November 4-7, 2014
Ceratopia Toki, Toki-city, Gifu, Japan
Nov. 4 (Tue.) | Nov.5 (Wed.) | Nov.6 (Thu.) | Nov. 7 (Fri) | ||||
9:00-9:30 | Opening | 9:00-9:45 | Röpcke | 9:00-9:45 | Stoller | 9:00-9:45 | Motojima |
9:30-9:45 | photo | 9:45-10:15 | Yoshida,Z | 9:45-10:15 | Zushi | 9:45-10:15 | Yoshida, M |
9:45-10:30 | Ji | 10:15-10:40 | Break | 10:15-12:15 | Poster with coffee | 10:15-10:40 | Break |
10:30-11:00 | Break | 10:40-11:10 | Takaki | 10:40-11:10 | Geiger | ||
11:00-11:30 | Kajita | 11:10-11:40 | Chung | 11:10-11:40 | Tendler | ||
11:30-12:00 | Usui | 11:40-12:00 | Goto Motonobu | 11:40-12:00 | Okamoto | ||
12:00-13:15 | Lunch | 12:00-13:30 | Lunch | 12:15-13:15 | Lunch | 12:00-13:15 | Lunch |
13:15-15:30 | Poster with coffee | 13:30-14:30 | Quarter-century
memorial lecture A. Komori |
13:15 | Tech. tour | 13:15-13:45 | Yoneda |
13:45-14:15 | Kosuga | ||||||
15:30-16:00 | Itoh | 14:30-15:00 | Break | 14:15-14:35 | Hudson | ||
16:00-16:30 | Meiden | 15:00-15:30 | Feng | 14:35-14:55 | Fujii | ||
16:30-16:50 | Wang | 15:30-16:00 | Nagaoka | 14:55-15:10 | Closing | ||
16:50-17:10 | Goto Motoshi | 16:00-16:30 | Yoshimura | ||||
17:10-17:30 | Horiuchi | 16:30-16:50 | Koga | ||||
18:30 | Lecture for citizen | 19:00 | Conf. dinner | ||||
Plenary | Invited | Oral |
No. | Name | Affiliation | Title |
R1 | Hantao Ji | Princeton University | Expanding Horizons of Laboratory Plasma Astrophysics |
R2 | Jürgen Röpcke | INP Greifswald | On recent progress in diagnostics of technological plasmas: From low to atmospheric pressure applications |
R3 | Roger E. Stoller | Oak Ridge National Laboratory | Possibilities for Radiation Damage Resistance: Perspectives from Atomistic Modeling |
R4 | Osamu Motojima | ITER | Horizons of Fusion Science and Technology Explored by the ITER Project |
No. | Name | Affiliation | Title |
I1 | Shin Kajita | Nagoya University | Helium Plasma Implanted Metallic Nanostructures : growth process, fractality, and its applications |
I2 | Hideyuki Usui | Kobe University | Full kinetic simulations on plasma and field disturbance in the vicinity of spacecraft |
I3 | Kimitaka Itoh | NIFS | On the Non-Equilibrium Distance from Thermal Equilibrium for Turbulent Plasmas |
I4 | Hennie van der Meiden | DIFFER | Measurements of electron and ion properties using Thomson scattering during plasma-wall interaction experiments in a linear plasma device |
I5 | Zensho Yoshida | University of Tokyo | Self-organized confinement in dipole magnetic field |
I6 | Koichi Takaki | Iwate University | Plasma and pulsed power applications for agriculture |
I7 | Kyu-Sun Chung | Hanyang University | Can Electric Probes Measure Super-Sonic Plasma Flows? |
I8 | Yühe Feng | IPP Greifswald | Features of detached plasmas predicted for W7-X |
I9 | Kenichi Nagaoka | NIFS | Integration of Ion ITB and Electron ITB in the Large Helical Device |
I10 | Shinji Yoshimua | NIFS | Intermittent behavior of local electron temperature in a linear ECR plasma |
I11 | Hideki Zushi | Kyushu University | Spontaneous Toroidal Rotation, Flow Reversal, and Flow Sustainment in Non-Inductive Steady State Tokamak Plasma on QUEST |
I12 | Maiko Yoshida | JAEA | Progress in JT-60SA Construction, Research Plan and Research Activities |
I13 | Joachim Geiger | IPP Greifswald | Physics Properties of Magnetic Configurations of Wendelstein 7-X |
I14 | Michael Tendler | KTH | Perpendicular Currents, Electric Fields and Rotations in Tokamaks |
I15 | Hitoki Yoneda | University of Electro-Communications | Active control for hard x-ray lasers with high energy erpendidensity matter |
I16 | Yusuke Kosuga | Kyushu University | Density peaking by parallel flow shear driven instability |
No. | Name | Affiliation | Title |
O1 | Fudi Wang | ASIPP | Investigation of potential acceleration forces in EAST and J-TEXT plasmas |
O2 | Motoshi Goto | NIFS | The Hanle effect of hydrogen Lyman-alpha line for CLASP and future polarimetric solar studies |
O3 | Ritoku Horiuchi | NIFS | Role of magnetic islands in energy conversion process of collisionless driven reconnection |
O4 | Motonobu Goto | Nagoya University | Water Dispersible Carbon Nanoparticles Synthesis by Pulsed Arc Discharge Plasma under High Pressure Argon with Aqueous Solution |
O5 | Kazunori Koga | Kyushu University | Effects of amplitude modulated VHF discharge on coupling between plasmas and nanoparticles |
O6 | Atsuchi Okamoto | Tohoku University | Electrode positive biasing experiment for ion acceleration study |
O7 | Stuart Ronald Hudson | PPPL | Chaotic coordinates for the Large Helical Device |
O8 | Keisuke Fujii | Kyoto University | Hydrogen atomic and molecular emission locations and intensities in the LHD edge plasma determined from simultaneously observed polarization spectra |
No. | Name | Institution | Title |
P4-01 | Junichi Miyazawa | NIFS | Impact of confinement improvement in the LHD on the Q-value expected in the compact helical reactor FFHR-c1 |
P4-02 | Masayuki Yokoyama | NIFS | Extension of the integrated transport analysis suite, TASK3D-a, towards unified systematic analyses in LHD plasmas with enforcing core-edge inter-linkage |
P4-03 | Yusuke Shimizu | Nagoya University | Analysis of Tungsten Transport in JT-60U Plasmas |
P4-04 | Xianli Huang | The Graduate University for Advanced Studies | Evaluation of Zeff profile in low-density and high-Ti discharges with carbon pellet injection based on space-resolved EUV spectroscopy in LHD |
P4-05 | Hisamichi Funaba | NIFS | Transport analysis of high-beta plasmas in the inward shifted configurations on LHD |
P4-06 | Ryohei Makino | Nagoya University | Comparison of heat and particle transport properties in hydrogen and helium ECRH plasmas on LHD |
P4-08 | Yipo Zhang | SWIP | Study of fast-ion losses induced by sawteeth and disruption stabilities in the HL-2A tokamak |
P4-09 | Mitsutaka Isobe | NIFS | Recent progress of fast-ion loss detector project in magnetic confinement fusion devices in Japan, Korea and China |
P4-10 | Yi Liu | SWIP | Energetic ion excited long-lasting modes in tokamak plasmas with low magnetic shear |
P4-11 | Shuji Kamio | NIFS | Evaluation of Fast-ion Confinement Property Using Si-FNA |
P4-12 | Masayuki Homma | Kyoto University | Simulation Study of Energetic Triton Confinement in the D-D Experiment on LHD |
P4-13 | Ryosuke Seki | NIFS | Effect of shape of resonance layer on efficiency of power transferred from ICRF fast ions to bulk plasma in LHD |
P4-14 | Gen Motojima | NIFS | Experimental study of the effect of fast ions on the pellet ablation process |
P4-15 | Mamoru Shoji | NIFS | Measurements of plasma termination in ICRF heated long pulse discharges with fast framing cameras in the large helical device |
P4-16 | Tatsuya Sakito | Nagoya University | Measurement of plasma behavior with high speed cameras in TOKASTAR-2 |
P4-17 | Ryuichi Sakamoto | NIFS | Impact of cross-field transport of pellet plasmoid on the effective pellet fuelling properties in LHD |
P4-18 | Tatsuya Kobayashi | NIFS | Internal transport barrier formation with modulation heating power input in LHD |
P4-19 | Kosuke Shimizu | Tohoku Universty | Observation of Intermittent Transition by Electrode Biasing in Heliotron J |
P4-20 | Chanho Moon | NIFS | Analysis of Nonlinear Behavior of Turbulence Caused by Transition of Radial Electric Field in LHD |
P4-21 | Akihiro Shimizu | NIFS | Two-dimensional potential profile measurements with HIBP on the LHD |
P4-22 | Haiqing Liu | ASIPP | Faraday-Effect Polarimeter-Interferometer System for current density measurement on EAST |
P4-23 | Akira Ejiri | The University of Tokyo | Study of ICRF waves in LHD using a microwave reflectometer |
P4-24 | Yoshio Nagayama | NIFS | Development of O-mode Microwave Imaging Reflectometry (O-MIR) system in LHD |
P4-25 | Yoshiaki Ohtani | Kyoto University | Present status of high time-resolved far infrared laser interferometer on Heliotron J |
P4-26 | Kazunobu Nagasaki | Kyoto University | Development of Electron Bernstein Emission Diagnostic in Heliotron J |
P4-27 | Hiroe Igami | NIFS | Analysis of the transmitted beam pattern constructed from the spatially discrete data given by multi-ray tracing for validation of the plasma modeling including the boundary region |
P4-28 | Hiroki Miura | Kyushu University | Breakdown and plasma current production with ECRH on QUEST |
P4-29 | Kazuo Nakamura | Research Institute for Applied Mechanics, Kyushu University | Shape Reproduction and Particle Orbit in RF-Driven Divertor Plasma on QUEST |
P4-30 | Masaki Uchida | Kyoto University | Noninductive formation of extremely overdense Spherical Tokamak plasma by electron Bernstein wave heating and current drive on LATE |
P4-31 | Shintaro Tsuda | The University of Tokyo | Measurement of ion temperature and flow in RF start-up plasmas on Spherical Tokamaks |
P4-32 | Osamu Watanabe | Kyushu University | Comparison of MHD potential energies before and after tokamak plasma formation by non-inductive heating with stationary direct current in center solenoid coil |
P4-33 | Tetsuo Seki | NIFS | ICRF heating experiment on LHD in foreseeing a future fusion device |
P4-34 | Takahiro Bando | The Graduate University for Advanced Studies | The development of the soft X-ray diagnostic with CsI(Tl) scintillator usable in the high neutron flux enviroments in the deuterium plasma experiments of LHD |
P4-35 | Ting Feng Ming | NIFS | Experimental measurements with the upgraded tangentially viewing VUV imaging system in LHD |
P4-36 | Kiyofumi Mukai | NIFS | In-situ calibration system for foil detector of infrared imaging video bolometer in Large Helical Device |
P4-37 | Jongha Lee | NFRI | Result of KSTAR Thomson Scattering Diagnostic System in 2014 |
P4-38 | Keishun Nakamura | The University of Tokyo | Study of the internal reconnection events using a double-pass Thomson scattering system on TST-2 |
P4-39 | Naoki Kenmochi | Kyoto University | Time evolution of profile of high-performance plasma with Nd:YAG Thomson scattering system on Heliotron J |
P4-40 | Xuehan Guo | The University of Tokyo | Slide-type 2D Thomson Scattering Measurement for Electron Heating of Magnetic Reconnection in UTST Merging Experiment |
P4-41 | Hongming Zhang | Graduate University for Advanced Studies | Poloidal distribution of edge impurity emissions measured at different toroidal positions in Large Helical Device |
P4-42 | Tetsutarou Oishi | NIFS | Line Spectrum of Tungsten Ions at Low Ionization Stages in Large Helical Device in Wavelength Range of 300-2400 Å Measured Using 20 cm Normal Incidence VUV Spectrometers |
P4-43 | Arimichi Takayama | NIFS | Molecular dynamics simulation study of helium diffusion in tungsten material with defects |
P4-44 | Kazunari Katayama | Kyushu University | Carbon and hydrogen accumulation on exhaust duct in LHD |
P4-45 | Yasuhiro Oda | NIFS | Kinetic Monte-Carlo simulation of helium bubble in tungsten |
P4-46 | Yasuyuki Noiri | Nagoya University | Initiation of arcing on tungsten electrode exposed to steady state plasmas |
P4-47 | Masayuki Tokitani | NIFS | Potential of copper alloys using a divertor heat sink in the helical reactor FFHR-d1 and their brazing properties with tungsten armour by using the typical candidate filler materials |
P4-48 | Miyuki Yajima | Nagoya university | Initiation of arcing on fiberform nanostructured tungsten by the pulse plasma irradiation |
P4-49 | Yasuhiro Sakai | Toho University | Light emission from sputtered or backscattered atoms on tungsten surfaces by ion bombardment |
P4-50 | Xiao-chun Li | Shizuoka University | Gas-driven deuterium permeation and retention in iron-irradiated tungsten |
P4-51 | Takashi Watanabe | Nagoya University | Behavior of hydrogen isotopes in W under plasma exposure with PS-DIBA device |
P4-52 | Shinsuke Abe | University of Toyama | Effects of Helium Irradiation for Tritium Retention in Stainless Steel |
P4-53 | Seiki Saito | National Institute of Technology, Kushiro College | Retention and Erosion Processes of Graphite under Hydrogen Plasma Irradiation |
P4-54 | Yuji Nobuta | Hokkaido University | Long-term tritium release and tritium removal by baking in polycrystalline tungsten |
P4-55 | Shuichi Kato | Doshisha University | Study of hydrogen isotope exchange rate in plasma facing materials by Binary Collision Approximation |
P4-56 | Hiroto Matsuura | Osaka Prefecture University | Effect of thermal probe tip design on heat flux measurement in Heliotron J |
P4-57 | Takafumi Maekawa | Tokai University | Selective ion separation to improve He exhaust by using divertor simulator TPD-Sheet IV |
P4-58 | Hiroki Hasegawa | NIFS | Study of blob propagation dynamics in non-uniform plasmas with particle simulation |
P4-59 | Hirohiko Tanaka | NIFS | Poloidal broadening of the divertor flux depending on the radial position of the magnetic axis |
P4-60 | Tatsuya Kuwabara | Nagoya University | EMC3-Eirene simulation modeling of linear divertor plasma simulators |
P4-61 | Yuta Tanaka | Tokai University | Experimental simulation of Advanced divertor geometry by using divertor simulator TPD-Sheet IV |
P4-62 | Masahiro Kobayashi | NIFS | 2D visible imaging spectrometer for divertor plasma in LHD |
P4-63 | Yuki Hayashi | Nagoya University | Reversal plasma flow measurement on detached plasma in linear divertor simulator NAGDIS-II |
P4-64 | Theerasarn Pianpanit | The Graduate University for Advanced Studies | Particle simulation of plasma detachment process |
P4-65 | Ryosuke Goto | The Graduate University for Advanced Studies | 2D extended MHD simulations of the Rayleigh-Taylor instability with real frequency |
P4-66 | Timothee Nicolas | NIFS | Three-dimensional numerical analysis of two-fluid effects on interchange mode in heliotron plasmas |
P4-67 | Haruki Seto | JAEA | Simulation of L-H transition in BOUT++ framework |
P4-69 | Kiyomasa Watanabe | NIFS | Response of Interchange Instability to Resonant Magnetic Field by External Coil |
P4-70 | Tomohiro Ueda | Nagoya University | Magnetic field measurements by multi-channel magnetic probe in TOKASTAR-2 |
P4-71 | Hideaki Miura | NIFS | Extended MHD simulation of pressure-driven instability of a magnetized plasma |
P4-72 | Hogun Jhang | NFRI | Field line stochastization and parallel energy loss during an edge pedestal collapse |
P4-73 | Yasuhiro Suzuki | NIFS | Anisotropic heat diffusion on stochastic field lines of LHD |
P4-74 | Sung Sik Kim | NFRI | Tokamak turbulence simulations using BOUT++ framework in core region |
P4-75 | Katsuji Ichiguchi | NIFS | Effects of Resonant Magnetic Perturbations on Pressure Driven Modes in LHD Plasmas |
P4-76 | Akira Sakai | Kyoto University | Integrated Transport Simulation of ECH Plasmas in LHD |
P4-77 | Hiroki Natsume | Nagoya University | Simulation on the sawtooth period control in Tokamak plasma |
P4-78 | Sadayoshi Murakami | Kyoto University | Benchmark study of nonlinear collision operator for the Monte Carlo simulation code in toroidal plasmas |
P4-79 | Akihiro Ishizawa | NIFS | Electromagnetic gyrokinetic simulation of turbulent transport in high ion temperature discharge of Large Helical Device |
P4-80 | Kevin Obrejan | Kyoto University | Development of a global toroidal gyrokinetic Vlasov code with new real space field solver |
P4-81 | Hideo Sugama | NIFS | Conservation laws in gyrokinetic field theory |
P4-82 | Kazuhiro Miki | JAEA | Gyrokinetic simulation study on the energetic-particle-induced geodesic acoustic mode and chirping modes |
P4-83 | Tomo-hiko Watanabe | Nagoya University | Parallel correlation of drift wave turbulence in flux tube geometry |
P4-84 | Shinichiro Toda | NIFS | How to apply a turbulent transport model based on a gyrokinetic simulation for helical plasmas |
P4-85 | Yasushi Todo | NIFS | Kinetic effects of thermal ions on the nonlinear evolution of energetic particle driven Alfvén eigenmodes |
P4-86 | Hao Wang | NIFS | Simulation study of a new kind of energetic particle driven geodesic acoustic mode in LHD |
P4-87 | Hiroaki Ohtani | NIFS | Virtual-reality visualization of time-sequence dust trajectory data with equilibrium plasma simulation results in experimental device. |
P4-88 | Nobuaki Ohno | University of Hyogo | In-situ visualization of PIC simulation by VISMO |
No. | Name | Institution | Title |
P6-01 | Hiroaki Muta | Osaka University | Properties of cold-pressed metal hydride materials for neutron shielding in a DT fusion reactor |
P6-02 | Shota Sugiyama | Kyushu University | A verification scenario of nuclear plus interference scattering effects using neutron incident angle distribution to the wall in beam-injected deuterium plasmas |
P6-03 | Yuuki Uchida | National Institute of Technology, Toyama College | Automation of probabilistic n-γ discrimination for neutron profile monitor with combination of K-means and EM algorithms |
P6-04 | Hiromu Momota | NIFS | Medical Application of Fusion----1. Compact Neutron Generator for BNCT |
P6-05 | Motoyasu Sato | Chubu University | A Concept of Ion Cyclotron Resonance Accelerator for 14.1 MeV Neutron Source |
P6-06 | Tsuguhiro Watanabe | NIFS | Possibility of quasi-steady-state operation of low-temperature LHD-type DD reactor using impurity hole phenomena |
P6-07 | Takuya Goto | NIFS | Improvement of the cost and BOP models for LHD-type helical fusion reactors |
P6-08 | Takahito Maruyama | JAEA | Availability analysis of the ITER blanket remote handling system |
P6-09 | Tetsuhiro Obana | NIFS | Self-magnetic field measurements of JT-60SA CS model coil |
P6-10 | Shinsaku Imagawa | NIFS | Plan for Testing High-current Superconductors for Fusion Reactors with 15 T Test Facility |
P6-11 | Shinji Hamaguchi | NIFS | Upgrade plan on NIFS Superconducting Magnet Test Facility |
P6-12 | Takanori Matsuda | Sophia University | Measurement of Strands Location and Inter-strand Contact Resistance in a CIC Conductor |
P6-13 | Kazuya Takahata | NIFS | Cooling Concepts for Indirectly Cooled Superconducting Magnets for the Fusion Reactor FFHR |
P6-14 | Yoshimitsu Hishinuma | NIFS | Progress of the low activation superconducting material development for an advanced fusion reactor application |
P6-15 | Teruou Takayama | Yamagata University | Numerical investigation on contactless methods for identifying defects in high-temperature superconducting film |
P6-16 | Atsushi Kamitani | Yamagata University | High-Speed Algorithm for Shielding Current Analysis in HTS Film with Cracks |
P6-17 | Haiying Fu | The Graduate University for Advanced Studies | Evaluation of bonding strength with finite element method simulation for the deformation behavior of the joints for ODS and non-ODS RAFMs |
P6-18 | Hiroyuki Noto | NIFS | Development of high strength W/ODSS joints by innovative thermal stress relaxation technique based on phase-transformation induced plasticity |
P6-19 | Sin-iti Kitazawa | JAEA | Provisional Procurement Activity and Study on ITER Lower Port #2 Integration Engineering in JADA |
P6-20 | Hirotaka Chikaraish | NIFS | Update of control system of dc power supplies for LHD superconducting magnet |
P6-21 | Irfan Jamil | Kyushu University | Matrix Converter in Power Electronics as a Power Supply for Plasma Control: A Short Review and a Foresight |
P6-22 | Shaofei Geng | The Graduate University for Advanced Studies | Spatial distributions of charged particles and potentials before and during beam extraction in a negative hydrogen ion source for NBI |
P6-23 | Junichi Hiratsuka | Japan Atomic Energy Agency | Generation of secondary electron due to high energy negative ion beams in MeV-class accelerator for ITER NB |
P6-24 | Kazuki Tsuchiya | Kobe University | Three-dimensional AMR-PIC simulations on ion beam neutralization in ion engine |
P6-25 | Toru Ii | NIFS | Development of polarizers for a mega-watt long-pulse millimeter-wave transmission line of the LHD ECH system |
P6-26 | Ryosuke Ikeda | JAEA | Oscillation Characteristics of Multi-Frequency Mega-Watt Gyrotron |
P6-27 | Hiroaki Nakamura | NIFS | Millimeter-wave propagation simulation in corrugated waveguide |
P6-28 | Yoshihisa Fujita | Nagoya University | Electromagnetic wave propagation in waveguide considering influence of induced current |
P6-29 | Taku Itoh | Tokyo University of Technology | Speed-up of Extended Element-Free Galerkin Method on Many Integrated Core Architecture |
P6-30 | Yoshiharu Ohi | RIKEN Advanced Institute for Computational Science | Numerical Investigation of Electromagnetic Wave Propagation Phenomena using Meshless Time Domain Method with Arbitrary Node Distribution |
P6-31 | Naoki Ito | Ube National College of Technology | Development of multi-channel Horn Mixer Array for Microwave Imaging Plasma Diagnostics |
P6-32 | Yutaka Tomita | Kobe University | Design and Performance Examination of a New CuspDEC Simulator Using Permanent Magnets |
P6-33 | Yusuke Togo | Kobe University | Studies on Miniaturization of Traveling Wave Direct Energy Converter in the View Point of Deceleration Effect |
P6-34 | Shota Hagihara | Kobe University | Characterization of Secondary Electron Collection with Magnetic Field for Energy Recovery from High Energy Ion |
P6-35 | Ramprasad Prajapati | Guru Ghasidas Central University, Bilaspur C.G. India | Low frequency waves and gravitational instability in homogeneous magnetized gyrotropic quantum plasmas |
P6-36 | Rajendra Kumar Chhajlani | Vikram University Ujjain M.P. | Effect of spin magnetization on the Jeans instability of resistive viscous quantum plasma |
P6-37 | Yoshihiko Nagashima | Kyushu University | Comparison between fluctuation data measured with multi-channel spectroscopic system and that measured with Langmuir probe in PANTA |
P6-38 | Fumiyoshi Kin | Kyushu University | Evaluation of Changes in Non-Linear Coupling of Plasma Turbulence during End-Plate Biasing Experiment in PANTA |
P6-39 | Hikaru Kono | Kyushu University | Measurement of the 2D Turbulence Structure with Fast Camera in PANTA |
P6-40 | Takaaki Mizokami | Kyushu University | Development of a Microwave Frequency Comb Reflectometer in PANTA |
P6-41 | Genryu Hattori | Kyushu University | Finite Lamor Radius Effect on Ion-Temperature-Gradient Instabilities in Cylindrical Plasmas |
P6-42 | Makoto Sasaki | Kyushu University | Formation Mechanism of Steep Wave Front in Drift Wave Turbulence |
P6-43 | Madhurjya Prosad Bora | Gauhati University | Nonlinear ion-acoustic instability |
P6-44 | Young Hyun Jo | Pusan National University | Control of Diocotron Instability of Hollow Electron Beam Using Rotating Wall Electric Fields |
P6-45 | Keisuke Araki | Okayama University of Science | Energy transfer between the ion cyclotron and whistler modes in Hall magnetohydrodynamic turbulence |
P6-46 | Susumu Fujiwara | Kyoto Institute of Technology | Molecular dynamics simulation of phase behavior in bolaamphiphilic solution |
P6-47 | Vasyl I. Maslov | NSC Kharkov Institute of Physics & Technology | DENSE PLASMA COLUMN CONFINEMENT BY MAGNETIC FIELD OF VORTICAL CURRENT LOOP IN DISCHARGE PLASMA |
P6-48 | Kenichi Terasima | Fukushima University | Switching between Vortex state and Onion state of magnetic nano-torus ring cluster using weak local magnetic field |
P6-49 | Guanyang Tang | Tohoku University | Influence of catalyst on degradation of organism by nanoseconds pulsed discharge in gas-liquid mixture |
P6-50 | Yusuke Hoshino | Tohoku University | High power rf plasma source operated in 300 kHz under a magnetic nozzle configuration for space propulsion |
P6-51 | Atsushi Komuro | Tohoku University | Vibration-to-translation energy transfer in atmospheric-pressure nonthermal plasma in dry and humid air |
P6-52 | Reoto Ono | Kyushu University | Control of antioxidative activity in plants induced by low pressure RF oxygen plasma |
P6-53 | Omveer Poonia | Indian Institute of Technology Delhi | Structural and Mechanical Properties of Titanium Nitride Thin Films Treated in Hot Cathode Arc Discharge System |
P6-54 | Jeremiah Guillen Chan | University of the Philippines Diliman | Plasma Modification of Spray Deposited Restacked Few Layered Graphene on Mica, FTO Glass and Glass Using a Hot Cathode Plasma DC Source System |
P6-55 | Noriharu Takada | Nagoya University | Evaluation of nanoparticles synthesized by laser ablation in liquid carbon dioxide |
P6-56 | Yusuke Kikuchi | University of Hyogo | Characterization of pulsed discharges inside nitrogen bubbles in distilled water for amination treatment of nano-sized particles |
P6-57 | Lukas Pichl | International Christian University | Estimation of resonance parameters in electron-molecule collisions from ab initio data by using Pade approximation and artificial neural network |
P6-58 | Kakeru Torii | Kyoto University | Spatial-resolved absorption spectroscopy on a micro-hollow cathode helium plasma by a vertical-cavity surface-emitting laser |
P6-59 | Shuhei Otsuka | Tokyo University of Agriculture and Technology | Study on Plasma Acceleration in Completely Electrodeless Electric Propulsion System |
P6-60 | Toshiki Nakagawa | Tokyo University of Agriculture and Technology | Study on Magnetized RF Discharge with Very Small-Diameter |
P6-61 | Daisuke Kuwahara | Tokyo University of Agriculture and Technology | Development of Ar I and Ar II Measuring System using Laser-Induced Fluorescence Methods in High-Density Helicon Plasma |
P6-62 | Tsuyoshi Hamano | Kobe University | Studies on Plasma Production and Ion Heating by Using Only a Single Helical Antenna for a Simple Thruster |
P6-63 | Ayumu Saitoh | University of Hyogo | Numerical Approach Based on Extended Boundary Node Method for Solving Grad-Shafranov Equation |
P6-64 | Yoshiki Hidaka | Kyushuy University | Turbulent Transport Study Using a Simple Experiment for understanding of Complex Systems |
322-6 Oroshi-cho Toki,
Gifu 509-5292, Japan
TEL 0572-58-2222
FAX 0572-58-2601