Your search keyword '"Nagashima, Y."' showing total 13 results

1. Sanae-Inoue Itoh 1952–2019: a memorial note for a pioneer researcher of plasma bifurcation

Author

Fujisawa, A., Kasuya, N., Kosuga, Y., Nagashima, Y., Sasaki, M., and Yamada, T.

Published

2023

2. Conceptual design of heavy ion beam probes on the PLATO tokamak.

Author

Ido, T., Fujisawa, A., Takemura, K., Kobayashi, T.-K., Nishimura, D., Kasuya, N., Fukuyama, A., Moon, C., Yamasaki, K., Inagaki, S., Nagashima, Y., and Yamada, T.

Subjects

TOKAMAKS, HEAVY ions, CONCEPTUAL design, ELECTRON density, ION beams, PLASMA turbulence

Abstract

Heavy ion beam probe (HIBP) systems have been designed for the new tokamak, PLATO [A. Fujisawa, AIP Conf. Proc. 1993, 020011 (2018)]. The designs have been completed, and the installations are in progress. Two HIBPs are being installed in toroidal sections 180° apart to investigate long-range correlations in the toroidal direction. Each HIBP consists of an injection beamline and a detection beamline as usual. Yet, one of the HIBPs is equipped with an additional detection beamline; the measurement positions of its two detection beamlines can be placed on almost the same magnetic surface yet at poloidal angles that differ by ∼180°. The use of three detection beamlines allows us to investigate spatial asymmetry and long-range correlations in both the toroidal and poloidal directions, simultaneously. The detected beam intensity is expected to be enough for turbulence measurements in almost the entire plasma region when the electron density is up to 1 × 1019 m−3 by selecting appropriate ion species for the probe beam. Each detector has three channels 10 mm apart, allowing measurement of local structures of micro-scale turbulence. Therefore, using the HIBPs on the PLATO tokamak will enable both local and global properties of plasma turbulence to be investigated, simultaneously. [ABSTRACT FROM AUTHOR]

Published

2021

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

Author

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

Subjects

PLASMA turbulence, CYLINDRICAL plasmas, BALLISTIC conduction, GAUSSIAN distribution, FLUX (Energy), PLASMA boundary layers

Abstract

The streamer-driven particle flux is evaluated experimentally in a linear cylindrical plasma. The streamers, a radially elongated and azimuthally localized structure created in turbulent plasma, really induce ballistic transport, and directly connect the plasma core to the edge within one order faster time scale than that of turbulence. The occurrence of large transport deviates from a Gaussian distribution and is likely to obey a power law. The fundamental plasma experiment clearly shows the significant and essential contributions of streamers to cross-field transport and structural formation of turbulent plasmas. [ABSTRACT FROM AUTHOR]

Published

2019

4. Combined methods of moment vectors and Stokes parameters to analyze tomographic image of plasma turbulence.

Author

Fujisawa, A., Nagashima, Y., Yamasaki, K., Inagaki, S., Yamada, T., and Sasaki, M.

Subjects

*STOKES parameters, *PLASMA turbulence, *CYLINDRICAL plasmas, *POLARIZATION (Nuclear physics), *VECTORS (Calculus)

Abstract

Plasma turbulence tomography is now working to show a two dimensional structure and dynamics of plasma turbulence in a cylindrical plasma device, PANTA. A new method, the Stokes parameter analysis on moment vectors, is being developed to treat the image of plasma turbulence and extract hidden characteristics of polarization or rotation of spatial patterns created in turbulent plasmas. The article presents the explanation of the method and the application results obtained from a PANTA plasma. [ABSTRACT FROM AUTHOR]

Published

2019

5. Extraction of nonlinear waveform in turbulent plasma.

Author

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

Subjects

PLASMA turbulence, WAVE analysis, NONLINEAR systems, ELECTRICAL harmonics, ELECTRIC discharges, SOLITONS

Abstract

Streamers and their mediator have been known to exist in linear cylindrical plasmas [Yamada et al., Nat. Phys. 4, 721 (2008)]. Conditional averaging is applied to extract the nonlinear characteristics of a mediator, which has been simply treated as a linear wave. This paper reports that a mediator should have higher harmonic components generated by self-couplings, and the envelope of a streamer should be generated with not only fundamental but also higher harmonic components of the mediator. Moreover, both the mediator and the envelope of the streamer have common features with solitary waves, i.e., the height should increase inversely as the square of their localization width. [ABSTRACT FROM AUTHOR]

Published

2018

6. Structure formation in parallel ion flow and density profiles by cross-ferroic turbulent transport in linear magnetized plasma.

Author

Kobayashi, T., Inagaki, S., Kosuga, Y., Sasaki, M., Nagashima, Y., Yamada, T., Arakawa, H., Kasuya, N., Fujisawa, A., Itoh, S.-I., and Itoh, K.

Subjects

PLASMA turbulence, ION flow dynamics, FERROELECTRIC materials, REYNOLDS stress, PLASMA instabilities

Abstract

In this paper, we show the direct observation of the parallel flow structure and the parallel Reynolds stress in a linear magnetized plasma, in which a cross-ferroic turbulence system is formed [Inagaki et al., Sci. Rep. 6, 22189 (2016)]. It is shown that the parallel Reynolds stress induced by the density gradient driven drift wave is the source of the parallel flow structure. Moreover, the generated parallel flow shear by the parallel Reynolds stress is found to drive the parallel flow shear driven instability D’Angelo mode, which coexists with the original drift wave. The excited D’Angelo mode induces the inward particle flux, which seems to help in maintaining the peaked density profile. [ABSTRACT FROM AUTHOR]

Published

2016

7. Physics of Zonal Flows.

Author

Itoh, K., Itoh, S.-I., Diamond, P. H., Fujisawa, A., Nagashima, Y., Yagi, M., Fukuyama, A., Hahm, T. S., Hallatschek, K., and Tynan, G. R.

Subjects

FLUID dynamics, TURBULENCE, DRIFT waves, COMPUTATIONAL fluid dynamics, PHYSICS

Abstract

Zonal flows, by which we mean 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 lecture note, we present new viewpoints and unifying concepts 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. We briefly survey issues such as (i) mechanism of zonal flows excitation, (ii) back interaction on turbulence, (iii) saturation mechanism of zonal flows, (iv) energy partition between fluctuations and flows, (v) turbulent transport coefficient dressed by zonal flows, and (vi) experimental efforts to verify these fundamental processes. [ABSTRACT FROM AUTHOR]

Published

2008

8. Role of stochasticity in turbulence and convective intermittent transport at the scrape off layer of Ohmic plasma in QUEST.

Author

Banerjee, Santanu, Zushi, H., Nishino, N., Hanada, K., Ishiguro, M., Tashima, S., Liu, H. Q., Mishra, K., Nakamura, K., Idei, H., Hasegawa, M., Fujisawa, A., Nagashima, Y., and Matsuoka, K.

Subjects

STOCHASTIC processes, PLASMA turbulence, TRANSPORT theory, PLASMA boundary layers, PLASMA gases, FLUCTUATIONS (Physics)

Abstract

Statistical features of fluctuations are investigated using the fast camera imaging technique in the scrape of layer (SOL) of electron cyclotron resonance heated Ohmic plasma. Fluctuations in the SOL towards low field side are dominated by coherent convective structures (blobs). Two dimensional structures of the higher order moments (skewness s and kurtosis k) representing the shape of probability density function (PDF) are studied. s and k are seen to be functions of the magnetic field lines. s and k are consistently higher towards the bottom half of the vessel in the SOL showing the blob trajectory along the field lines from the top towards bottom of the vessel. Parabolic relation (k = As² + C) is observed between s and k near the plasma boundary, featuring steep density gradient region and at the far SOL. The coefficient A, obtained experimentally, indicates a shift of prominence from pure drift-wave instabilities towards fully developed turbulence. Numerical coefficients characterizing the Pearson system are derived which demonstrates the progressive deviation of the PDF from Gaussian towards gamma from the density gradient region, towards the far SOL. Based on a simple stochastic differential equation, a direct correspondence between the multiplicative noise amplitude, increased intermittency, and hence change in PDF is discussed. [ABSTRACT FROM AUTHOR]

Published

2014

9. Physics of zonal flows.

Author

Itoh, K., Itoh, S.-I., Diamond, P. H., Hahm, T. S., Fujisawa, A., Tynan, G. R., Yagi, M., and Nagashima, Y.

Subjects

SHEAR flow, FLUID dynamics, DRIFT waves, PLASMA turbulence, PLASMA confinement, CONTROLLED fusion

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. [ABSTRACT FROM AUTHOR]

Published

2006

10. On the bicoherence analysis of plasma turbulence.

Author

Itoh, K., Nagashima, Y., Itoh, S.-I., Diamond, P. H., Fujisawa, A., Yagi, M., and Fukuyama, A.

Subjects

*PLASMA turbulence, *TURBULENCE, *DRIFT waves, *FLUCTUATIONS (Physics), *LANGEVIN equations, *PHYSICS

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. [ABSTRACT FROM AUTHOR]

Published

2005

11. Wavelet analyses using parallel computing for plasma turbulence studies.

Author

Fujisawa, A., Shimizu, A., Itoh, K., Nagashima, Y., Yamada, T., Inagaki, S., Matsuoka, K., and Itoh, S.-I.

Subjects

PLASMA turbulence, WAVELETS (Mathematics), PERSONAL computers, ELECTRIC fields, FLUCTUATIONS (Physics), ELECTRONIC probes, STELLARATORS

Abstract

The wavelet analyses have been carried out, using a cluster of personal computer, on the signal of electric field fluctuations measured with heavy ion beam probes in the compact helical system stellarator. The results have revealed the intermittent characteristics of turbulence and of the nonlinear couplings between elemental waves of turbulence. The usage of parallel computing is found to successfully reduce the calculation time as inversely proportional to the CPU number used the cluster, which shows the nature of 'embarrassingly parallel computation.' The present example of the wavelet analyses clearly demonstrates the importance of the advanced analyzing methods and the parallel computation for the modern studies of plasma turbulence. [ABSTRACT FROM AUTHOR]

Published

2010

12. Fast visible imaging and edge turbulence analysis in QUEST.

Author

Banerjee, Santanu, Zushi, H., Nishino, N., Nagashima, Y., Hanada, K., Ishiguro, M., Ryoukai, T., Tashima, S., Inoue, T., Nakamura, K., Idei, H., Hasegawa, M., Fujisawa, A., and Matsuoka, K.

Subjects

COMPLEMENTARY metal oxide semiconductors, IMAGING systems, PLASMA turbulence, MAGNETIC fields, ELECTROMAGNETS, COHERENCE (Physics)

Abstract

A fast visible imaging system is installed on the spherical tokamak QUEST to study edge turbulence. The camera uses a complementary metal-oxide semiconductor detector with a maximum resolution of 1024 × 1024 at 7000 frames/s (fps) and can achieve 775 kfps at a resolution of 128 × 24. In this paper, we present the salient features of the system and its application to study edge turbulence in 8.2 GHz ECRH driven slab plasma, without plasma current. Vertical magnetic field (Bz) topology is varied with three sets of poloidal field (PF) coils and the variation in the edge turbulence is investigated as a function of the Bz strength and curvature. Fluctuation amplitude was highest for the shallow PF well. Cross-correlation coefficient shows distinct coherent mode along z direction at the steep density gradient region and it grows with the PF mirror ratio. [ABSTRACT FROM AUTHOR]

Published

2012

13. Plasma equilibrium based on EC-driven current profile with toroidal rotation on QUEST.

Author

Nakamura, K., Alam, M.M., Jiang, Y.Z., Mitarai, O., Takechi, M., Hasegawa, M., Tokunaga, K., Hanada, K., Idei, H., Nagashima, Y., Onchi, T., Kuroda, K., Watanabe, O., Higashijima, A., Nagata, T., Shimabukuro, S., Kawasaki, S., and Fukuyama, A.

Subjects

*PLASMA equilibrium, *TOROIDAL plasma, *CENTRIFUGAL force, *PLASMA currents, *ROTATIONAL motion, *PLASMA density, *PLASMA turbulence

Abstract

• Plasma current seems to flow in the open magnetic surface in the outside of the closed magnetic surface in the low-field region. • Considering the toroidal rotation, the equilibrium is fitted within nested magnetic surfaces by SU-EFIT. • Sum of contributions from toroidal rotation and pressure gradient to plasma current density is constant. In the EC-driven (8.2 GHz) steady-state plasma on QUEST, plasma current seems to flow in the open magnetic surface in the outside of the closed magnetic surface in the low-field region according to plasma current fitting method without taking equilibrium into account. In our previous work, plasma equilibrium solution was fitted assuming all plasma current is flowing in the inside of the Last Closed Flux Surface (LCFS). It was solved within isotropic pressure profile by EFIT code. Opposite-polarity current density region appeared in the high-field region. Here in this article, considering the toroidal rotation, the equilibrium is fitted within nested magnetic surfaces by SU-EFIT. Though the plasma magnetic axis shifts outward due to the centrifugal force, the opposite polarity current does not disappear in the high-field region. And relation between the toroidal rotation speed and the poloidal beta value will be discussed. [ABSTRACT FROM AUTHOR]

Published

2019