Nanbu Kenichi | Institute For Fluid Science Tohoku University
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概要
関連著者
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Nanbu Kenichi
Institute For Fluid Science Tohoku University
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Nanbu Kenichi
Institute Of Fluid Science Tohoku University
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NANBU Kenichi
Institute of Fluid Science, Tohoku University
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Tong Lizhu
Institute Of Fluid Science Tohoku University
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Fukunishi Hiroshi
Department Of Astrophysics And Geophysics Tohoku University
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TONG Lizhu
Institute of Fluid Science, Tohoku University
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Watanabe Yasuo
Institute Of High Speed Mechanics Tohoku University
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Lizhu Tong
東北大
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FUKUNISHI Hiroshi
Department of Astrophysics and Geophysics, Tohoku University
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WATANABE Yasuo
Institute of High Speed Mechanics, Tohoku University
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Watanabe Y
Department Of Bioresources Faculty Of Agriculture Ehime University
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Yonemura Shigeru
Institute Of Fluid Science Tohoku University
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Nanbu K
Tohoku Univ. Sendai
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IGARASHI Saburo
Institute of High Speed Mechanics, Tohoku University
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Igarashi Saburo
Institute Of High Speed Mechanics Tohoku University
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Watanabe Y
Department Of Cell Physiology Faculty Of Medicine Kagawa University
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Fukunishi H
Department Of Geophysics Graduate School Of Science Tohoku University
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Nanbu K
Institute Of High Speed Mechanics Tohoku University
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Takekida Hideto
Institute Of Fluid Science Tohoku University
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Watanabe Yasuo
Institute of Space and Astronautical Science
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Kondo Shuji
Institute Of Fluid Science Tohoku University
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Nanbu Kenichi
Institute Of High Speed Mechanics Tohoku University
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Wakayama Go
Institute Of Fluid Science Tohoku University
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V. Serikov
Institute Of Fluid Science Tohoku University
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Nanbu Kenichi
Institute of Fluid Science, Tohoku University, Sendai 980-8577, Japan
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Tong Lizhu
Institute of Fluid Science, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai 980-8577, Japan
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MIYAMOTO Yasuaki
Japan Atomic Energy Agency
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YAMAGUCHI Hiromi
Japan Atomic Energy Agency
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HIRATA Yosuke
Toshiba Corporation
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IZUMI Mikio
Toshiba Corporation
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Kondo S
Matsushita Electric Industrial Co. Ltd. Osaka Jpn
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Goto Yuichi
Institute Of Fluid Science Tohoku University
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Morimoto Tamotsu
Central Research Laboratory Tokyo Electron Ltd.
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Nanbu K
Institute Of Fluid Science Tohoku University
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Nanbu K
Tokyo Electron Ltd. Nirasaki Jpn
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Yonemura S
Tohoku Univ. Sendai Jpn
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HIRAKI Yasutaka
Department of Geophysics, Tohoku University
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Hiraki Yasutaka
Department Of Geophysics Tohoku University
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DENPOH Kazuki
Centoral Research Laboratory,Tokyo Electron,Ltd.
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Sasaki Akira
Kansai Research Establishment, Japan Atomic Energy Research Institute
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Otsuka Toshihiko
Institute Of Fluid Science Tohoku University
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SAKAI Kazuma
Institute of Fluid Science, Tohoku University
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Sakai Kazuma
Institute Of Fluid Science Tohoku University
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Denpoh K
Tokyo Electron Ltd. Nirasaki Jpn
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Denpoh Kazuki
Central Research Laboratory Tokyo Electron Ltd.
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KONDO Shuji
Institute of Fluid Science, Tohoku University
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Kageyama Junichi
Institute Of Fluid Science Tohoku University
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Nakagome Takeo
Institute of Fluid Science, Tohoku University
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Nakagome Takeo
Institute Of Fluid Science Tohoku University
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Wakayama Go
Institute of Fluid Science, Tohoku University
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Nanbu Kenichi
Institute Of High Speed Mechanics Tokyo University
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Nanbu Kenichi
Institute Of High Speed Mechanics Tohoku University.
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V. SERIKOV
Institute of Fluid Science, Tohoku University
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Sasaki Akira
Kansai Research Establishment Japan Atomic Energy Research Institute
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Shiozawa Masakazu
Institute Of Fluid Science Tohoku University
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Nanbu Kenichi
Institute of Fluid Science, Tohoku University, Sendai 980-77, Japan
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Nanbu Kenichi
Institute of Fluid Science, Tohoku University, 2-1-1 Katahira, Aoba-ku, Sendai 980-8577, Japan
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Nanbu Kenichi
Institute of Fluid Science, Tohoku University, Sendai 980-77, Japan
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Serikov Vladimir
Institute of Fluid Science, Tohoku University, Sendai 980-77, Japan
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Kondo Shuji
Institute of Fluid Science, Tohoku University, Sendai 980-77, Japan
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Denpoh Kazuki
ESD Development Department, Tokyo Electron AT Ltd., 2381-1 Kitagejo, Fujii-cho, Nirasaki 407-8511, Japan
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Yamaguchi Hiromi
Japan Atomic Energy Agency, 4-33 Muramatsu, Tokai-mura, Naka-gun, Ibaraki 319-1194, Japan
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Hirata Yosuke
Toshiba Corporation, 8 Shinsugita-cho, Isogo-ku, Yokohama 235-8523, Japan
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Izumi Mikio
Toshiba Corporation, 8 Shinsugita-cho, Isogo-ku, Yokohama 235-8523, Japan
著作論文
- Direct Simulation Scheme Derived from the Boltzmann Equation.VIII.Velocity Correlation Relevant to Boundary Conditions
- Hypersonic Rarefied Flows Around a Circular Disk Perpendicular to the Stream
- Stochastic Solution Method of the Model Kinetic Equation for Diatomic Gas
- Conservation of Angular Momentum in the Direct Simulation Monte Carlo Method
- Simulation of gigantic jets propagating from the top of thunderclouds to the ionosphere
- Randomly Stepped Model for Upward Electrical Discharge from Top of Thundercloud(Gases, Plasmas and Electric Discharges)
- Numerical analysis of initiation of gigantic jets connecting thunderclouds to the ionosphere
- Particle Modeling of the Electrical Discharge in the Upper Atmosphere above Thundercloud(Gases, Plasmas and Electric Discharges)
- Model for Collisions of SF_6^-, SF_5^-, or F^- Ions with SF_6 Molecules(Atomic and Molecular Physics)
- Monte Carlo Collision Simulation of Positive-Negative Ion Recombination for a Given Rate Constant
- Particle Modeling of Ionization and Three-Body Recombination in Fully Ionized Plasmas
- Electron Energy Distributions in Inductively Coupled Plasma of Argon : Nuclear Sciences, Plasmas, and Electric Discharges
- Electron Energy Distributions in Inductively Coupled Plasma : Comparison of Chlorine Discharge with Argon Discharge
- Particle-in-Cell Simulation of Expansions of Dense Plasma Sources for X-Ray Laser Systems
- Analysis of Three-Dimensional DC Magnetron Discharge by the Particle-in-Cell/Monte Carlo Method
- Rarefied Flows of the Monatomic Gas in a Two-Dimensional Expansion Nozzle
- Self-Consistent Particle Simulation of Radio Frequency CF_4 Discharge : Effect of Gas Pressure
- Effects of Target Erosion on the Growth Rate of Films Fabricated by the Sputtering Method
- Weighting Factor for Particle Modeling of Axisymmetrical Low Temperature Plasmas
- Detailed Structure of the Afterglow of Radio-Frequency Chlorine Discharge
- Analytical Solution of Axisymmetrical Poisson Equation for the Electric Field with Thin Sheaths(Gases, Plasmas and Electric Discharges)
- A Simple Model for Ar^+ -Ar, He^+ -He, Ne^+ -Ne and Kr^+ -Kr Collisions
- Relaxation Rates for Vibrational De-Excitation of Anharmonic Morse Oscillators
- Reply to a Comment by Koura on "Interrelations between Various Direct Simulation Methods for Solving the Boltzmann Equation"
- Analysis of the Couette Flow by Means of the New Direct-Simulation Method
- Stochastic Theory of Motion and Collision of Charged Particle in a Uniform Electric Field
- On the Simulation Method for the Bhatnager-Gross-Krook Equation
- Exact Direct-Simulation-Scheme for the Boltzmann Equation/Correlation of Molecular Velocities Subject to Renewal Processes
- Flow of nanoparticles in a reactor fabricating solar cells
- Couette Flow in Continuum to Free Molecular Regime
- 3-D Structure of DC Glow Discharge by Self-Consistent Monte Carlo Simulation
- Spherical and Cylindrical Expansions of Ultrahigh Density Plasma Sources for X-Ray Laser System
- Particle Modeling of Inductively Coupled Plasma and Radicals Flow to Predict Etch Rate of Silicon
- Simple Method to Determine Collisional Event in Monte Carlo Simulation of Electron-Molecule Collision
- Direct Simulation Scheme Derived from the Boltzmann Equation. II. Multicomponent Gas Mixtures
- Interrelations between Various Direct Simulation Methods for Solving teh Boltzmann Equation
- Rarefied Flows of the Monatomic Gas in an Axi-Symmetric Expansion Nozzle
- Stochastic Solution Method of the Master Equation and the Model Boltzmann Equation
- Directo Simulation Scheme Derived from the Boltzmann Equation. IV. Correlation of Velocity
- Variable Hard-Sphere Model for Gas Mixture
- Particle Modeling of Transport of $\alpha$-Ray Generated Ion Clusters in Air
- Direct Simulation Scheme Derived from the Boltzmann Equation.VI.Velocity Correlation in a Model Cell
- The Displacement of a Simulated Molecule Following the Stochastic Process Derived from the Boltzmann Equation
- Speedup of the Direct Simulation Methods for Solving the Boltzmann Equation
- Velocity-Slip and Temperature Difference of Gas Mixtures in a Free-Jet Expansion
- Derivation from Kac's Master Equation of the Stochastic Laws for Simulating Molecular Collisions
- Direct Solutions of Finite-Difference Systems for Poisson's Equation I. Simple Cases
- Reply to a Conunent by Koura on "Direct Simulation Scheme Derived from the Boltzmann Equation. I. Monocomponent Gases"
- Effect of Driving Frequency on the Electron Energy Probability Function of Capacitively Coupled Argon Plasmas Comparison between Simulation and Experiment
- Collision Models between F- ion and Ar, Kr, and Xe Atoms
- Sheath Model for Dual-Frequency Capacitively Coupled Plasmas
- Analysis of Three-Dimensional DC Magnetron Discharge by the Particle-in-Cell/Monte Carlo Method
- Self-Consistent Particle Modeling of Inductively Coupled CF4 Plasmas: Effect of Wafer Biasing
- Direct Solutions of Finite-Difference Systems for Poisson's Equation II. Complex Cases
- Randomly Stepped Model for Upward Electrical Discharge from Top of Thundercloud(Gases, Plasmas and Electric Discharges)
- Simulation of gigantic jets propagating from the top of thunderclouds to the ionosphere