Shibayama Jun | Hosei Univ. Tokyo Jpn
スポンサーリンク
概要
関連著者
-
Shibayama Jun
Hosei Univ. Tokyo Jpn
-
Yamauchi J
Hosei Univ. Tokyo Jpn
-
Yamauchi Junji
The College Of Engineering Hosei University
-
Nakano H
Microelectronics Engineering Laboratory Toshiba Corporation
-
Nakano Hisamatsu
Faculty Of Engineering Hosei University
-
Nakano H
Faculty Of Engineering Hosei University
-
Yamauchi Junji
Faculty Of Engineering Hosei University
-
Yamauchi Junji
Faculty Of Bioscience And Biotechnology Tokyo Institute Of Technology
-
Shibayama Jun
Faculty Of Engineering Hosei University
-
NAKANO Hisamatsu
Faculty of Engineering, Hosei University
-
Yamazaki Tomohide
Hosei Univ. Tokyo Jpn
-
SADANO Koichi
Faculty of Engineering, Hosei University
-
Sadano Koichi
Faculty Of Engineering Hosei University
-
Nakamura Shu
The College Of Engineering Hosei University
-
Yamazaki Tomohide
Faculty Of Engineering Hosei University
-
TAKAGI Shota
Faculty of Engineering, Hosei University
-
SHIBAYAMA Jun
the College of Engineering, Hosei University
-
NAKANO Hisamatsu
the College of Engineering, Hosei University
-
Takagi Shota
Faculty Of Engineering Hosei University
著作論文
- Camparative Study of Several Time-Domain Methods for Optical Waveguide Analyses
- Numerical Analysis of Waveguide-Based Surface Plasmon Resonance Sensor with Adsorbed Layer Using Two- and Three-Dimensional Beam-Propagation Methods
- Eigenmode Analysis of a Light-Guiding Metal Line Loaded on a Dielectric Substrate Using the Imaginary-Distance Beam-Propagation Method
- Semivectorial Mode Analysis of a Rib Waveguide by an Imaginary-Distance Beam-Propagation Method Based on the Generalized Douglas Scheme
- LOD-BOR-FDTD Algorithm for Efficient Analysis of Circularly Symmetric Structures
- Frequency-Dependent Locally One-Dimensional FDTD Implementation With a Combined Dispersion Model for the Analysis of Surface Plasmon Waveguides
- Numerical Investigation of a Kretschmann-Type Surface Plasmon Resonance Waveguide Sensor
- Performance Evaluation of Several Implicit FDTD Methods for Optical Waveguide Analyses
- A Three-Dimensional Horizontally Wide-Angle Noniterative Beam-Propagation Method Based on the Alternating-Direction Implicit Scheme
- A Finite-Difference Time-Domain Beam-Propagation Method for TE- and TM-Wave Analyses
- Design of a Wavelength Demultiplexer Based on a Bent Waveguide Coupler Using the Three-Dimensional Beam-Propagation Method
- Design of a Wavelength Demultiplexer Based on a Bent Waveguide Coupler Using the Three-Dimensional Beam-Propagation Method (IEICE Trans., Electron., Vol. E86-C, No. 5, Joint Special Issue on Recent Progress in Optoelectronics and Communications)
- Comparative Study of Absorbing Boundary Conditions for the Time-Domain Beam Propagation Method
- Efficient Time-Domain Finite-Difference Beam Propagation Methods for the Analysis of Slab and Circularly Symmetric Waveguides
- Efficient nonuniform schemes for paraxial and wide-angle finite-difference beam propagation methods