Papers - KAWAGUCHI Hideki

1. Numerical Analysis of Optical Vortex Generation with Helical Filter using Empirical Mode Decomposition

   R. Dong, Y. Fujita, H. Nakamura, H. Kawaguchi, S. Ikuno，International Journal of Applied Electromagnetics and Mechanics，Article Number:to be published，2025

   

2. Consideration on relation between penetrated power and topological charge of millimeter-wave vortex in magnetized plasma

   C.X. Wang, H. Kawaguchi, H. Nakamura, S. Kubo，Journal of Advanced Simulation in Science and Engineering，Article Number:to be published，2025

   

3. Generating optical vortex beams using cylindrical waveguides

   Yoshihisa Fujita, Hiroaki Nakamura, Hideki Kawaguchi, Yuki Goto and Shin Kubo，Japanese Journal of Applied Physics，vol.63，(p.10SP07-1 ～ 10SP07-6)，Article Number:10SP07，2024.10

   

4. The study of propagation characteristics of the millimeter-wave vortex in magnetized plasma by using the FDTD method

   Chenxu Wang, Hideki Kawaguchi, Hiroaki Nakamura and Shin Kubo，Japanese Journal of Applied Physics，vol.63，(p.09SP08-1 ～ 09SP08-5)，Article Number:09SP08，2024.09

   

5. 超音波測位システムのフェーズシフトアレイによる測位領域の拡大

   松岡俊佑, 川口秀樹，市川周一，日本ＡＥＭ学会誌，vol.32，(2)，(p.480 ～ 485)，2024.07

   

6. Chirality in electromagnetic radiation from relativistic electrons

   M. Katoh1, M. Fujimoto. E. Salehi, M. Hosaka, H. Kawaguchi，Chirality，vol.36，(5)，Article Number:e23677，2024.05

   

7. Light scattering properties of cellulose microcrystals from multiple angles under a magnetic field

   Yuka Takeuchi, Atom Hamasaki, Hideki Kawaguchi, Mizushi Matsuda，International Journal of Applied Electromagnetics and Mechanics，2024.01

   

8. 高速行列計算利用のための任意多倍長精度整数型除算LSI回路の検討

   WANG CHENXU，川口 秀樹，渡邊 浩太，電子情報通信学会 和文論文誌C，vol.Vol.J106-C，(No.10)，Article Number:to be published，2023.10

   

9. Design Study of FIT Dataflow Machine for High Performance 3-D Electrostatic Field Simulation

   C.X. Wang, H. Kawaguchi，International Journal of Applied Electromagnetics and Mechanics，vol.71，(S1)，(p.S203 ～ S210)，2023.05

   

10. Study of FIT Dedicated Computer with Dataflow Architecture for High Performance 2-D Magneto-static Field Simulation

    Chenxu Wang, Hideki Kawaguchi, Kota Watanabe，IEICE Trans. Electron.，vol.E106-C，(4)，(p.136 ～ 143)，2023.04

    

11. Orbital Angular Momentum of Vortex Fields in Corrugated Cylindrical Waveguide Hybrid Mode

    Hideki Kawaguchi, Shin Kubo, Hiroaki Nakamura，IEEE Microwave and Wireless Components Letters，vol.33，(2)，(p.118 ～ 121)，2023.02

    

12. Time-domain Eddy Current and Wake Fields Analysis of Pulsed Multipole Magnet Beam Injector in Synchrotron Radiation Ring

    H. Kawaguch, T. Muramatsu, M. Kato, M. Hosaka, Y. Takashima，IEICE Transactions on Electronics，vol.E105-C，(4)，(p.146 ～ 153)，Article Number:2021REP0003，2022.04

    

13. Development of a quadrupole magnet for a mechanical-part-free rotational magnetic field

    Y. Takeuchi, H. Kawaguchi, M. Matsuda, A. Hamasaki，Applied Physics Express，vol.14，Article Number:057002，2021.05

    

14. Speed-up of Scattered Field Formulation of FDTD Method Combining with Time-Domain EFIE by Using Spherical Harmonic Expansion of Green's Function

    H. Kawaguchi，International Journal of Applied Electromagnetics and Mechanics，vol.65，(p.17 ～ 25)，2021.01

    

15. Speed-up of Simulation of Magnetization Process for Large-Scale HTS Undulator of X-FEL Based on Power-law Macro-model

    Yi Deri, H. Kawaguchi，International Journal of Applied Electromagnetics and Mechanics，vol.64，(p.985 ～ 991)，2020.12

    

16. Orbital Angular Momentum of Liénard–Wiechert Fields

    H.Kawaguchi1 and M. Katoh，Progress of Theoretical and Experimental Physics，vol.Vol. 2019，(Issue 8)，Article Number:083A02，2019.08

    

17. Evaluation of Mechanical Torque Acting on Scatterer in Microwave Vortex Fields

    H. Kawaguchi and H. Nakamura，IEEE Microwave and Wireless Components Letters，vol.29，(7)，(p.504 ～ 506)，2019.07

    

18. Numerical Analysis of Magnetization Process of High-Tc Superconductor Undulator of X-ray FEL Using Power Law Conductivity

    H. Kawaguchi and Y. Deri，International Journal of Applied Electromagnetics and Mechanics，vol.59，(1)，(p.165 ～ 171)，2019.03

    

19. Zero-dimensional chemical kinetic simulation of ROS/RNS in pulsed-discharge exposed water

    K. Takahashi, S. Kawaguchi, K. Satoh, H. Kawaguchi, I. Timoshkin, M. Given, and S. MacGregor，Japanese Journal of Applied Physics，vol.58，(2)，(p.026001-1 ～ 026001-5)，2019.01

    

20. Implementation of Microwave Simulation at Dispersive Material in Dataflow Architecture FDTD Dedicated Computer

    H. Kawaguchi, S. Matsuoka，IEEE Transactions on Magnetics，vol.54，(3)，Article Number:7202205，2018.03

    

21. Large Scale Simulation of Magnetization Process of HTS Undulator for X-ray FEL Based on T-method

    Yi Deri, H. Kawaguchi，IEEE Transactions on Magnetics，vol.54，(3)，Article Number:7202104，2018.03

    

22. Attenuation Model for Error Correction of Ultrasonic Positioning System

    N.Fujieda, T.Shinohara, S.Ichikawa, Y.Sakaguchi, S.Matsuoka, H.Kawaguchi，IEEJ Journal of Industry Application，vol.7，(3)，(p.181 ～ 188)，2018.03

    

23. Design Study of Domain Decomposition Operation in Dataflow Architecture FDTD/FIT Dedicated Computer

    H. Kawaguchi，IEICE TRANSACTIONS on Electronics，vol.E101-C，(1)，(p.20 ～ 25)，2018.01

    

24. Boundary element analysis of stress forces in pulsed electric field treatment of microorganism

    H.Kawaguchi, K. Satoh, I. V. Timoshkin, M. Given and S. J. Macgregor，International Journal of Applied Electromagnetics and Mechanics，vol.53，(2)，(p.315 ～ 325)，2017

    

25. Angular Momentum of Twisted Radiation from an Electron in Spiral Motion

    M. Katoh, M. Fujimoto, H. Kawaguchi, K. Tsuchiya, K. Ohmi, T. Kaneyasu, Y. Taira, M. Hosaka, A. Mochihashi, Y. Takashima，Physical Review Letters，vol.118，(9)，Article Number:094801，2017

    

26. Initial Value Problem Formulation TDBEM with 4-D Domain Decomposition Method and Application to Wake Fields Analysis

    H. Kawaguchi, T. Weiland，IEICE Transactions on Electronics，vol.E100-C，(1)，(p.37 ～ 44)，2017

    

27. Production characteristics of reactive oxygen/nitrogen species in water using atmospheric pressure discharge plasmas

    K.Takahashi，K.Satoh, H.Itoh, H.Kawaguchi, I.Timoshkin, M.Given and S.MacGregor，Japanese Journal of Applied Physics，vol.55，(7 S2)，(p.07LF01-1 ～ 07LF01-6)，2016.06

    

28. Improved Architecture of FDTD Dataflow Machine for Higher Performance Electromagnetic Wave Simulation

    H. Kawaguchi，IEEE Tran. Magn.，vol.52，(3)，(p.7206604 ～ )，2016

    

29. 超音波を用いたリアルタイム位置測位システムの開発

    松岡俊佑, 藤枝直輝，市川周一, 川口秀樹，J. Jpn. Soc. Appl. Electromagn. Mech.，vol.23，(2)，(p.380 ～ 385)，2015

    

30. Method of real time simulation for design of microwave devices based on FDTD method

    H. Kawaguchi, S. Kodate，Journal of Advanced Simulation in Science and Engineering，vol.2，(2)，(p.225 ～ 234)，2015

    

31. Simulation of Magnetization Process of Pure-type Superconductor Magnet Undulator Based on T-method

    Yi Deri, H. Kawaguchi, M. Tsuchimoto, T. Tanaka，Physica C，vol.518，(p.106 ～ 110)，2015

    

32. Design of HTSC Undulator Magnet Array Based on Simulation of Magnetization Process

    Yi Deri, F. Tanaka, H. Kawaguchi, M. Tsuchimoto，Journal of Advanced Simulation in Science and Engineering，vol.Vol.2，(No.2)，(p.34 ～ 43)，2015

    

33. Conceptual Design of 3D FDTD Dedicated Computer with Dataflow Architecture for High Performance Microwave Simulation

    H.Kawaguchi and S.Matsuoka，IEEE Tran. Magn.，vol.51，(3)，(p.7202404 ～ )，2015

    

34. 4D Space-Time Domain Decomposition Simulation of Particle Accelerator Wake Field Based on 3D Time Domain BEM

    H.Kawaguchi, S.Itasaka and T.Weiland，IEEE Tran. Magn.，vol.51，(3)，(p.7201604 ～ )，2015

    

35. MPI Parallel Scheme of 3D Time Domain Boundary Element Method with CRS Matrix Compression

    K.Maeda, H.Shibata, H.Kawaguchi and S.Itasaka，IEEE Tran. Magn.，vol.Vol.50，(Issue 2)，(p.7013104 ～ )，2014

    

36. Initial Value Problem Formulation of 3D Time Domain Boundary Element Method

    H.Kawaguchi, S.Itasaka and T.Weiland，IEEE Tran. Magn.，vol.Vol.50，(Issue 2)，(p.7014604 ～ )，2014

    

37. Boundary Element Analysis of Beam Dynamics in Streak Camera Considering Space Charge Effects

    H.Kawaguchi K.Maeda, S.Kodate, Y.Ito，IEICE Trans. Electron.，vol.Vol.E96-C，(No.1)，(p.28 ～ 34)，2013

    

38. Numerical Analysis of Sampling Streak Camera for Higher Temporal Resolution Operation

    H.Kawaguchi and Y.Ito，IEEE Tran. Magn.，vol.Vol.48，(No.2)，(p.411 ～ 414)，2012

    

39. Initial Value Problem Formulation of Time Domain Boundary Element Method for Electromagnetic Microwave Simulations

    H.Kawaguchi and T.Weiland，Engineering Analysis with Boundary Elements，vol.Vol.36，(No.6)，(p.968 ～ 978)，2012

    

40. マイクロ波励起表面波プラズマ半導体処理装置の数値解析コードにおけるプラズマ電子密度分布の計算も含めた解析スキームの検討

    畑口雅人, 西川崇之， 川口秀樹, 鏡　愼，J. Jpn. Soc. Appl. Electromagn. Mech.，vol.Vol.19，(No.2)，(p.348 ～ 353)，2011

    

41. Development of improved memory architecture FDTD/FIT dedicated computer based on SDRAM for large scale microwave simulation

    Y.Fujita and H.Kawaguchi，International Journal of Applied Electromagnetics，vol.Vol.32，(No.3)，(p.145 ～ 157)，2010

    

42. Three-dimensional Wake Field Computations based on Scattered-field Time Domain Boundary Element Method

    K.Fujita, H.Kawaguchi, T.Weiland and S.Tomioka，IEEE Trans. Nuclear Science，vol.Vol.56，(No.4)，(p.2341 ～ 2350)，2009

    

43. A New Method of Line Plasma Production by Microwave in a Narrowed Rectangular Waveguide

    Y.Kimura, H.Kawaguchi, S. Kagami, M. Furukawa, and H. Shindo，Appl. Phys. Express，vol.Vol.2，(p.126002 ～ )，2009

    

44. Full Custom PCB Implementation of FDTD/FIT Dedicated Computer

    Y.Fujita and H.Kawaguchi，IEEE Trans. Magn.，vol.Vol.45，(No.3)，(p.1100 ～ 1103)，2009

    

45. Improved Architecture of FDTD/FIT Dedicated Computer for Higher Performance Computation

    H.Kawaguchi, Y.Fujita, Y.Fujishima and S.Matsuoka，IEEE Trans. Magn.，vol.44，(6)，(p.1226 ～ 1229)，2008

    

46. Time Domain Boundary Element Analysis of Wake Fields in Long Accelerator Structures

    K.Fujita, H.Kawaguchi, R.Hampel, W.F.O.M&#252，IEEE Trans. Nuclear Science，vol.Vol.55，(No.5)，(p.2584 ～ 2591)，2008

    

47. TM01-mode microwave propagation property analysis for plasmas with disk-plate windows by a finite-difference time-domain method

    Y.Okamura, Y.Yamamoto, K.Fujita, T.Miyoshi, K.Teramoto, H.Kawaguchi, S.Kagami and M.Furukawa，Journal of Vacuum Science and Technology A，vol.Vol.25，(Issue 4)，(p.816 ～ 823)，2007

    

48. Scattered-field Time Domain Boundary Element Method and Its Application to Transient Electromagnetic Field Simulation in Particle Accelerator Physics

    K.Fujita, H.Kawaguchi, S.Nishiyama, S.Tomioka, T.Enoto, I.Zagorodnov and T.Weiland，IEICE Trans. Electron，vol.Vol.E90-C，(No.2)，(p.265 ～ 274)，2007

    

49. Time Domain Wake Field Computation with Boundary Element Method

    K. Fujita, H. Kawaguchi, I. Zagorodnov and T. Weiland，IEEE Trans. Nuclear Science，vol.53，(2)，(p.431 ～ 439)，2006

    

50. 3次元マイクロ波シミュレータ・FDTDメモリマシンの開発に関する研究

    髙﨑秀樹，川口秀樹，松岡俊佑，高原健爾，日本ＡＥＭ学会誌，vol.14，(2)，(p.215 ～ 219)，2006

    

51. データフローアーキテクチャＦＤＴＤ／ＦＩＴ法専用計算機における吸収境界条件の検討

    松岡俊佑，藤田和広, 高田士寛，川口秀樹，計算数理工学論文集，vol.第５巻，(第２号)，(p.171 ～ 176)，2005

    

52. 時間領域境界要素法による２．５次元電磁場シミュレーション

    藤田和広，川口秀樹，境界要素法論文集，vol.21，(p.19 ～ 22)，2004

    

53. 時間領域境界要素法による粒子加速器におけるピルボックス加速空洞の数値解析

    川口秀樹，藤田和広，Transactions of the JASCOME Journal of Boundary Element Methods，vol.第２０巻，(p.57 ～ 60)，2003

    

54. Time Domain Analysis of Electromagnetic Wave Fields by Boundary Integral Equation Method

    H.Kawaguchi，Engineering Analysis with Boundary Elements，vol.Vol.27，(4)，(p.291 ～ 304)，2003

    

55. Study of a Microwave Simulation Dedicated Computer, FDTD/FIT Data Flow Machine

    S.Matsuoka and H.Kawaguchi，IEICE Trans. Electron.，vol.Vol.E86-C，(No.11)，(p.2199 ～ 2206)，2003

    

56. ３次元マイクロ波シミュレータエンジンの基本設計に関する研究

    川口秀樹、廣瀬公輝、堀田誠人、松岡俊佑、高原健爾，電気学会論文誌Ａ (T. IEE Japan)，vol.122，(12)，(p.1038 ～ 1044)，2002

    

57. Stable time domain boundary integral equation method for axisymetric coupled charge-electromagnetic field problems

    H.Kawaguchi，IEEE Trans. Magn.，vol.38，(2)，(p.749 ～ 752)，2002

    

58. Design Study of Ultra-high Speed Microwave Simulator Engine

    H.Kawaguchi, K.Takahara, D.Yamauchi，IEEE Trans. Magn.，vol.38，(2)，(p.689 ～ 692)，2002

    

59. Minkowski Norm Preserving Integrator for Ultra-Relativistic Radiating Charged Particles

    H.Kawaguchi，AIP Conference Proceedings，vol.627，(p.244 ～ 252)，2002

    

60. Evaluation of the Lorentz Group Lie Algebra Map Using the Baker-Cambel-Hausdorff Formula

    H.Kawaguchi，IEEE Trans. Magn.，vol.35，(3)，(p.1490 ～ 1493)，1999

    

61. Consideration on the Dirichlet-Gauge Boundary Element Method from Topological Point of View

    H.Kawaguchi, M.Isoda and T.Honma，IEEE Trans. Magn.，vol.33，(2)，(p.1436 ～ 1439)，1997

    

62. 軸対称系における電磁場時間依存境界要素解析

    川口秀樹,磯田誠,本間利久，境界要素法論文集，vol.第１４巻，(p.25 ～ 30)，1997

    

63. Consideration onNumerical Instability of Dirichlet Gauge BEM

    H.Kawaguchi and T.Honma，IEEE Trans. Magn.，vol.32，(3)，(p.914 ～ 917)，1996

    

64. On the Electrodynamics of the Lienard-Wiechert Superpotentials

    H.Kawaguchi and T.Honma，J. Phys. A : Math. Gen.，vol.28，(p.469 ～ 478)，1995

    

65. Numerical Study of the Thrust Mechanism in a Two-dimensional MPD Thruster

    H.Kawaguchi, K.Sasaki, H.Itoh and T.Honma，International Journal of Applied Electromagnetics，vol.6，(p.351 ～ 365)，1995

    

66. 時間依存型境界要素法によるウエークポテンシャルの計算

    川口秀樹、本間利久，日本ＡＥＭ学会誌，vol.3，(4)，(p.28 ～ 31)，1995

    

67. Consideration on Shape Dependence of Wake Field Acclerators

    H.Kawaguchi and T.Honma，IEEE Trans. Magn.，vol.31，(3)，(p.2135 ～ 2138)，1995

    

68. A Precise Integrator for Charged Particle Motion

    H.Kawaguchi and T.Honma，IEEE Trans. Magn.，vol.31，(3)，(p.1412 ～ 1415)，1995

    

69. On the Wake Fields Reaction force which acts on electrons in an accelerator cavity

    H.Kawaguchi and T.Honma，Nuclear Instruments and Method s in Physics Research，vol.A363，(p.145 ～ 152)，1995

    

70. Boundary Element Analysis of Wake-Fields Based on Kirchhoff's IntegralEquation

    H.Kawaguchi and T.Honma，Engineering Analysis with Boundary Elements，vol.14，(p.133 ～ 138)，1994

    

71. On a Double Fibre Bundle Structure of the Lienard-WiechertSuperpotentials

    H.Kawaguchi and T.Honma，J. Tech. Phys.，vol.35，(p.61 ～ 65)，1994

    

72. Large Scale Wake-fields Calculation Using Kirchhoff's Integral Equation

    H.Kawaguchi, M.Ohtsuka and T.Honma，IEEE Trans. Magn.，vol.30，(5)，(p.3128 ～ 3131)，1994

    

73. Estimation of Source Particle Trajectories from Far Electromagnetic Fields Using the Lienard-Wiechert Superpotentials : Twin Particles System

    H.Kawaguchi and T.Honma，IEICE Trans. Electron.，vol.E77-C，(11)，(p.1802 ～ 1807)，1994

    

74. On the Superpotentials for Lienard-Wiechert Potentials in Far Fields: II The Relativistic Case

    H.Kawaguchi and T.Honma，J. Phys. A : Math. Gen.，vol.26，(p.4431 ～ 4439)，1993

    

75. On the Super-Potentials for Lienard-Wiechert Potentials in Far Fields

    H.Kawaguchi and T.Honma，J. Phys. A : Math. Gen.，vol.25，(p.4437 ～ 4442)，1992

    

76. ４次元時空上での境界要素法定式化

    川口秀樹,本間利久，境界要素法論文集，vol.第８巻，(p.119 ～ 124)，1991

    

77. Hertzian Tensor Potential which Results in Lienard-Wiechert Potential

    H.Kawaguchi and S.Murata，J. Phys. Soc. Jpn.，vol.58，(3)，(p.848 ～ 855)，1989