All Stories

  1. Trapezoidal recursive convolution-based FDTD method for arbitrary-shaped dispersive materials

    Article • Electronics Letters, October 2018, the Institution of Engineering and Technology (the IET)

    Professor Emeritus Hisamatsu Nakano, Professor Jun Shibayama

  2. Metal disc-type splitter with radially placed gratings for terahertz surface waves

    Article • Electronics Letters, February 2015, the Institution of Engineering and Technology (the IET)

    Professor Jun Shibayama

  3. Optical nanodipole and nanospiral antennas

    Article • December 2014, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  4. Full-Vectorial Beam-Propagation Methods Based on a Fundamental Scheme—Design of a Short Polarization Converter

    Article • Journal of Lightwave Technology, November 2014, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  5. Analysis of a terahertz resonator using an efficient LOD-FDTD method with a PEC boundary condition

    Article • May 2014, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  6. Fundamental LOD-BOR-FDTD Method for the Analysis of Plasmonic Devices

    Article • IEICE Transactions on Electronics, January 2014, Institute of Electronics, Information and Communications Engineers (IEICE)

    Professor Jun Shibayama

  7. Some applications of a fundamental scheme to simple implementations of the finite-difference time-domain method and the beam-propagation method

    Article • October 2013, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  8. Treatment of metal for the FDTD analysis of terahertz devices

    Article • Optical and Quantum Electronics, September 2013, Springer Science + Business Media

    Professor Jun Shibayama

  9. Frequency-Dependent Fundamental LOD-FDTD Formulation for a Multipole Debye Model

    Article • IEEE Photonics Technology Letters, May 2013, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  10. Simplified Algorithms for the Full-Vectorial ADI-BPM Using a Fundamental Scheme

    Article • IEEE Photonics Technology Letters, January 2013, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  11. Efficient time-domain techniques for the wideband analysis of plasmonic antennas

    Article • November 2012, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  12. Efficient LOD-BOR-FDTD Implementation Based on a Fundamental Scheme

    Article • IEEE Photonics Technology Letters, June 2012, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  13. Reformulation of the ADI-BPM using a fundamental scheme

    Article • IEICE Electronics Express, January 2012, Institute of Electronics, Information and Communications Engineers (IEICE)

    Professor Jun Shibayama

  14. Frequency-Dependent Formulations of a Drude-Critical Points Model for Explicit and Implicit FDTD Methods Using the Trapezoidal RC Technique

    Article • IEICE Transactions on Electronics, January 2012, Institute of Electronics, Information and Communications Engineers (IEICE)

    Professor Jun Shibayama

  15. Efficient implementation of frequency-dependent 3D LOD-FDTD method using fundamental scheme

    Article • Electronics Letters, January 2012, the Institution of Engineering and Technology (the IET)

    Professor Jun Shibayama

  16. A locally one-dimensional finite difference time domain method for the analysis of a periodic structure at oblique incidence

    Article • Radio Science, September 2011, American Geophysical Union (AGU)

    Professor Jun Shibayama

  17. Analysis of a gap plasmonic waveguide using the frequency-dependent 3-D LOD-FDTD method

    Article • September 2011, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  18. Frequency-Dependent 3-D LOD-FDTD Method for the Analysis of Plasmonic Devices

    Article • IEEE Photonics Technology Letters, August 2011, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  19. A 3-D LOD-FDTD Method for the Wideband Analysis of Optical Devices

    Article • Journal of Lightwave Technology, June 2011, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  20. Optical Waveguides and Resonant Cavities

    Article • Advances in OptoElectronics, January 2011, Hindawi Publishing Corporation

    Professor Jun Shibayama

  21. Analysis of Periodic Structures at Oblique Incidence Using an LOD-FDTD Method

    Article • January 2011, Optical Society of America (OSA)

    Professor Jun Shibayama

  22. Analysis of Plasmonic Waveguides and Gratings Using Implicit Finite-Difference Methods

    Article • Advances in OptoElectronics, January 2011, Hindawi Publishing Corporation

    Professor Jun Shibayama

  23. General formulation of an efficient implicit BOR-FDTD method based on the locally one-dimensional scheme

    Article • August 2010, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  24. Three-Dimensional Numerical Investigation of an Improved Surface Plasmon Resonance Waveguide Sensor

    Article • IEEE Photonics Technology Letters, May 2010, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  25. A Frequency-Dependent LOD-FDTD Method and Its Application to the Analyses of Plasmonic Waveguide Devices

    Article • IEEE Journal of Quantum Electronics, January 2010, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  26. Analysis of a photonic bandgap structure using a periodic LOD-FDTD method

    Article • December 2009, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  27. LOD-BOR-FDTD Algorithm for Efficient Analysis of Circularly Symmetric Structures

    Article • IEEE Microwave and Wireless Components Letters, February 2009, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  28. Analysis of a Plasmonic Microcavity Using the Frequency-Dependent LOD-FDTD Method

    Article • January 2009, Optical Society of America (OSA)

    Professor Jun Shibayama

  29. An LOD-FDTD Method for the Analysis of Periodic Structures at Normal Incidence

    Article • IEEE Antennas and Wireless Propagation Letters, January 2009, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  30. A Kretschmann-type absorption-based surface plasmon resonance waveguide sensor

    Article • Microwave and Optical Technology Letters, October 2008, Wiley

    Professor Jun Shibayama

  31. Frequency-Dependent Locally One-Dimensional FDTD Implementation With a Combined Dispersion Model for the Analysis of Surface Plasmon Waveguides

    Article • IEEE Photonics Technology Letters, May 2008, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  32. Study of the Sidelobe Suppression in a Plasmon Waveguide Grating Filter Using the LOD-FDTD Method

    Article • January 2008, Optical Society of America (OSA)

    Professor Jun Shibayama

  33. Concise frequency-dependent formulation for LOD-FDTD method using Z transforms

    Article • Electronics Letters, January 2008, the Institution of Engineering and Technology (the IET)

    Professor Jun Shibayama

  34. Numerical Investigation of a Kretschmann-Type Surface Plasmon Resonance Waveguide Sensor

    Article • Journal of Lightwave Technology, September 2007, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  35. Efficient three-dimensional wide-angle beam-propagation method for the analysis of optical waveguide devices

    Article • August 2007, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  36. Frequency-dependent locally one-dimensional FDTD analysis of plasmonic waveguide devices

    Article • January 2007, the Institution of Engineering and Technology (the IET)

    Professor Jun Shibayama

  37. A Three-Dimensional Multistep Horizontally Wide-Angle Beam-Propagation Method Based on the Generalized Douglas Scheme

    Article • IEEE Photonics Technology Letters, December 2006, Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  38. Analysis of a Surface Plasmon Resonance Waveguide Sensor Using the BPM with the Complex Padé Approximant

    Article • January 2006, Optical Society of America (OSA)

    Professor Jun Shibayama

  39. Frequency-dependent LOD-FDTD implementations for dispersive media

    Article • Electronics Letters, January 2006, the Institution of Engineering and Technology (the IET)

    Professor Jun Shibayama

  40. Erratum for ‘Efficient implicit FDTD algorithm based on locally one-dimensional scheme’

    Article • Electronics Letters, January 2006, the Institution of Engineering and Technology (the IET)

    Professor Jun Shibayama

  41. Numerical investigations on sensing characteristics of waveguide-based surface plasmon resonance sensors

    Article • December 2005, SPIE

    Professor Jun Shibayama

  42. Efficient Absorbing Layers for the Guided-mode Analysis Using the Imaginary-Distance BPM

    Article • Optical and Quantum Electronics, July 2005, Springer Science + Business Media

    Professor Jun Shibayama

  43. On the Performance of Several Time-Domain Methods: A Comparative Study

    Article • January 2005, Optical Society of America (OSA)

    Professor Jun Shibayama

  44. Efficient implicit FDTD algorithm based on locally one-dimensional scheme

    Article • Electronics Letters, January 2005, the Institution of Engineering and Technology (the IET)

    Professor Jun Shibayama

  45. Imaginary-distance BPM simulation of a light-guiding metal line

    Article • January 2004, Optical Society of America (OSA)

    Professor Jun Shibayama

  46. Numerical analysis of DFB lasers with uniform longitudinal-intensity distributions using the modified time-domain traveling-wave algorithm

    Article • Microwave and Optical Technology Letters, January 2004, Wiley

    Professor Jun Shibayama

  47. Design of a bent-waveguide-based multimode interference demultiplexer using the full-vectorial BPM

    Article • January 2003, Optical Society of America (OSA)

    Professor Jun Shibayama

  48. Improved time-domain beam-propagation method with highly accurate finite-difference schemes in time and space

    Article • January 2002, Optical Society of America (OSA)

    Professor Jun Shibayama

  49. Analysis of a reflected field from a waveguide facet: comparison between the reflection method with Pade approximants and the FDTD method

    Article • January 2002, Optical Society of America (OSA)

    Professor Jun Shibayama

  50. A higher-order adaptive Higdon absorbing boundary condition for the beam-propagation method

    Article • January 2001, Optical Society of America (OSA)

    Professor Jun Shibayama

  51. Analysis of pulse propagation in an optical fiber using a time-domain BPM with Pade approximants in the time axis

    Article • January 2000, Optical Society of America (OSA)

    Professor Jun Shibayama

  52. EXTENDED TIME-DOMAIN FINITE-DIFFERENCE BEAM PROPAGATION METHODS

    Article • January 1999, Optical Society of America (OSA)

    Professor Jun Shibayama

  53. Eigenmode analysis of optical waveguides by an improved finite-difference imaginary-distance beam propagation method

    Article • Electronics and Communications in Japan (Part II Electronics), April 1998, Wiley

    Professor Jun Shibayama

  54. Technique of improving the multistep method for wide-angle beam propagation

    Article • January 1996, Optical Society of America (OSA)

    Professor Jun Shibayama

  55. Finite-difference beam propagation method using the oblique coordinate system

    Article • Electronics and Communications in Japan (Part II Electronics), June 1995, Wiley

    Professor Jun Shibayama

  56. Fast-fourier transform beam-propagation method using Fadé approximant operators

    Article • Electronics and Communications in Japan (Part II Electronics), March 1995, Wiley

    Professor Jun Shibayama

  57. Wide-angle propagating beam analysis based on the generalized Douglas scheme for variable coefficients

    Article • Optics Letters, January 1995, Optical Society of America (OSA)

    Professor Jun Shibayama

  58. A wide-angle beam propagation method using the generalized Douglas scheme for variable coefficients

    Article • January 1995, Optical Society of America (OSA)

    Professor Jun Shibayama

  59. Propagating Beam Analysis Based on the Implicit Finite-Difference Method Using the Oblique Coordinate System

    Article • January 1994, Optical Society of America (OSA)

    Professor Jun Shibayama

  60. Application of the finite-difference beam-propagation method to optical waveguide analysis

    Article • Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  61. BPM simulation of a light-guiding metal line with an embedded dielectric core

    Article • Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama

  62. An improved time-domain beam-propagation method based on the alternating-direction implicit method for wide-band analysis

    Article • Institute of Electrical & Electronics Engineers (IEEE)

    Professor Jun Shibayama