Numerical Analysis of AC Loss in High-Tc Superconducting Cables

Shoichi Honjo, Tokyo Electric Power Company

• Applications: Cable
• Physical Phenomena: Magnetic Field
• Technical Themes: Material Modeling / Loss Analysis

Numerical Calculation of AC Loss of Superconductor including Magnetic Field Dependence of Critical Current

Edmund S.Otabe, Kyushu Institute of Technology

• Applications: Superconductivity
• Physical Phenomena: Magnetic Field
• Technical Themes: Material Modeling / Loss Analysis

Cogging Torque Analysis of Thin-Shaped Permanent Motor With Pole-Orientations Taking into Account of Material Properties

Takushi Fujioka,Youichi Tanabe, FUJITSU GENERAL LIMITED

• Physical Phenomena: Magnetic Field and Material

Recent Analysis Method of Motors Using 3-D Finite Element Method

Yoshihiro kawase, Gifu University

• Applications: Axial Gap Type Motor, Generator, Induction Motor, IPM Motor, Motor, and Stepper Motor
• Physical Phenomena: Magnetic Field

New Practical Analysis of Actuators by 3-D Finite Element Method

Yoshihiro Kawase, Gifu University

• Applications: Induction Motor, IPM Motor, Linear Solenoid / Linear Actuator, Motor, and Stepper Motor

Fast multigrid solver for high frequency electromagnetic analysis

David Dibben, The Japan Research Institute,Limited.

Numerical results of receiving characteristics of a large crane in madium frequency

Tomita Hajime, National Institute of Industrial Safety

• Physical Phenomena: Electric Field

Analysis of Electromagnetic waves using the FDTD Method

Tatsuya Kashiwa, Kitami Institute of Technology

• Physical Phenomena: Electric Field

How to handle a permanent magnet in the magnetic field analysis

Sumitomo Special Metals CO.,LTD

• Physical Phenomena: Magnetic Field and Material

Latest 3-dimensional Magnetic Field Analysis Utilizing Motion

Yoshihiro Kawase, Gifu University

• Applications: IPM Motor, Linear Solenoid / Linear Actuator, Motor, SPM Motor, and Stepper Motor
• Physical Phenomena: Magnetic Field

Coating Simulation of Ion Plating

Koichiro Maki, Sumitomo Metal Minimg Co.Ltd.

Applications of Optimal Design Methods in Magnetic Field Problems

Shinji Wakao, Waseda University

• Applications: Induction Motor and Magnetic Shield
• Physical Phenomena: Magnetic Field
• Technical Themes: Design Exploration / Optimization

Analysis of wave-absorption-property for ferromagnetics by FDTD method

Morihiko Matsumoto, Nippon telegraph and telephone east corp.,

Analysis of Electromagnetic waves using the FDTD Method

Tatsuya Kashiwa, Kitami Institute of Technology

Trend and Vision for Magnetic Field Simulation Technology

Keio University

Latest Magnetic Field Analysis Using the Finite Element Method and Its Application

Yoshihiro Kawase, Gifu University

• Applications: IPM Motor, Linear Solenoid / Linear Actuator, Motor, SPM Motor, and Stepper Motor
• Physical Phenomena: Magnetic Field