Abstract List
PL-1 | Patrick H Diamond (University of California, San Diego, USA) | ||
Wave Momentum, Potential Vorticity Mixing, Symmetry Breaking and The Physics Self-Accelerating Plasma Flows [2. Turbulence and Flow] | |||
PL-2 | Yasuhito Kiwamoto (Professor Emeritus, Kyoto University, Japan) | ||
Turbulence and structure formation associated with vortex dynamics in a non-neutral plasma flow [2. Turbulence and Flow] | |||
PL-3 | Akio KOMORI (National Institute for Fusion Science, JAPAN) | ||
Research of basic plasma physics toward nuclear fusion in LHD [1. Transport and Confinement] | |||
PL-4 | Steven Charles Cowley (CCFE, United Kingdon) | ||
Fusion, ITER and the Science Challenges. [1. Transport and Confinement] | |||
PL-5 | Ambrogio Fasoli (CRPP-EPFL, Switzerland) | ||
Wave particle interactions in plasmas: Alfven waves, turbulence and blobs [4. Wave-Particle interaction] | |||
PL-6 | Jian Zheng (Department of Modern Physics, University of Science and Technology of China, P. R. China) | ||
Optical emission as a key diagnostic of hot electrons [5. High-energy density plasma] | |||
SP-1 | Saku Tsuneta (Hinode Science Center, National Astronomical Observatory of Japan, Japan) | ||
Hinode ""A New Solar Observatory in Space [8. Advanced Plasma Science] | |||
I-1 | Garrard Conway (Max-Planck-Institut fuer Plasmaphysik, Germany) | ||
Interaction of mean and oscillating plasma flows across confinement mode transitions [2. Turbulence and Flow] | |||
I-2 | Diego del-Castillo-Negrete (Oak Ridge National Laboratory, USA) | ||
Non-local models of non-diffusive transport [1. Transport and Confinement] | |||
I-3 | Yasuhiro Idomura (Japan Atomic Energy Agency, Japan) | ||
Properties of avalanches and momentum transport in driven ITG turbulence [2. Turbulence and Flow] | |||
I-4 | George Robert Tynan (University of California San Diego, USA) | ||
Intrinsic Rotation and Zonal Flow Generation in a Simple Laboratory Plasma System [2. Turbulence and Flow] | |||
I-5 | Fumimichi Sano (Institute of Advanced Energy, Kyoto University, Japan) | ||
Physics Research on the Heliotron J Confinement [1. Transport and Confinement] | |||
I-6 | Masayuki Yoshikawa (Plasma Research Center, University of Tsukuba, Japan) | ||
Study of the fluctuation suppressions during the potential formation in the tandem mirror GAMMA 10 [7. Heating and Diagnostics] | |||
I-7 | Takahiro Suzuki (Japan Atomic Energy Agency, Japan) | ||
Development of advanced tokamak operation scenarios in JT-60U and JT-60SA [6. Edge Plasma and Steady-State Physics] | |||
I-8 | Shinsuke Fujioka (Osaka University, Japan) | ||
X-ray astrophysics with high-power laser facility [5. High-energy density plasma] | |||
I-9 | Ritoku Horiuchi (NIFS, Japan) | ||
Magnetic Reconnection Controlled by MultiHierarchy Physics in an Open System [3. MHD Phenomena] | |||
I-10 | Walter Gekelman (University of California, Los Angeles, USA) | ||
Three-dimensional magnetic field line reconnection involving flux ropes and Alfven waves. [3. MHD Phenomena] | |||
I-11 | Todd E Evans (General Atomics, USA) | ||
A Conceptual Model for the Nonlinear Dynamics of __?NEdge Localized Modes in Tokamak Plasmas [6. Edge Plasma and Steady-State Physics] | |||
I-12 | shigeru morita (National Institute for Fusion Science, Japan) | ||
Progress of Impurity-Related Physics Experiment in LHD [1. Transport and Confinement] | |||
I-13 | Mizuki Sakamoto (Advanced Fusion Research Center, Research Institute for Applied Mechanics, Kyushu University, Japan) | ||
Plasma-Wall Interaction Study towards the Steady State Operation [6. Edge Plasma and Steady-State Physics] | |||
I-14 | Mitsutoshi Aramaki (Nagoya University, Japan) | ||
Nondestructive Diagnostics of Strongly Coupled One Component Plasma Confined in RF Trap [8. Advanced Plasma Science] | |||
I-15 | Richard Michael MORE (Lawrence Berkeley National Laboratory, USA) | ||
Emission of Light by Hot Dense Matter [5. High-energy density plasma] | |||
I-16 | Akiyoshi HATAYAMA (Keio University, Japan) | ||
Modeling of Negative Ion Plasma in Hydrogen Negative Ion Sources - Recent Progress and Open Problems - [7. Heating and Diagnostics] | |||
I-17 | Matthias Otte (Max-Planck-Institut f__r Plasmaphysik, Greifswald branch, Germany) | ||
Electron Bernstein Waves at the WEGA Stellarator Heating and Emission [7. Heating and Diagnostics] | |||
I-18 | Hyeon Park (Pohang University of Science and Technology, KOREA) | ||
Advances in understanding of Sawtooth Oscillation and Visualization technique for transport study in tokamaks [3. MHD Phenomena] | |||
I-19 | Viacheslav Petrovich SHEVELKO (Leading scientist, Russia) | ||
Atomic charge changing processes in plasmas [7. Heating and Diagnostics] | |||
I-20 | Rikizo Hatakeyama (Tohoku University, Japan) | ||
Control of Novel Gas-Liquid Interfacial Plasmas for Nano-Bio Conjugates Creation [8. Advanced Plasma Science] | |||
O-1 | George J Morales (UCLA, USA) | ||
Exponential Frequency Spectra Lorentzian Pulses and Intermittent Transport in Pressure Gradients [2. Turbulence and Flow] | |||
O-2 | Volodymyr Mykhaylenko (Kharkov National University, Ukraine) | ||
Turbulence evolution in plasma shear flows [2. Turbulence and Flow] | |||
O-3 | Jiaqi Dong (Southwestern Institute of Physics, China) | ||
Experimental studies of turbulence and zonal flow in edge plasmas of a tokamak [2. Turbulence and Flow] | |||
O-4 | Jose de Almeida Vicente (IPFN, Portugal) | ||
Blobs at the high field side of the FT-2 tokamak [1. Transport and Confinement] | |||
O-5 | Takuma Yamada (The University of Tokyo, Japan) | ||
Nonlinear mode couplings in a cylindrical magnetized plasma [2. Turbulence and Flow] | |||
O-6 | Ronald Edward Waltz (General Aomics, USA) | ||
GYRO simulations supporting the TGLF transport model [1. Transport and Confinement] | |||
O-7 | Naoki Bessho (Center for Integrated Computation and Analysis of Reconnection and Turbulence, Space Science Center, University of New Hampshire, USA) | ||
Fast reconnection in low density hydrogen and pair plasmas [3. MHD Phenomena] | |||
O-8 | Izumi Murakami (National Institute for Fusion Science, Japan) | ||
Analysis of Fe XXI spectral lines measured in LHD plasmas [7. Heating and Diagnostics] | |||
O-9 | Yunfeng Liang (Fz-Juelich, Germany) | ||
ELM control by low n magnetic perturbations on JET [3. MHD Phenomena] | |||
O-10 | Atsushi Ito (National Institute for Fusion Science, Japan) | ||
Temperature dependence of chemical erosion of graphene by hydrogen atom bombardment [6. Edge Plasma and Steady-State Physics] | |||
O-11 | Tokihiko Tokuzawa (National Institute for Fusion Science, Japan) | ||
Multi-channel Microwave Reflectometer for Fluctuation Profile Measurements in LHD [7. Heating and Diagnostics] | |||
O-12 | Alexander Vladimirovich Melnikov (RRC ""Kurchatov Institute, Russia) | ||
The study the Alfven Eigenmodes in the TJ-II stellarator by HIBP [4. Wave-Particle interaction] | |||
P1-3 | S Toda (National Institute for Fusion Science, Japan) | ||
Study of the effect of the helical ripple on the confinement via zonal flows in helical plasmas [1. Transport and Confinement] | |||
P1-4 | Shun-ichi Oikawa (Hokkaido University, Japan) | ||
Quantum Mechanical Plasma Scattering [1. Transport and Confinement] | |||
P1-5 | Haruhiko Himura (Kyoto Institute of Technology, Japan) | ||
Role of negative potential barrier formed by electrons confined in stochastic magnetic region of helical nonneutral plasmas [1. Transport and Confinement] | |||
P1-6 | hosoi katsuhiro (plasma reseach center, japan) | ||
Investigation on optimal limiter condition for stable sustainment of the potential confined plasma in GAMMA 10 [1. Transport and Confinement] | |||
P1-7 | Osamu Watanabe (The Univ. of Tokyo, Japan) | ||
Comparison of hydrogen and deuterium plasmasin ECH start up experiment in the TST2 Spherical Tokamak [1. Transport and Confinement] | |||
P1-8 | Takahiro Shimazaki (Hokkaido University, Japan) | ||
Preliminary Study on Uncertainty Driven Plasma Diffusion II [1. Transport and Confinement] | |||
P1-9 | Ikuhiro Yamada (Nagoya University, Japan) | ||
Analysis of radiative mantle formation by impurity seeding in ITER [1. Transport and Confinement] | |||
P1-10 | Yosuke Kawai (Graduate School of Human and Environmental Studies, Kyoto University, Japan) | ||
Axisymmetric eigenmodes of spheroidal pure electron plasmas [1. Transport and Confinement] | |||
P1-11 | Yoshitada Masaoka (Kyoto University, Japan) | ||
The confinement and the loss process of the alpha particles in the LHD type reactor [1. Transport and Confinement] | |||
P1-12 | Hirotomo Itagaki (Nihon University, Japan) | ||
Characteristic of a repetitively injected spheromak in a vertical guide field [1. Transport and Confinement] | |||
P1-13 | Vasyl I. MASLOV (NSC Kharkov Institute of Physics & Technology, Ukraine) | ||
OPTIMAL PARAMETERS FOR TOROIDAL FLOW PLASMA CONFINEMENT USING ELECTRODES [1. Transport and Confinement] | |||
P1-14 | MASLOV I. Vasyl (NSC Kharkov Institute of Physics & Technology, Ukraine) | ||
Steepening and Formation of Solitary Dipole Radial Distribution of Electrical Field Leading to Maximal Shear [1. Transport and Confinement] | |||
P1-15 | Vasyl I. MASLOV (NSC Kharkov Institute of Physics & Technology, Ukraine) | ||
PLASMA ELECTRON OVERHEATING NEAR RATIONAL SURFACE WITH MAGNETIC ISLANDES LEADING TO SHEAR ENHANCEMENT [1. Transport and Confinement] | |||
P1-16 | Satoshi Yamamoto (Institute of Advanced Energy, Kyoto University, Japan) | ||
Development of magnetic island detector by magnetic measurement in helical plasmas [1. Transport and Confinement] | |||
P1-17 | Shinsuke Satake (National Institute for Fusion Science, Japan) | ||
Simulation study on configuration dependence of GAM in LHD plasmas [1. Transport and Confinement] | |||
P1-18 | Tetsutarou Oishi (Nagoya University, Japan) | ||
Analysis on DT Fuel Ratio in Power Plant Plasmas Using Integrated Equilibrium and Transport Simulation Code TOTAL [1. Transport and Confinement] | |||
P1-19 | Andres Bustos (CIEMAT, Spain) | ||
Fas Ion Simulations in LHD [1. Transport and Confinement] | |||
P1-20 | Milan Rajkovic (Institute of Nuclear Sciences Vinca, Serbia) | ||
Lyapunov exponents and control of spatiotemporal chaos and transport in helical magnetic devices [1. Transport and Confinement] | |||
P1-21 | Tsuguhiro Watanabe (National Institute for Fusion Science, Japan) | ||
Helical pitch parameter dependency of high beta equilibrium of helical plasmas [1. Transport and Confinement] | |||
P1-22 | akihiro shimizu (National Institute for Fusion Science, Japan) | ||
Potential measurements with the 6-MeV Heavy Ion Beam Probe in the internal transport barrier of LHD [1. Transport and Confinement] | |||
P1-23 | Masaki Osakabe (NIFS, JAPAN) | ||
Evaluation of fast-ion confinement using radially injected neutral beam on LHD [1. Transport and Confinement] | |||
P1-24 | isao katanuma (University of Tsukuba, Japan) | ||
The role of flute modes in the GAMMA10 tandem mirror [2. Turbulence and Flow] | |||
P1-25 | Masanori Nunami (National Institute for Fusion Science, Japan) | ||
Gyrokinetic simulation study in precise LHD equilibrium [2. Turbulence and Flow] | |||
P1-26 | Keisuke Araki (Okayama University of Science, Japan) | ||
Orthonormal Divergece free Wavelet Analysis of Energy Transfer in Hall MHD Turbulence [2. Turbulence and Flow] | |||
P1-27 | Zhongbing Shi (Sokendai, Japan) | ||
Intermittency and nonlinear behaviors of the turbulence in the reversed field pinch plasmas [2. Turbulence and Flow] | |||
P1-28 | ryo yonenaga (Plasma Research Center, University of Tsukuba, Japan) | ||
Plasma imaging by using a high speed camera in the GAMMA10 tandem mirror [2. Turbulence and Flow] | |||
P1-29 | Atsushi Ito (National Institute for Fusion Science, Japan) | ||
Equilibrium and stability of toroidal plasmas with poloidal sonic flow [2. Turbulence and Flow] | |||
P1-30 | Kenji Tanaka (National Institute for Fusion Science, Japan) | ||
Turbulence response in the high Ti discharge of LHD [2. Turbulence and Flow] | |||
P1-31 | Tao Lan (University of Science and Technology of China, China) | ||
Observations of geodesic acoustic modes and low-frequency zonal flow in the edge of HL-2A and HT-7 tokamaks [2. Turbulence and Flow] | |||
P1-32 | Shinji Yoshimura (NIFS, JAPAN) | ||
Parallel ion flow velocity measurement using laser induced fluorescence method in an electron cyclotron resonance plasma [2. Turbulence and Flow] | |||
P1-33 | Yoshihiko Nagashima (Graduate School of Frontier Sciences, The University of Tokyo, Japan) | ||
Fluctuation measurement in the edge plasma on TST-2 [2. Turbulence and Flow] | |||
P1-34 | Yusuke Kosuga (University of California, San Diego, USA) | ||
Collisionless Dynamical Friction and Relaxation in a simple Drift Wave-Zonal Flow Turbulence [2. Turbulence and Flow] | |||
P1-35 | Katsuji ICHIGUCHI (National Institute for Fusion Science, JAPAN) | ||
Magnetic Islands Induced by Nonlinear Evolution of Resistive Interchange Mode [3. MHD Phenomena] | |||
P1-36 | Vladimir D. Pustovitov (Russian Research Centre ___Kurchatov Institute__?, Russia) | ||
Theory of diamagnetic signal in current free stellarators [3. MHD Phenomena] | |||
P1-37 | yuki takemura (Kyoto Institute of Technology, Japan) | ||
Study on the mode structure of the low n MHD instabilities observed in LHD [3. MHD Phenomena] | |||
P1-38 | Ryosuke Ueda (Graduate School of Engineering, Hokkaido University, Japan) | ||
Constrained Interpolation Profile Method Applied to solving Magnetohydrodynamics Equations in terms of Vector Potential [3. MHD Phenomena] | |||
P1-39 | Takashi Kanki (Japan Coast Guard Academy, Japan) | ||
MHD simulation of kink instability and plasma flow during sustainment of coaxial gun spheromak [3. MHD Phenomena] | |||
P1-40 | Miho Janvier (Graduate School of Energy Science, Kyoto University, Japan) | ||
Investigation of the trigger mechanism in the explosive nonlinear growth of the Double Tearing Mode [3. MHD Phenomena] | |||
P1-41 | Ken Uzawa (National Institute for Fusion Science, Department of Simulation Science, Japan) | ||
Propagation direction of drift tearing mode in nonlinear regime [3. MHD Phenomena] | |||
P1-43 | Yasuhiro Suzuki (National Institute for Fusion Science, Japan) | ||
Optimization of the heliotron configuration using split type helical coils [3. MHD Phenomena] | |||
P1-44 | Kazuo Nakamura (Research Institute for Applied Mechanics, Kyushu University, Japan) | ||
Effect of toroidal and poloidal cut on eddy current in conducting liner for vertical position stabilization in QUEST [3. MHD Phenomena] | |||
P1-47 | Kenta Shikii (Department of Physics,School of Science,Nagoya University, Japan) | ||
Detrapping mechanism of ultrarelativistic electronsfrom an oblique shock wave [4. Wave-Particle interaction] | |||
P1-48 | Seiichi Takahashi (Department of Physics, Nagoya University, Japan) | ||
Electric field component parallel to the magnetic field in nonlinear magnetosonic waves [4. Wave-Particle interaction] | |||
P1-49 | Mieko Toida (Department of Physics, Nagoya University, Japan) | ||
Simulation studies of ion beam productionby an oblique shock wave and associated instabilities [4. Wave-Particle interaction] | |||
P1-50 | Hideo Nuga (Department of Nuclear Engineering, Kyoto University, Japan) | ||
Effects of radial transport on ICRF heating in tokamak plasmas [4. Wave-Particle interaction] | |||
P1-51 | Tomohisa Okamoto (Kyoto university, Japan) | ||
Analysis of Low frequency Alfven Eigenmodes in Toroidal Plasmas Using Drift Kinetic Dielectric Tensor [4. Wave-Particle interaction] | |||
P1-53 | Nobuhiro Nishino (Hiroshima University, JAPAN) | ||
Peripheral plasma measurement in Heliotron J using fast cameras [6. Edge Plasma and Steady-State Physics] | |||
P1-54 | Hiroaki Nakamura (National Institute for Fusion Science, Japan) | ||
Dependence of saturation temperature on diamond surfaces adsorbing hydrogen [6. Edge Plasma and Steady-State Physics] | |||
P1-55 | Keisuke Fujii (Graduate School of Engineering, Kyoto University, Japan) | ||
Development of Multi wavelength range Fine resolution Spectrometer for Hydrogen Atomic and Molecular Emission Lines [6. Edge Plasma and Steady-State Physics] | |||
P1-56 | Seiki Saito (Dept. of Energy Engineering and Science, Nagoya University, Japan) | ||
Incident angle dependence of reactions between graphene and hydrogen atom by molecular dynamics simulation [6. Edge Plasma and Steady-State Physics] | |||
P1-58 | Gakushi Kawamura (National Institute for Fusion Science, Japan) | ||
Effects of divertor plasma on impurity deposition on the LHD first wall [6. Edge Plasma and Steady-State Physics] | |||
P1-60 | Haiqing Liu (Interdisciplinary Graduate School of Engineering Sciences, Kyushu University, Japan) | ||
Measurement of blob like structures with combining Langmuir probe and fast camera on QUEST [6. Edge Plasma and Steady-State Physics] | |||
P1-61 | Makoto Nakamura (Department of Advanved Energy, Graduate School of Frontier Sciences, the University of Tokyo, Japan) | ||
One dimensional transport analysis of divertor detachment [6. Edge Plasma and Steady-State Physics] | |||
P1-62 | Hayato Tsuchiya (NIFS, JAPAN) | ||
Property of Intermittent Bursts in Edge Plasma of Large Helical Device [6. Edge Plasma and Steady-State Physics] | |||
P1-63 | Lukas Pichl (International Christian University, Japan) | ||
Electron capture in collisions of Li II with molecularhydrogen isotopes at low keV range of impact energy [6. Edge Plasma and Steady-State Physics] | |||
P1-64 | Murakami Sadayoshi (Dpt Nuclear Eng., Kyoto Univ., Japan) | ||
Optimization Study of ICRF heating in the LHD by TASKWM and GNET [7. Heating and Diagnostics] | |||
P1-65 | Takashi Mutoh (NIFS, Japan) | ||
Electromagnetic field simulation for ICRF antenna and comparison with experimental results in LHD [7. Heating and Diagnostics] | |||
P1-66 | Tetsuo Seki (National Institute for Fusion Science, Japan) | ||
Study of antenna loading resistance of LHD ICRF antenna [7. Heating and Diagnostics] | |||
P1-67 | Hiroshi KASAHARA (NIFS, Japan) | ||
The analysis of ICRF antenna with controllable toroidal wavenumber in LHD [7. Heating and Diagnostics] | |||
P1-68 | Syun'ichi Shiraiwa (PSFC, MIT, USA) | ||
FEM based simulation of IC and LH antenna-plasma coupling [7. Heating and Diagnostics] | |||
P1-69 | Orso C. Meneghini (MIT-PSFC, USA) | ||
Full wave simulation of Lower Hybrid waves in ITER plasmas based on the finite element method [7. Heating and Diagnostics] | |||
P1-70 | shingo abe (niigata university, japan) | ||
Numerical Analysis of Slow Wave Instabilities in X band Sinusoidally Corrugate Waveguide with Coaxial Slow Wave Structure [7. Heating and Diagnostics] | |||
P1-72 | Hiroto Matsuura (Osaka Prefecture University, Japan) | ||
Heat flux measurement in Heliotron J with the hybrid directional probe [7. Heating and Diagnostics] | |||
P1-73 | Gunsu Yun (Pohang University of Science and Technology, Korea) | ||
ECE Imaging for KSTAR [7. Heating and Diagnostics] | |||
P1-74 | Nagayama Yoshio (National Institute for Fusion Science, Japan) | ||
Development of Microwave Imaging Diagnostics in LHD [7. Heating and Diagnostics] | |||
P1-75 | Tomokazu Yoshinaga (National Institute for Fusion Science, JAPAN) | ||
Microwave Imaging Reflectometry in LHD [7. Heating and Diagnostics] | |||
P1-76 | Woochang Lee (POSTECH, South Korea) | ||
Microwave Imaging Reflectometry for KSTAR [7. Heating and Diagnostics] | |||
P1-77 | Kuwahara Daisuke (Tokyo Institute of Technology, Japan) | ||
Development of 2D Antenna Array for Microwave Imaging [7. Heating and Diagnostics] | |||
P1-78 | Yuta Ishii (Plasma Research Center, University of Tsukuba, Japan) | ||
Preliminary Simulation Study for Doppler Reflectometry [7. Heating and Diagnostics] | |||
P1-79 | Byron Jay Peterson (NIFS, Japan) | ||
Upgrade of Imaging Bolometers on LHD [7. Heating and Diagnostics] | |||
P1-81 | Akira Ejiri (The University of Tokyo, Japan) | ||
Development of a bright polychoromator for Thomson scattering measurements [7. Heating and Diagnostics] | |||
P1-82 | Takashi Yamaguchi (Graduate School of Frontier Sciences, The University of Tokyo, Japan) | ||
Development of a Thomson scattering system in the TST 2 spherical tokamak [7. Heating and Diagnostics] | |||
P1-83 | Masaki Ishiguro (IGSES, Kyushu Univ., Japan) | ||
Study on Reconstruction of Vacuum Magnetic Surface in QUEST [7. Heating and Diagnostics] | |||
P1-84 | Peter Drewelow (Max-Planck-Institut f__r Plasmaphysik branch Greifswald, EURATOM Assoziation, Germany) | ||
Visualization of magnetic field lines at the WEGA stellarator [7. Heating and Diagnostics] | |||
P1-87 | Wataru Oohara (Yamaguchi University, Japan) | ||
Hydrogen pair ion production by catalytic ionization [8. Advanced Plasma Science] | |||
P1-88 | takahiro nakano (department of electronic device engineering, yamaguchi university, japan) | ||
Effect of vibrationally excited molecules on negative-ion production of deuterium and hydrogen in a pure volume production source [8. Advanced Plasma Science] | |||
P1-89 | Yuichi Tamura (Konan University, Japan) | ||
Haptization of molecular dynamics simulation with thermal display [8. Advanced Plasma Science] | |||
P1-90 | Ayumu Saitoh (Graduate School of Engineering, University of Hyogo, Japan) | ||
Application of Two Dimensional Extended Boundary Node Method to Potential Problem [8. Advanced Plasma Science] | |||
P1-91 | Taku Itoh (Faculty of Science and Technology, Seikei University, Japan) | ||
Three Dimensional Extended Boundary Node Method to Potential Problem [8. Advanced Plasma Science] | |||
P1-92 | Hiroaki Ohtani (NIFS, Japan) | ||
Simulation Data Analysis by Virtual Reality System [8. Advanced Plasma Science] | |||
P1-93 | Keiji Sawada (Shinshu University, Japan) | ||
FDTD simulation on plasmon in gold nanorod excited by scanning near field optical microscopy [8. Advanced Plasma Science] | |||
P1-95 | Kunihiro Kamataki (Kyushu University, Japan) | ||
ECRH Superposition on Linear Cylindrical Helicon Plasma in LMDU [2. Turbulence and Flow] | |||
P1-96 | Yutaka Matsumoto (Grasuate School of Engineering, Hokkaido University, Japan) | ||
Application of Algebraic Approximation to Three Dimensional Multibody Coulomb Problem [1. Transport and Confinement] | |||
P2-1 | Ryutaro Kanno (National Institute for Fusion Science, Japan) | ||
Thermal transport in ergodic region of collisionless toroidal plasma [1. Transport and Confinement] | |||
P2-2 | Akinobu Matsuyama (Graduate School of Energy Science, Kyoto University, Japan) | ||
Monte Carlo computation of neoclassical poloidal and toroidal viscosity coefficients in helical axis heliotrons [1. Transport and Confinement] | |||
P2-3 | Sumio Kitajima (Tohoku University, Japan) | ||
Effects of Magnetic Islands Produced by External Perturbation Fields in Tohoku University Heliac [1. Transport and Confinement] | |||
P2-4 | Tomo-Hiko Watanabe (National Institute for Fusion Science, Japan) | ||
Gyrokinetic simulation of zonal flows in helical plasmas with equilibrium scale radial electric field [1. Transport and Confinement] | |||
P2-5 | Koichi Umeda (Nagoya university, Japan) | ||
Self consistent pressure and current profiles in high beta D 3He Tokamak reactors [1. Transport and Confinement] | |||
P2-6 | Satoshi Taniguchi (Nagoya University, Japan) | ||
Control of Neoclassical Tearing Mode by Electron Cyclotron Current Drive and Non Resonant Helical Field Application in ITER [1. Transport and Confinement] | |||
P2-8 | Kazuhisa Baba (Nagoya University, Japan) | ||
Initial plasma confinement experiments in tokamak and helical hybrid device TOKASTAR2 [1. Transport and Confinement] | |||
P2-9 | Koki Okano (Nagoya Univ., Japan) | ||
Construction and plasma initiation of the tokamak and helical hybrid device TOKASTAR2 [1. Transport and Confinement] | |||
P2-10 | Yoshihito Hori (Nagoya University, Japan) | ||
Analysis of internal transport barrier formation in tokamak and helical reactor plasmas [1. Transport and Confinement] | |||
P2-11 | Akiyoshi Murakami (The Graduate University for Advanced Studies, Japan) | ||
Formation of cluster jet with various gasses and its application to fusion plasma experiments [1. Transport and Confinement] | |||
P2-12 | Arimitsu Wakasa (Kyoto university, Japan) | ||
Transport analysis of the LHD plasma using the integrated code TASK3D [1. Transport and Confinement] | |||
P2-13 | Daichi Sugimoto (Department of Electronics, Kyoto Institute of Technology, Japan) | ||
Experimental studies on helical nonneutral plasmas with helical magnetic axis [1. Transport and Confinement] | |||
P2-14 | Donald Atchison Spong (Oak Ridge National Laboratory, U. S. A.) | ||
New QPQI symmetric stellarator configurations [1. Transport and Confinement] | |||
P2-15 | Atsushi Fukuyama (Kyoto University, Japan) | ||
Transport simulation of helical plasmas using the TASK TX code [1. Transport and Confinement] | |||
P2-16 | Kenichi Nagaoka (National Institute for Fusion Science, Japan) | ||
Formation Condition of Ion Internal Transport Barrier in Large Helical Device [1. Transport and Confinement] | |||
P2-17 | Wenlu ZHANG (University of Califorina, Irvine, U.S.) | ||
Gyrokinetic Particle Simulation of Energetic Particle Instability in Fusion Plasmas [1. Transport and Confinement] | |||
P2-18 | Hideo Sugama (National Institute for Fusion Science, Japan) | ||
Model collision operators for multiple ion species plasmas and gyrokinetic entropy balance equations [2. Turbulence and Flow] | |||
P2-20 | Tatsuya Kobayashi (Kyushu University, Japan) | ||
Bispectral analysis of density and potential fluctuations in high neutral density cylindrical plasma [2. Turbulence and Flow] | |||
P2-21 | Hiroyuki Arakawa (Kyushu University, Japan) | ||
Probability distribution function of density fluctuation in cylindrical helicon plasmas [2. Turbulence and Flow] | |||
P2-22 | Naohiro Kasuya (National Institute for Fusion Science, Japan) | ||
Turbulence Diagnostic Simulator drift interchange instability and measurement of turbulent fields in helical plasma [2. Turbulence and Flow] | |||
P2-23 | Shuichi Tamura (Department of Electronic Engineering, Tohoku University, Japan) | ||
Effects of Two Component Ions on Plasma Flow Shear Driven Instabilities [2. Turbulence and Flow] | |||
P2-24 | Kenji Imadera (Kyoto University, Japan) | ||
Gyrokinetic study of the local entropy dynamics in turbulent plasmas with zonal flow [2. Turbulence and Flow] | |||
P2-25 | Kohei Ogiwara (Kyushu University, Japan) | ||
LIF measurement of neutral flow associated with formation of an anti-ExB vortex [2. Turbulence and Flow] | |||
P2-26 | Motoki Nakata (Graduate University for Advanced Studies, Japan) | ||
Vortex structures and transport levels in slab electron temperature gradient driven turbulence [2. Turbulence and Flow] | |||
P2-27 | Akihiro Ishizawa (National Institute for Fusion Science, Japan) | ||
Turbulence driven magnetic reconnections causing magnetic islands with long wavelengths [2. Turbulence and Flow] | |||
P2-28 | Toshiki Takahashi (Department of Electronic Engineering, Gunma University, Japan) | ||
Rotation of an FRC due to the reversed field theta pinch [2. Turbulence and Flow] | |||
P2-29 | James W. Van Dam (University of Texas at Austin, USA) | ||
Nonlinear Dynamics of the Electromagnetic Ion Cyclotron Structures in the Inner Magnetosphere [3. MHD Phenomena] | |||
P2-30 | Hideaki Miura (National Institute for Fusion Science, Japan) | ||
Truncation of scales shorter than the ion skin depth in homogeneous Halll MHD turbulence [3. MHD Phenomena] | |||
P2-31 | xiaoyuan xu (Department of Modern Physics, University of Science & Technology of China, China) | ||
Two Dimensional Imaging Study of Sawtooth Instability on the HT7 tokamak [3. MHD Phenomena] | |||
P2-32 | Seiya Nishimura (National Institute for Fusion Science, Japan) | ||
Turbulence Diagnostic Simulator measurement of magnetic island [3. MHD Phenomena] | |||
P2-33 | Yuuki komoriya (Nihon University, Japan) | ||
Toroidal spin up and velocity shear of a field reversed configuration plasma [3. MHD Phenomena] | |||
P2-34 | masaki sugihara (Kyoto Institute of Technology, Japan) | ||
Density regime of low aspect ratio RFP plasmas in RELAX [3. MHD Phenomena] | |||
P2-35 | Kiyomasa Y. WATANABE (NIFS, Japan) | ||
Anisotropic Pressure Effect on the MHD Equilibrium in LHD [3. MHD Phenomena] | |||
P2-36 | Akio Sanpei (Kyoto Institute of Technology, Japan) | ||
Recent progress in low A RFP plasma research in RELAX [3. MHD Phenomena] | |||
P2-38 | Ryuichi Ishizaki (National Institute for Fusion Science, Japan) | ||
Plasmoid motion in helical plasmas [3. MHD Phenomena] | |||
P2-39 | Yasushi Todo (National Institute for Fusion Science, Japan) | ||
Simulation study of ballooning modes in LHD [3. MHD Phenomena] | |||
P2-40 | Yoshihide Shibata (Nagoya university, Japan) | ||
Study of plasma current in tokamak and helical devices [3. MHD Phenomena] | |||
P2-41 | Yuusuke Haraguchi (University of Tsukuba, Japan) | ||
Preliminary Simulation Study for Microwave Imaging Reflectometry [4. Wave-Particle interaction] | |||
P2-42 | Shoichi Sato (Plasma Research Center, Univ. Tsukuba, Japan) | ||
Observation of the Ion Cyclotron Emission due to DD fusion product H ions on JT60U [4. Wave-Particle interaction] | |||
P2-43 | Mikhail Mikhailovich Tsventoukh (Lebedev Physical Institute RAS, Russian Federation) | ||
Electrostatic instabilities as a source of picosecond termination of run away electrons beam in high voltage gas filled ultra fast diode [4. Wave-Particle interaction] | |||
P2-44 | Walter Gekelman (University of California, Los Angeles, USA) | ||
Experiments on the scattering of fast electrons by Alfven waves [4. Wave-Particle interaction] | |||
P2-45 | Takeshi Ido (National Institute for Fusion Science, Japan) | ||
Observation of electrostatic potential fluctuation of Alfven eigen mode and geodesic acoustic mode in Large Helical Device [4. Wave-Particle interaction] | |||
P2-46 | Sachin Kumar (Indian Institute of Technology Delhi, INDIA) | ||
Kinetic Alfven wave turbulence in solar wind plasmas at heliocentric distances [4. Wave-Particle interaction] | |||
P2-47 | Pawan Kumar (IIT Delhi, India) | ||
Laser Beat Excitation of an Upper Hybrid Wave in a Rippled Density Plasma and Acceleration of Electrons [4. Wave-Particle interaction] | |||
P2-48 | Hideaki Matsuura (Kyushu University, Japan) | ||
Distortion of bulk electron distribution function and its effect on core heating in fast ignition plasmas [5. High-energy density plasma] | |||
P2-49 | Alexey Arefiev (Institute for Fusion Studies, The University of Texas at Austin, USA) | ||
Generation of fast ions by microclusters [5. High-energy density plasma] | |||
P2-50 | Sergey A. MAYOROV (Prokhorov Institute of General Physics, Russian Academy os Sciences, Russia) | ||
Drift and diffusion ion and electron in He Ar gas mixture [5. High-energy density plasma] | |||
P2-52 | Tomoyuki Johzaki (Institute of laser engineering, Osaka University, Japan) | ||
Dependence of core heating properties on heating pulse duration and intensity in FIREX project [5. High-energy density plasma] | |||
P2-54 | Lukas Pichl (International Christian University, Japan) | ||
Electron capture in collisions of C V with molecular hydrogen [6. Edge Plasma and Steady-State Physics] | |||
P2-55 | Shota Yasuda (Tokai Univ., Japan) | ||
Selective removal of helium by ICR heating in sheet plasma [6. Edge Plasma and Steady-State Physics] | |||
P2-56 | Akira TONEGAWA (Tokai University, Japan) | ||
Design study of V shaped target in divertor simulator TPD SheetIV [6. Edge Plasma and Steady-State Physics] | |||
P2-57 | Gian Luca Delzanno (Los Alamos National Laboratory, USA) | ||
Dust divertor shield in a tokamak fusion reactor [6. Edge Plasma and Steady-State Physics] | |||
P2-58 | Akira Tsushima (Yokohama National University, Japan) | ||
Neutral Particles at the Boundary of Microwave Discharge HYPER-I Plasma [6. Edge Plasma and Steady-State Physics] | |||
P2-59 | Hayato Kawazome (Depertment of Information, Kagawa National College of Technology, Japan) | ||
Calculation of D/XB values of hydrocarbon molecules in tokamak edge plasmas [6. Edge Plasma and Steady-State Physics] | |||
P2-60 | Yoshimitsu Asahi (The Graduate University for Advanced Studies, Japan) | ||
Effects of particle drift and collision on divertor trace [6. Edge Plasma and Steady-State Physics] | |||
P2-61 | Yusuke Kikuchi (Graduate School of Engineering, University of Hyogo, Japan) | ||
Development of magnetized coaxial plasma gun for simulation experiment of ELM heat loads on ITER divertor [6. Edge Plasma and Steady-State Physics] | |||
P2-62 | Naoyuki Fukumoto (Graduate School of Engineering, University of Hyogo, Japan) | ||
Compact toroid acceleration with a single-stage coaxial electrode and its application to fueling [6. Edge Plasma and Steady-State Physics] | |||
P2-63 | Mieko Kashiwagi (Japan Atmic Energy Agency (JAEA), Japab) | ||
Three dimensional analysis of beamlet deflection in a MeV accelerator for ITER NBI [7. Heating and Diagnostics] | |||
P2-64 | Hiroki Ozawa (Plasma Research Center, Japan) | ||
Neutaral beam injection heating in high density mode plasma of the GAMMA 10 tandem mirror [7. Heating and Diagnostics] | |||
P2-65 | Katsunori Ikeda (National Institute for Fusion Science, Japan) | ||
Optical measurement of the cesium behavior in large H ion source for neutral beam injector [7. Heating and Diagnostics] | |||
P2-66 | HAJIME SAKAKITA (National Institute of Advanced Industrial Science nad Technology (AIST), JAPAN) | ||
Development of high-power-density ion beam system with high repetitive pulse operation [7. Heating and Diagnostics] | |||
P2-67 | Haruhisa NAKANO (National Institute for Fusion Science, National Institutes of Natural Sciences, Japan) | ||
Cavity ring-down spectroscopy for H- density measurement on 1/3 negative ion source of LHD-NBI [7. Heating and Diagnostics] | |||
P2-68 | Bharathi Punyapu (Institute for plasma research, India) | ||
Effect of collisional quenching on the measurement of ion specie ratios in Neutral Beam Injectors [7. Heating and Diagnostics] | |||
P2-69 | Akira Taniike (Maritime sciences, Kobe University, Japan) | ||
Production of sub MeV positive gold ion beams with various gas targets for improvement on the tandem accelerator of LHD-HIBP [7. Heating and Diagnostics] | |||
P2-70 | Michelle Marie Sendaydiego Villamayor (Plasma Physics Lab, National Institute of Physics - University of the Philippines, Philippines) | ||
3D Isosurface visualization of electron density and temperature distribution in a magnetized sheet plasma ion source [7. Heating and Diagnostics] | |||
P2-71 | Ryosuke Ikeda (National Institute for Fusion Science, Japan) | ||
Development of Electron Bernstein Emission Diagnostics System on Large Helical Device [7. Heating and Diagnostics] | |||
P2-72 | Hiroyuki Yoshimura (Niigata University, Japan) | ||
Experimental Study of Oversized Backward Wave Oscillator with Coaxial Slow Wave Structure [7. Heating and Diagnostics] | |||
P2-73 | Josep Maria Fontdecaba (Ciemat, Spain) | ||
Ion and electron temperature and electron density profiles comparisons in the TJ II stellarator with Li coated wall [7. Heating and Diagnostics] | |||
P2-74 | Pavel Goncharov (St.Petersburg Polytechnic University, Russia) | ||
Angle Anisotropy and Loss Cone Influence on Nuclear Fusion Power [7. Heating and Diagnostics] | |||
P2-75 | atsushi Okamoto (Tohoku University, Japan) | ||
Charge exchanged beam measurement using a grid biased Faraday cup [7. Heating and Diagnostics] | |||
P2-76 | Anatolyevich Evgeny Drapiko (Researcher, Japan) | ||
Testing of a prototype lost alpha particle diagnostic utilizing an imaging bolometer [7. Heating and Diagnostics] | |||
P2-77 | Motoshi Goto (National Institute for Fusion Science, Japan) | ||
Self reversal in hydrogen Lyman alpha line profile [7. Heating and Diagnostics] | |||
P2-78 | Takafumi Ito (Nagoya University, Japan) | ||
Evaluation of halo-neutral contribution to the fast-ion charge exchange spectroscopy (FICXS) on LHD [7. Heating and Diagnostics] | |||
P2-79 | Shin Kubo (National Institute for Fusion Science, Japan) | ||
Estimation of the Effective Collective Thomson Scattering Cross Section using the Gaussian Beam in LHD ECRH System [7. Heating and Diagnostics] | |||
P2-80 | Masaki Nishiura (National Institute for Fusion Science, Japan) | ||
Assessments of Collective Thomson Scattering Diagnostic for Parallel and Perpendicular velocity components in the Large Helical Device [7. Heating and Diagnostics] | |||
P2-81 | Tetsuo Ozaki (NIFS, Japan) | ||
Calibration of the compact electron spectrometer for FIREX-I project in Gekko XII [7. Heating and Diagnostics] | |||
P2-82 | Takuma Yamada (The University of Tokyo, Japan) | ||
Merging start-up and sustainment experiments on the UTST spherical tokamak [7. Heating and Diagnostics] | |||
P2-83 | Chia-Min Huang (National Taipei University of Technology, Taipei) | ||
ZnO Films Fabricated by Microwave Plasma Jet Sintering System [7. Heating and Diagnostics] | |||
P2-84 | SANJAY KUMAR (INDIAN INSTITUTE OF TECHNOLOGY, DELHI, INDIA, INDIA) | ||
Nonlinear effects associated with the dispersive Alfven waves and magnetosonic waves in space plasma [7. Heating and Diagnostics] | |||
P2-86 | Atsushi Kamitani (Yamagata University, Japan) | ||
High Performance Analysis of Shielding Current Density in High Temperature Superconducting Thin Film [8. Advanced Plasma Science] | |||
P2-87 | Vasyl I. MASLOV (NSC Kharkov Institute of Physics & Technology, Ukraine) | ||
ROLE OF SURFACE CURRENT AND MAGNETIC FIELD AT DIRECTED EXTREME ULTRAVIOLET GENERATION IN PLASMA DISCHARGE FOR LITHOGRAPHY [8. Advanced Plasma Science] | |||
P2-88 | Soichiro Ikuno (Tokyo University of Technology, Japan) | ||
Numerical Investigations of Variable Preconditioned GCR with Mixed Precision on GPU [8. Advanced Plasma Science] | |||
P2-89 | HAJIME SAKAKITA (National Institute of Advanced Industrial Science and Technology (AIST), JAPAN) | ||
Irradiation experiments to the mouse using the mild plasma generator for the medical application [8. Advanced Plasma Science] | |||
P2-90 | Takahiro Kenmotsu (Dodhisha University, Japan) | ||
Molecular structure and the vibration excitation levels of dusts formed in methane gas discharge [8. Advanced Plasma Science] | |||
P2-91 | Teruou Takayama (Yamagata University, Japan) | ||
Numerical Simulation of Contactless Methods for Measuring jC Distribution of High Temperature Superconducting Thin Film [8. Advanced Plasma Science] | |||
P2-92 | Toshiiki Matsui (Yokohama National University, Japan) | ||
Dependence of cracks in fractured powder materials on particle size distribution: similarity to glass transition [8. Advanced Plasma Science] | |||
P2-93 | Susumu Fujiwara (Kyoto Institute of Technology, Japan) | ||
Effect of molecular rigidity on micelle formation in amphiphilic solution [8. Advanced Plasma Science] | |||
P2-94 | KYU-SUN CHUNG (Hanyang University and NIFS, KOREA) | ||
A Review on Mach Probes [7. Heating and Diagnostics] |