Itoh, S-I, Yan, LW, Cheng, J, Fujisawa, A, Inagaki, S, Kosuga, Y, Sasaki, M, Wang, ZX, Wei, L, Huang, ZH, Yu, DL, Hong, WY, Li, Q, Ji, XQ, Song, XM, Huang, Y, Liu, Yi, Yang, QW, Ding, XT, and Duan, XR

Subjects
Mathematical Sciences, Physical Sciences, Engineering, General Physics
Abstract

The synchronization of geodesic acoustic modes (GAMs) and magnetic fluctuations is identified in the edge plasmas of the HL-2A tokamak. Mesoscale electric fluctuations (MSEFs) having components of a dominant GAM, and m/n=6/2 potential fluctuations are found at the same frequency as that of the magnetic fluctuations of m/n=6/2 (m and n are poloidal and toroidal mode numbers, respectively). The temporal evolutions of the MSEFs and the magnetic fluctuations clearly show the frequency entrainment and the phase lock between the GAM and the m/n=6/2 magnetic fluctuations. The results indicate that GAMs and magnetic fluctuations can transfer energy through nonlinear synchronization. Such nonlinear synchronization may also contribute to low-frequency zonal flow formation, reduction of turbulence level, and thus confinement regime transitions.

Published
2016

9. Towards an emerging understanding of non-locality phenomena and non-local transport

Author

Ida, K, Shi, Z, Sun, HJ, Inagaki, S, Kamiya, K, Rice, JE, Tamura, N, Diamond, PH, Dif-Pradalier, G, Zou, XL, Itoh, K, Sugita, S, Gürcan, OD, Estrada, T, Hidalgo, C, Hahm, TS, Field, A, Ding, XT, Sakamoto, Y, Oldenbürger, S, Yoshinuma, M, Kobayashi, T, Jiang, M, Hahn, SH, Jeon, YM, Hong, SH, Kosuga, Y, Dong, J, and Itoh, S-I

Subjects
plasma, transport, non-local, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas
Published
2015

10. Ion temperature gradient driven turbulence with strong trapped ion resonance

Author

Kosuga, Y, Itoh, S-I, Diamond, PH, Itoh, K, and Lesur, M

Subjects
Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Classical Physics, Fluids & Plasmas
Abstract

A theory to describe basic characterization of ion temperature gradient driven turbulence with strong trapped ion resonance is presented. The role of trapped ion granulations, clusters of trapped ions correlated by precession resonance, is the focus. Microscopically, the presence of trapped ion granulations leads to a sharp (logarithmic) divergence of two point phase space density correlation at small scales. Macroscopically, trapped ion granulations excite potential fluctuations that do not satisfy dispersion relation and so broaden frequency spectrum. The line width from emission due only to trapped ion granulations is calculated. The result shows that the line width depends on ion free energy and electron dissipation, which implies that non-adiabatic electrons are essential to recover non-trivial dynamics of trapped ion granulations. Relevant testable predictions are summarized.

Published
2014

11. Sawtooth-triggered limit-cycle oscillations and I-phase in the HL-2A tokamak

Author

Zhao, KJ, Cheng, J, Diamond, PH, Dong, JQ, Yan, LW, Hong, WY, Xu, M, Tynan, G, Miki, K, Huang, ZH, Itoh, K, Itoh, S-I, Fujisawa, A, Nagashima, Y, Inagaki, S, Wang, ZX, Wei, L, Song, XM, Lei, GJ, Li, Q, Ji, XQ, Liu, Yi, Yang, QW, Ding, XT, and Duan, XR

Subjects
Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas
Abstract

Transitions between low (L-mode) and intermediate (I-phase) confinement regimes triggered by sawteeth are investigated using multiple Langmuir probe arrays in the edge plasmas of the HL-2A tokamak. The I-phase is characterized by limit-cycle oscillations (LCOs). Repeated L-I-L transitions induced by sawtooth heat pulses are also observed. Statistical analyses show that the delay time of the L-I transition relative to sawtooth crashes is less than ∼1 ms. The intensity of turbulence bursts in the I-phase is stronger than those observed in L-mode plasmas. Measurements are consistent with zonal flow reducing turbulence intensity in the frequency band ∼20-100 kHz, while the LCO turbulence of frequency higher than 100 kHz has more power than that in the L-mode. The analyses of time-resolved power transfers between turbulence and zonal flows suggest that power transfers exist between turbulence and zonal flows. The direction of the power transfers is from turbulence into geodesic acoustic modes in ohmic plasmas. © 2013 IAEA, Vienna.

Published
2013

12. Conversion of poloidal flows into toroidal flows by phase space structures in trapped ion resonance driven turbulence

Author

Kosuga, Y, Itoh, S-I, Diamond, PH, and Itoh, K

Subjects
Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences, Fluids & Plasmas
Abstract

A theory to describe the conversion of poloidal momentum into toroidal momentum by phase space structures in trapped ion resonance driven turbulence is presented. In trapped ion resonance driven turbulence, phase space structures are expected to form and can contribute to transport by exerting dynamical friction. Toroidal momentum flux by dynamical friction is calculated. It is shown that dynamical friction exerted on trapped ion granulations can mediate momentum transfer between poloidal and toroidal flows. The conversion coefficient is calculated as measurable, which can be validated in current devices. © 2013 IOP Publishing Ltd.

Published
2013

13. Review of analytical treatments of barrier-type problems in plasma theory

Author

Spineanu, F., Vlad, M., Itoh, K., and Itoh, S. -I.

Subjects
Physics - Plasma Physics, Physics - Chemical Physics
Abstract

We review the analytical methods of solving the stochastic equations for barrier-type dynamical behavior in plasma systems. The path-integral approach is examined as a particularly efficient method of determination of the statistical properties., Comment: Latex 75 pages including 58 eps figures of poor quality. For better figures please download a ps file as http://florin.spineanu.free.fr/sciarchive/topicalreview.zip

Published
2003

14. Notes on a possible phenomenology of internal transport barriers in tokamak

Author

Spineanu, F., Vlad, M., Itoh, K., and Itoh, S. -I.

Subjects
Physics - Plasma Physics, Physics - Atmospheric and Oceanic Physics
Abstract

We propose a new phenomenology of the generation of internal transport barriers, based on the exact periodic solution of the Flierl-Petvishvili equation. We examine the stability of this solution and compare the late stages of the flow with the ensemble of vortices., Comment: Latex 62 pages, including 30 eps figures

Published
2003

15. Pole dynamics for the Flierl-Petviashvili equation and zonal flow

Author

Spineanu, F., Vlad, M., Itoh, K., Sanuki, H., and Itoh, S. -I.

Subjects
Physics - Plasma Physics, Physics - Atmospheric and Oceanic Physics
Abstract

We use a systematic method which allows us to identify a class of exact solutions of the Flierl-Petvishvili equation. The solutions are periodic and have one dimensional geometry. We examine the physical properties and find that these structures can have a significant effect on the zonal flow generation., Comment: Latex 40 pages, seven figures eps included. Effect of variation of g_3 is studied. New references added

Published
2003
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16. Spatial structures and interaction of multiple sheared flow populations in tokamak edge turbulence

Author

Zhao, KJ, Dong, JQ, Yan, LW, Diamond, PH, Cheng, J, Hong, WY, Huang, ZH, Xu, M, Tynan, GR, Itoh, K, Itoh, S-I, Fujisawa, A, Nagashima, Y, Inagaki, S, Wang, ZX, Wei, L, Li, Q, Ji, XQ, Huang, Y, Liu, Yi, Zhou, J, Song, XM, Yang, QW, Ding, XT, and Duan, XR

Subjects
Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas
Abstract

The radial structures of multiple sheared flow populations and fluctuations are simultaneously measured using combinations of Langmuir probe arrays in the edge plasmas of the HL-2A tokamak with ohmic and electron cyclotron resonance heating (ECRH). The maximum of geodesic acoustic mode (GAM) amplitude locates at ∼2-3 cm inside the last close flux surface (LCFS). The low-frequency zonal flow (LFZF) and GAM tend to coexist in the inner region. The dependences of the amplitudes of the multiple sheared flows and turbulence on ECRH heating power are also investigated. The measured turbulent Reynolds stresses are shown to be strongly correlated with the sheared flows, as predicted by theory. The turbulence is modulated at the each frequency of the multiple sheared flows simultaneously, and the particle fluxes induced by the turbulence are significantly reduced near the LCFS and in the GAM peaking region. The analyses also show that the spatial structures of the turbulent envelopes at the LFZF and GAM frequencies are similar to those observed in LFZF and GAM. © 2013 IAEA, Vienna.

Published
2013

17. Experimental studies of zonal flow and field in compact helical system plasmaa)

Author

Fujisawa, A, Itoh, K, Shimizu, A, Nakano, H, Ohshima, S, Iguchi, H, Matsuoka, K, Okamura, S, Minami, T, Yoshimura, Y, Nagaoka, K, Ida, K, Toi, K, Takahashi, C, Kojima, M, Nishimura, S, Isobe, M, Suzuki, C, Akiyama, T, Ido, T, Nagashima, Y, Itoh, S-I, and Diamond, PH

Subjects
Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Classical Physics, Fluids & Plasmas
Abstract

The experimental studies on zonal flows and turbulence have been carried out in Compact Helical System [K. Matsuoka, S. Kubo, M. Hosokawa, in Plasma Physics and Controlled Nuclear Fusion Research, Proc. 12th Int. Conf., Nice, 1988 (International Atomic Energy Agency, Vienna, 1989, Vol. 2, p. 411] using twin heavy ion beam probes. The paper presents the experimental observations of stationary zonal flow, nonlinear couplings between zonal flow and turbulence, and the role of zonal flow in the improved confinement, together with the recent discovery of zonal magnetic field. The presented experimental results strongly support the new paradigm that the plasma transport should be considered as a system of drift wave and zonal flows, and provides the first direct evidence for turbulence dynamo that the structured magnetic field can be really generated by turbulence. © 2008 American Institute of Physics.

Published
2008

18. Experimental progress on zonal flow physics in toroidal plasmas

Author

Fujisawa, A, Ido, T, Shimizu, A, Okamura, S, Matsuoka, K, Iguchi, H, Hamada, Y, Nakano, H, Ohshima, S, Itoh, K, Hoshino, K, Shinohara, K, Miura, Y, Nagashima, Y, Itoh, S-I, Shats, M, Xia, H, Dong, JQ, Yan, LW, Zhao, KJ, Conway, GD, Stroth, U, Melnikov, AV, Eliseev, LG, Lysenko, SE, Perfilov, SV, Hidalgo, C, Tynan, GR, Holland, C, Diamond, PH, McKee, GR, Fonck, RJ, Gupta, DK, and Schoch, PM

Subjects
Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas
Abstract

The present status of experiments on zonal flows in magnetic confinement experiments is examined. The innovative use of traditional and modern diagnostics has revealed unambiguously the existence of zonal flows, their spatio-temporal characteristics, their relationship to turbulence and their effects on confinement. In particular, a number of observations have been accumulated on the oscillatory branch of zonal flows, named geodesic acoustic modes, suggesting the necessity for theories to give their proper description. In addition to these basic properties of zonal flows, several new methods have elucidated the processes of zonal flow generation from turbulence. Further investigation of the relationship between zonal flows and confinement is strongly encouraged as cross-device activity including low temperature, toroidal and linear devices. © 2007 IAEA.

Published
2007

19. Experimental Evidence of a Zonal Magnetic Field in a Toroidal Plasma

Author

Fujisawa, A, Itoh, K, Shimizu, A, Nakano, H, Ohshima, S, Iguchi, H, Matsuoka, K, Okamura, S, Minami, T, Yoshimura, Y, Nagaoka, K, Ida, K, Toi, K, Takahashi, C, Kojima, M, Nishimura, S, Isobe, M, Suzuki, C, Akiyama, T, Nagashima, Y, Itoh, S-I, and Diamond, PH

Subjects
Mathematical Sciences, Physical Sciences, Engineering, General Physics
Abstract

A zonal magnetic field is found in a toroidal plasma. The magnetic field has a symmetric bandlike structure, which is uniform in the toroidal and poloidal directions and varies radially with a finite wavelength of mesoscale, which is analogous to zonal flows. A time-dependent bicoherence analysis reveals that the magnetic field should be generated by the background plasma turbulence. The discovery is classified as a new kind of phenomenon of structured magnetic field generation, giving insight into phenomena such as dipole field generation in rotational planets.

Published
2007

20. Physics of internal transport barrier of toroidal helical plasmas

Author

Itoh, K, Toda, S, Fujisawa, A, Itoh, S-I, Yagi, M, Fukuyama, A, Diamond, PH, and Ida, K

Subjects
Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Classical Physics, Fluids & Plasmas
Abstract

The role of zonal flows (ZFs) in the formation of an internal transport barrier in a toroidal helical plasma is analyzed. The turbulent transport coefficient is shown to be suppressed when the plasma state changes from the branch of a weak negative radial electric field to the strong positive one. This new transition of turbulent transport is caused by the change of the damping rate of the ZFs. It is clearly demonstrated, theoretically and experimentally, that the damping rate of the ZFs governs the global confinement of toroidal plasmas. © 2007 American Institute of Physics.

Published
2007

21. On Imaging of Plasma Turbulence

Author

ITOH, K, FUJISAWA, A, NAGASHIMA, Y, ITOH, S-I, YAGI, M, DIAMOND, PH, FUKUYAMA, A, and HALLATSCHEK, K

Subjects
Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics
Published
2007

22. Physics of zonal flowsa)

Author

Itoh, K, Itoh, S-I, Diamond, PH, Hahm, TS, Fujisawa, A, Tynan, GR, Yagi, M, and Nagashima, Y

Subjects
Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Classical Physics, Fluids & Plasmas
Abstract

Zonal flows, which means azimuthally symmetric band-like shear flows, are ubiquitous phenomena in nature and the laboratory. It is now widely recognized that zonal flows are a key constituent in virtually all cases and regimes of drift wave turbulence, indeed, so much so that this classic problem is now frequently referred to as "drift wave-zonal flow turbulence." In this review, new viewpoints and unifying concepts are presented, which facilitate understanding of zonal flow physics, via theory, computation and their confrontation with the results of laboratory experiment. Special emphasis is placed on identifying avenues for further progress. © 2006 American Institute of Physics.

Published
2006

23. Spectrograph of electric field fluctuation in toroidal helical plasma

Author

Fujisawa, A, Itoh, K, Shimizu, A, Nakano, H, Ohsima, S, Iguchi, H, Matsuoka, K, Okamura, S, Itoh, S-I, and Diamond, PH

Subjects
Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences, Fluids & Plasmas
Abstract

This is a report on fluctuation measurements using twin heavy ion beam probes in CHS. The observation shows that dozens of coherent modes with intermittent nature co-exist in an electron cyclotron heated plasma. The modes are found to have a long-distance correlation in the toroidal direction. The radial structure of the modes is evaluated in potential fluctuation. The characteristics are consistent with those of the geodesic acoustic modes. © 2006 IOP Publishing Ltd.

Published
2006

24. On the bicoherence analysis of plasma turbulence

Author

Itoh, K, Nagashima, Y, Itoh, S-I, Diamond, PH, Fujisawa, A, Yagi, M, and Fukuyama, A

Subjects
Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Classical Physics, Fluids & Plasmas
Abstract

The bicoherence of fluctuations in a system of drift waves and zonal flows is discussed. In strong drift-wave turbulence, where broadband fluctuations are excited, the bicoherence is examined. A Langevin equation formalism of turbulent interactions allows us to relate the bicoherence coefficient to the projection of nonlinear force onto the test mode. The dependence of the summed bicoherence on the amplitude of zonal flows is clarified. The importance of observing biphase is also stressed. The results provide a basis for measurement of nonlinear interaction in a system of drift waves and zonal flow. © 2005 American Institute of Physics.

Published
2005

25. Effect of Turbulence Spreading on Subcritical Turbulence in Inhomogeneous Plasmas

Author

Itoh, K, Itoh, S-I, Hahm, TS, and Diamond, PH

Subjects
turbulence spreading, subcritical turbulence, plasma transport, nonlocal effect, generalized Maxwell's construction, minimum system size, Mathematical Sciences, Physical Sciences, General Physics
Abstract

The influence of the turbulence spreading is studied on the self-sustained turbulence which is induced by the subcritical instability. It is found that there is a minimum system size that can sustain the self-sustained turbulence, and an analytic formula is derived. The generalization of the Maxwell's construction rule is also derived. ©2005 The Physical Society of Japan.

Published
2005

26. Coherent structure of zonal flow and onset of turbulent transport

Author

Itoh, K, Hallatschek, K, Itoh, S-I, Diamond, PH, and Toda, S

Subjects
Astronomical and Space Sciences, Atomic, Molecular, Nuclear, Particle and Plasma Physics, Classical Physics, Fluids & Plasmas
Abstract

Excitation of the turbulence in the range of drift wave frequency and zonal flow in magnetized plasmas is analyzed. Nonlinear stabilization effect on zonal flow drive is introduced, and the steady state solution is obtained. The condition for the onset of turbulent transport is obtained and partition ratio of fluctuation energy into turbulence and zonal flows is derived. The turbulent transport coefficient, which includes the effect of zonal flow, is also obtained. Analytic result and direct numerical simulation show a good agreement. © 2005 American Institute of Physics.

Published
2005

27. Zonal flows in plasma—a review

Author

Diamond, PH, Itoh, S-I, Itoh, K, and Hahm, TS

Subjects
Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences, Fluids & Plasmas
Abstract

A comprehensive review of zonal flow phenomena in plasmas is presented. While the emphasis is on zonal flows in laboratory plasmas, planetary zonal flows are discussed as well. The review presents the status of theory, numerical simulation and experiments relevant to zonal flows. The emphasis is on developing an integrated understanding of the dynamics of drift wave-zonal flow turbulence by combining detailed studies of the generation of zonal flows by drift waves, the back-interaction of zonal flows on the drift waves, and the various feedback loops by which the system regulates and organizes itself. The implications of zonal flow phenomena for confinement in, and the phenomena of fusion devices are discussed. Special attention is given to the comparison of experiment with theory and to identifying directions for progress in future research. © 2005 IOP Publishing Ltd.

Published
2005

28. Identification of Zonal Flows in a Toroidal Plasma

Author

Fujisawa, A, Itoh, K, Iguchi, H, Matsuoka, K, Okamura, S, Shimizu, A, Minami, T, Yoshimura, Y, Nagaoka, K, Takahashi, C, Kojima, M, Nakano, H, Ohsima, S, Nishimura, S, Isobe, M, Suzuki, C, Akiyama, T, Ida, K, Toi, K, Itoh, S-I, and Diamond, PH

Subjects
Mathematical Sciences, Physical Sciences, Engineering, General Physics
Abstract

This Letter presents experimental confirmation of the presence of zonal flows in magnetically confined toroidal plasma using an advanced diagnostic system--dual heavy ion beam probes. The simultaneous observation of an electric field at two distant toroidal locations (approximately 1.5 m apart) in the high temperature (approximately 1 keV) plasma provides a fluctuation spectrum of electric field (or flow), a spatiotemporal structure of the zonal flows (characteristic radial length of approximately 1.5 cm and lifetime of approximately 1.5 ms), their long-range correlation with toroidal symmetry (n=0), and the difference in the zonal flow amplitude with and without a transport barrier. These constitute essential elements of turbulence-zonal flow systems, and illustrate one of the fundamental processes of structure formation in nature.

Published
2004

29. Turbulence spreading into the linearly stable zone and transport scaling

Author

Hahm, TS, Diamond, PH, Lin, Z, Itoh, K, and Itoh, S-I

Subjects
Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences, Fluids & Plasmas
Abstract

We study the simplest problem of turbulence spreading corresponding to the spatio-temporal propagation of a patch of turbulence from a region where it is locally excited to a region of weaker excitation or even local damping. A single model equation for the local turbulence intensity, I(x, t), includes the effects of local linear growth and damping, spatially local nonlinear coupling to dissipation and spatial scattering of turbulence energy induced by nonlinear coupling. In the absence of dissipation, front propagation into the linearly stable zone occurs with the property of rapid progression at small t, followed by slower sub-diffusive progression at late times. The turbulence radial spreading into the linearly stable zone reduces the turbulent intensity in the linearly unstable zone and introduces an additional dependence on the ρ* ≡ ρi/a to the turbulent intensity and the transport scaling. These are in broad, semi-quantitative agreement with a number of global gyrokinetic simulation results with zonal flows and without zonal flows. Front propagation stops when the radial flux of fluctuation energy from the linearly unstable region is balanced by local dissipation in the linearly stable region.

Published
2004

30. Non-perturbative models of intermittency in drift-wave turbulence: towards a probabilistic theory of anomalous transport

Author

Kim, Eun-jin, Diamond, PH, Malkov, M, Hahm, TS, Itoh, K, Itoh, S-I, Champeaux, S, Gruzinov, I, Gurcan, O, Holland, C, Rosenbluth, MN, and Smolyakov, A

Subjects
Atomic, Molecular, Nuclear, Particle and Plasma Physics, Fluids & Plasmas
Abstract

Two examples of non-perturbative models of intermittency in drift-wave (DW) turbulence are presented. The first is a calculation of the probability distribution function (PDF) of ion heat flux due to structures in ion temperature gradient turbulence. The instanton calculus predicts the PDF to be a stretched exponential. The second is a derivation of a bi-variate Burgers equation for the evolution of the DW population density in the presence of radially extended streamer flows. The PDF of fluctuation intensity avalanches is determined. The relation of this to turbulence spreading, observed in simulations, is discussed.

Published
2003

35. Isotope effect in transient electron thermal transport property and its impact on the electron internal transport barrier formation in LHD

Author

Kobayashi, T., primary, Ida, K., additional, Tanaka, K., additional, Yoshinuma, M., additional, Tsujimura, T.Ii, additional, Inagaki, S., additional, Tokuzawa, T., additional, Tsuchiya, H., additional, Tamura, N., additional, Igami, H., additional, Yoshimura, Y., additional, Itoh, S.-I., additional, Itoh, K., additional, and Experiment Group, LHD, additional

Published
2020
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36. Multiple turbulent plasma states in the H-mode transition on JT-60U

Author

K.Itoh and Itoh, S.-I.

Subjects
Physics::Plasma Physics
Abstract

Multiple turbulent plasma states in the edge transport barriers (ETBs) formation are studied on JT-60U. Following a slow L-H transition, which causes significant reduction in the ion thermal transport in the pedestal towards the neoclassical level with a weak negative Er value, a clear and fast changes in the particle transport in association was found with the change in the Er towards a strong negative value at the later H-phase. It has also been suggested that there is a clear difference in responses between ion and electron transports due to the change in the inhomogeneity in the Er. This observation suggests the presence of multiple types of turbulent fluctuations in the H-mode plasma state, which affects the ion energy and other channels of transport differently. The nonlinear dynamics that induce electric field bifurcation is also analysed. These analyses contribute to understanding of the L-H transition condition.

Published
2019

37. Comparison between I-mode and I-phase bursts in ASDEX Upgrade

Author

Kin, F., Birkenmeier, G., Happel, T., Pinzon, J., Hennequin, P., Stroth, U., Itoh, S.-I., Itoh, K., Inagaki, S., Kobayashi, T., ASDEX Upgrade Team, Max Planck Institute For Plasma Physics, and ASDEX Upgrade Team, Max Planck Institute for Plasma Physics, Max Planck Society

Published
2018

41. Observations of radially elongated particle flux induced by streamer in a linear magnetized plasma

Author

Kin, F., primary, Fujisawa, A., additional, Itoh, K., additional, Kosuga, Y., additional, Sasaki, M., additional, Inagaki, S., additional, Nagashima, Y., additional, Yamada, T., additional, Kasuya, N., additional, Yamasaki, K., additional, Hasamada, K., additional, Zhang, B. Y., additional, Kawachi, Y., additional, Arakawa, H., additional, Kobayashi, T., additional, and Itoh, S.-I., additional

Published
2019
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42. Towards an Emerging Understanding of Non-local Transport

Author

Massachusetts Institute of Technology. Plasma Science and Fusion Center, Rice, John E, Ida, K., Shi, Z., Sun, H.J., Inagaki, S., Kamiya, K., Tamura, N., Diamond, P.H., Dif-Pradalier, G., Zou, X.L., Itoh, K., Sugita, S., Gurcan, O.D., Estrada, T., Hidalgo, C., Hahm, T.S., Stroth, U., Field, A., Ding, X.T., Sakamoto, Y., Oldenburger, S., Yoshinuma, M., Kobayashi, T., Jiang, M., Hahn, S.H., Jeon, Y.M., Hong, S. H., Dong, J., Itoh, S.-I., Massachusetts Institute of Technology. Plasma Science and Fusion Center, Rice, John E, Ida, K., Shi, Z., Sun, H.J., Inagaki, S., Kamiya, K., Tamura, N., Diamond, P.H., Dif-Pradalier, G., Zou, X.L., Itoh, K., Sugita, S., Gurcan, O.D., Estrada, T., Hidalgo, C., Hahm, T.S., Stroth, U., Field, A., Ding, X.T., Sakamoto, Y., Oldenburger, S., Yoshinuma, M., Kobayashi, T., Jiang, M., Hahn, S.H., Jeon, Y.M., Hong, S. H., Dong, J., and Itoh, S.-I.

Abstract

In this overview, recent progress on the experimental analysis and theoretical models for non-local transport (non-Fickian fluxes in real space) are overviewed. The non-locality in the heat and momentum transport observed in the plasma, the departures from linear fluxgradient proportionality and spontaneously and externally triggered non-local transport phenomena will be described in both L-mode and improved-mode plasmas. We will report on ongoing evaluation of "fast front" and "intrinsically nonlocal" models, and their success in comparisons with experimental data.

Published
2018

44. Extraction of nonlinear waveform in turbulent plasma

Author

Kin, F., primary, Itoh, K., additional, Fujisawa, A., additional, Kosuga, Y., additional, Sasaki, M., additional, Yamada, T., additional, Inagaki, S., additional, Itoh, S.-I., additional, Kobayashi, T., additional, Nagashima, Y., additional, Kasuya, N., additional, Arakawa, H., additional, Yamasaki, K., additional, and Hasamada, K., additional

Published
2018
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50. Nonlinear Excitation of Subcritical Instabilities in a Toroidal Plasma

Author

Lesur, Maxime, Itoh, K., Ido, T., Osakabe, M., Ogawa, K., Shimizu, A., Sasaki, M., Ida, K., Inagaki, S., Itoh, S. -I., Grp, LHD Experiment, Research Institute for Applied Mechanics, Kyushu University, Kyushu University [Fukuoka], Institut Jean Lamour (IJL), Institut de Chimie du CNRS (INC)-Université de Lorraine (UL)-Centre National de la Recherche Scientifique (CNRS), National Institute for Fusion Science (NIFS), and Graduate University for Advanced Studies [Hayama] (SOKENDAI)

Subjects
Coupling, Physics, General Physics and Astronomy, Nanotechnology, Plasma, Mechanics, 01 natural sciences, Instability, Supercritical fluid, 010305 fluids & plasmas, Nonlinear system, Amplitude, [PHYS.PHYS.PHYS-PLASM-PH]Physics [physics]/Physics [physics]/Plasma Physics [physics.plasm-ph], Phase (matter), Phase space, 0103 physical sciences, 010306 general physics
Abstract

Équipe 107 : Physique des plasmas chauds; International audience; In a collisionless plasma, it is known that linearly stable modes can be destabilized (subcritically) by the presence of structures in phase space. However, nonlinear growth requires the presence of a seed structure with a relatively large threshold in amplitude. We demonstrate that, in the presence of another, linearly unstable (supercritical) mode, wave-wave coupling can provide a seed, which is significantly below the threshold, but can still grow by (and only by) the collaboration of fluid and kinetic nonlinearities. By modeling the subcritical mode kinetically, and the impact of the supercritical mode by simple wave-wave coupling equations, it is shown that this new kind of subcritical instability can be triggered, even when the frequency of the supercritical mode is rapidly sweeping. The model is applied to the bursty onset of geodesic acoustic modes in a LHD experiment. The model recovers several key features such as relative amplitude, time scales, and phase relations. It suggests that the strongest bursts are subcritical instabilities, driven by this mechanism of combined fluid and kinetic nonlinearities.

Published
2016

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