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研究内容
主として光導波路を伝搬する光波の数値解析とその現象の応用した信号処理や情報伝送技術に関連する研究に従事.
具体的には:
などの研究を行ってきました.
外部からの研究資金獲得状況
【科学研究費補助金】(但書がないものはすべて単独申請)
l
平成8年度 奨励研究A(課題番号0875044)
l
平成9・10年度奨励研究A(課題番号09750423)
l
平成12・13年度奨励研究A(課題番号12750355)
l
平成15・16年度若手研究B(課題番号15760249)
l
平成24〜26年度基盤研究C(課題番号24560430)(分担者として。代表者・安元清俊)
l
平成27〜29年度基盤研究C(課題番号15K06043)
所属学会
l 電子情報通信学会
正員
l Optical Society of America 正員
l 応用物理学会
正員
表彰
l 1997年度 電子情報通信学会 学術奨励賞(平成10年3月)
l 1998 China-Japan Joint Meeting on Microwaves (CJMW’98) Prize
l 平成21年度 情報工学部教育業績賞(2010年1月)
海外派遣
l 平成27年度 福岡工業大学学外研修制度 (カナダ・ダルハウジー大学工学部 訪問教授)Visiting
Professor in Faculty of Engineering, Dalhousie University, Canada (April 2015 – March 2016).
業績一覧
著書(Book)
1.
H. Maeda, “Numerical Technique for
Electromagnetic Field Computation Including High Contrast Composite Material”(Click for Accessing the Book Chapter for FREE), as Chapter 3 of
book entitled“Optical Communications”, pp.41-54, edited by
Narottam Das, InTech Open Access Publisher, ISBN
978-953-51-0784-2(2012 October).
論文(Paper)
1.
H. Maeda and K. Yasumoto, "Numerical
Analysis of a Symmetric Nonlinear Directional Coupler", IEICE Trans. on
Electron., Vol. E77-C, No.2, pp.298-302 (1994, Feb.)
2.
K. Yasumoto, N. Maekawa and H. Maeda, "Coupled-Mode
Analysis of a Symmetric Nonlinear Directional Coupler Using a Singular
Perturbation Method", IEICE Trans. on Electron, Vol. E77-C, No.11,
pp.1771-1775 (1994, Nov.)
3.
K. Yasumoto, N. Mitsunaga and H. Maeda,
"Coupled-Mode Analysis of Power-Transfer Characteristics in a
Three-Waveguide Nonlinear Directional Coupler", Journal of Optical Society
of America, B, Vol.13, No.3, pp.621-627 (1996, March)
4.
K. Yasumoto, N. Maekawa and H. Maeda,
"Coupled-Mode Analysis of an Asymmetric Nonlinear Directional Coupler",
IEEE Lightwave Technology, Vol.14, No.4, pp.628-633 (1996, April)
5.
K. Uchida, H. Maeda, T. Imai, T. Fujii and M.
Hata, "Analysis of Electromagnetic Wave Scattering by a Conducting Thin
Plate and Image Coefficient for Ray Tracing Method", IEICE Trans. on
Electron., Vol.E81-C, No.6, pp.993-999 (1998, June)
6.
H. Nose, H. Maeda, N. Yamamoto, M. Nakahara,
"Effect of Optical Fiber Output Surface of Laser Induced Shock Wave and
Its Application", Japanese Journal of Applied Physics, Vol.43, No.9A,
pp.6145-6151(2004, September)
7.
K. Uchida, H. Nose, H. Maeda, T. Matsunaga,
"Theoretical and Experimental Study of Propagation in 3D Tunnels",
IEICE Trans. on Communications, Vol.E-87B, No.10, pp.3044-3049(2004, October)
8.
H. Maeda, T. Miyaoka, X. Li, H. Nose, J.
Iwashige, and K. Uchida, “Experimental and Numerical Study on Transmissivity
of Photonic Crystal Directional Coupler”, International
Journal of Microwave and Optical Technology, Vol.1, No.2, pp.661-665 (2006,
Aug.)
9.
X. Li and H. Maeda, “Wavelength
Filtering by Photonic Crystal Y-Branch Waveguide with Microcavity”, International Journal of Microwave and Optical Technology, Vol.1,
No.2, pp.656-660 (2006, Aug.)
10. 内田一徳, 藤井泰憲, 中川真弓, 李 雪峰, 前田 洋,「ランダム粗面に沿う電波伝搬特性のFVTD解析」,電子情報通信学会 和文論文誌B, Vol.J90-B, No.1, pp.48-55(2007, Jan.)
11. H.
Maeda, “Simulation of Soliton Propagation in Slab Waveguide by Frequency
Dependent FDTD Method”, Special Issue on
"Frontiers in Complex, Intelligent and Software Intensive Systems" of
International Journal of Computer Systems Science and Engineering, Vol.25,
No.2, pp.9-16(2010, Mar.)
12. Y.
Zhang, H. Terashima and H. Maeda, “Study on X-Shaped Photonic
Crystal Waveguide in 2D Triangular Lattice for WDM System”, Journal of Mobile Multimedia, Vol.8, No.2, pp.105-113(2012, June)
13. H.
Maeda, “Four-branching waveguide in 2D photonic crystal structure for WDM
system”, J. of Space-Based and Situated Computing,
Vol.3, No.4, pp.227-233(2013, Dec.)
14. H.
Maeda, H. Chen, K. Tomiura and K. Yasumoto, “Numerical and
experimental study on confinement in Y-shaped post wall branching waveguide”, J. of Mobile Information Systems, Vol.10, No.2, pp.217-228(2014,
March)
15. Y. Ma,
M. Eldlio, H. Maeda, J. Zhou, and M. Cada, “Plasmonic
properties of superconductor–insulator–superconductor waveguide”, Applied Physics
Express, Vol.9, 072201, pp.1-4, (2016, June)
16. Y. Ma,
J. Zhou, J. Pištora, M. Eldlio, N. Nguyen-Huu, H. Maeda, Q. Wu, and M. Cada, “Subwavelength
InSb-based Slot waveguides for THz transport: concept and practical
implementations”, Nature Scientific Reports 6, Article
number: 38784 (2016, December)
17. M.
Eldlio, Y. Ma, F. Che, H. Maeda, and M. Cada, “A THz semiconductor
hybrid plasmonic waveguide with fabrication-error tolerance”, Japanese Journal of Applied Physics, Vol. 56, pp.010306-1—-010306-4 (2017, January)
18. M.
Eldlio, Y. Ma, H. Maeda and M. Cada, “A long-range hybrid THz
plasmonic waveguide with low attenuation loss”,
Infrared Physics & Technology, Vol. 80, pp.93–99,
(2017, January)
19. N.
Nguyen-Huu, M. Cada, Y. Ma, F. Che, J. Pistora, K. Yasumoto, J. Lin and H.
Maeda,“Mid-infrared Fano resonance in heavily doped silicon and metallic
nanostructures due to coupling of Wood-Rayleigh anomaly and surface plasmons,”Journal of Physics D:Applied Physics, Vol.50, No.20, p.205105,
https://doi.org/10.1088/1361-6463/aa69aa (2017, April)
20. V. Jandieri,
H. Maeda, K. Yasumoto and D. Erni, “Analysis of Post-Wall
Waveguides and Circuits Using a Model of Two-dimensional Photonic Crystals,” Progress In Electromagnetics Research M, Vol.56, pp.91-100, (2017,
May)
21. Y. Ma,
N. Nguyen-Huu, J. Zhou, H. Maeda, Q. Wu, M. Eldlio, J. Pištora and M. Cada,
"Mach-Zehnder Interferometer-based Integrated Terahertz Temperature
Sensor," IEEE Journal of Selected Topics in Quantum Electronics, Vol. 23,
No. 4, p.4601607, DOI 10.1109/JSTQE.2017.2660882 (2017, July/August)
22. Y. Ma,
J. Li and H. Maeda, " Polarization-independent
hybrid plasmonic coupler based on T-shaped slot waveguide", AIP Advances,
10, 035121-1~5(2020); doi:10.1063/1.5140842 (2020, March)
23. N.
Nguyen-Huu, J. Pištora, M. Cada, T. Nguyen-Thoi, Y. Ma, K. Yasumoto, B. M.
Azizur Rahman, Q. Wu, Y. Ma, Q. H. Ngo, L. Jie, and H. Maeda, “Ultra-wide
Spectral Bandwidth and Enhanced Absorption in a Metallic Compound Grating
Covered by Graphene Monolayer”, IEEE Journal of
Selected Topics in Quantum Electronics,(Early Access), DOI
10.1109/JSTQE.2020.2984559 (2020, April)
24. Youqiao.
Ma, J. Li, Z. Han, H. Maeda, Yuan Ma, “Bragg-Mirror-assisted
High-Contrast Plasmonic Interferometers: Concept and Potential in Terahertz
Sensing”, Nanomaterials 2020, 10, 1385;
doi:10.3390/nano10071385 (2020, July)
25. A.
Akopian, G. Burduli, V. Jandieri, H. Maeda, W. Hong, A. A. Omar, K. Yasumoto,;
D. H. Werner, D. Erni, “Efficient Analysis of Electromagnetic Scattering
in Post-Wall Waveguides and Its Application to Optimization of Millimeter Wave
Filters”, IEEE Open Journal of Antennas and
Propagation, DOI: 10.1109/OJAP.2020.3016047(2020, August)
26. Y. Ma,
J. Li, Z. Han, H. Maeda and J. Pištora “All-Dielectric
Graphene-induced T-Slot Waveguide Electro-Optic Modulator with
Polarization-Independent Operation”, IEEE Journal of
Selected Topics in Quantum Electronics, Vol.27, Issue 3, DOI: 10.1109/JSTQE.2021.3050569(2021, May/June)
27. C.
Jiang, Z. Deng, B. Liu, J. Li, Z. Han, Yuan Ma, D. Wu, H. Maeda and Youqiao Ma,
“Spin–Orbit-Engineered Selective Transport of
Photons in Plasmonic Nanocircuits with Panda-Patterned Transporters”, ACS Photonics, Vol.9, Issue 9, pp.3089-3093,
https://doi.org/10.1021/acsphotonics.2c00841 (2022 Aug.)
28. J. Wu,
J. Li, Y. Ma, H. Maeda, and Y. MA, “Highly sensitive plasmonic sensor with a
coupled split-square-ring resonator”, Japanese Journal of Applied Physics,
Accepted.
論文(Letter)
1.
K. Yasumoto and H. Maeda, "Numerical Analysis
of an Asymmetric Nonlinear Directional Coupler", Microwave & Optical
Technology Letters, Vol.7, No.13, pp.627-632 (1994, Sep.)
2.
K. Yasumoto, H. Maeda, and K. Nakamura,
"Beam-Propagation-Method Analysis of a Three-Waveguide Nonlinear
Directional Coupler", Microwave and Optical Technology Letters, Vol.9,
No.6, pp.319-323 (1995, Aug.)
3.
Y. Ma, Y. Alattar, J. Zhou, M. Eldlio, H.
Maeda, J. Pištora and M. Cada, “Semiconductor-based
plasmonic interferometers for ultrasensitive sensing in a terahertz regime”, Optics Letters, Vol.42, No.12, pp.2338-2441 (2017, June)
4.
Y. Ma, J. Li, G. Zheng, H. Xiao, Y. Ma, and H.
Maeda, “Semiconductor THz microsensors based on ultrahigh-contrast T-shape
patterned interferometers”, Appl. Phys. Express, Vol.13, No.1, p.017003-1--5(2020, Jan.) , https://doi.org/10.7567/1882-0786/ab5d46
5.
E. Archemashvili, V. Jandieri, H. Maeda, K.
Yasumoto, J. Pistora and D, Erni, "Numerical Analysis of Dielectric
Post-Wall Waveguides and Bandpass Filters", URSI Radio Science Letters,
Vol.2, No.20, DOI: 10.46620/20-0027, (2021, February).
6.
M. Iqbal, Y. Ma, S. Ullah, M. Lai, D. Zhao, H.
Maeda, “Optical waveguide‐based photon concentrator
for hybrid photovoltaic cells”, Microwave and Optical
Technology Letters, 2022; 1‐11. https://doi.org/10.1002/mop.33303 (2022, May)
国際会議(Proceedings of
International Conferences)
1.
H. Maeda, M. Yokota, and K. Yasumoto,
"Numerical Analysis of Nonlinear Directional Coupler by Orthogonal
Collocation Method", Proc. of 1992 URSI International Symposium on
Electromagnetic Theory, pp.290-292 (1992, Aug.)
2.
H. Maeda, K. Yasumoto, and M. Yokota,
"Numerical analysis of the optically controlled phase-mismatch nonlinear
directional coupler by orthogonal collocation method", Proc. of ISAP '92,
pp.925-928 (1992, Sep.)
3.
H. Maeda and K. Yasumoto, "Optical power
filter using the asymmetric nonlinear directional coupler", Abstracts of
XXIV-th General Assembly of URSI, p.161 (1993, Aug.)
4.
K. Yasumoto, N. Maekawa, and H. Maeda,
"Coupled-mode analysis of a three-waveguide nonlinear directional
coupler", 1994 APMC Proc., Vol. II, pp.705-708 (1994, Dec.)
5.
H. Maeda, K. Yasumoto, and H. Nakagawa,
"FD-BPM Analysis of Asymmetric Y-branch Waveguide Loaded with Nonlinear
Dielectric Cladding", 1995 International Laser, Lightwave and Microwave
Conference, pp.208-211 (1995, Oct.)
6.
K. Yasumoto, H. Maeda and S. Morita,
"Numerical Analysis of Transitions and Discontinuities in Optical Waveguides",
1996 APMC Proc., pp.647-650 (1996, Dec.)
7.
H. Maeda, H. Hamada and K. Yasumoto,
"Finite Difference Time Domain Analysis of Nonlinear Optical
Waveguide", Technical Digest of Nonlinear Optics '98, pp.104-106 (1998,
Aug)
8.
H. Maeda, H. Hamada and K. Yasumoto,
"Numerical Analysis of Two-Dimensional Nonlinear Optical Waveguide",
Proc. of 1998 China-Japan Joint Meeting on Microwaves, pp.70-73 (1998, Aug.)
9.
H. Maeda and K. Yasumoto, "Numerical
Analysis of Pulse Wave Propagation in Two-Dimensional Nonlinear Optical
Waveguide by Finite-Difference Time-Domain Method", Proc. of PIERS 1999,
Vol.1, p.407 (1999, Mar.)
10. H.
Maeda and N. Tsumagari, "FDTD Analysis of Nonlinear Dielectric Waveguide
with Rectangular Grating Structure", Proc. of ISAP 2000, Vol.2, pp.747-750
(2000, Aug.)
11. H.
Maeda and N. Tsumagari, "FDTD Analysis of Nonlinear Dielectric Waveguide
with Rectangular Grating Structure", Proc. of PHOTONICS-2000, Vol.1,
pp.15-18 (2000, Dec.)
12. H.
Maeda and N. Tsumagari, "FDTD analysis of nonlinear dielectric waveguide with
rectangular grating structure", Proc. of SPIE Vol.4417, p.66-73, Photonics
2000 (2001, Sep.)
13. H.
Nose, H. Maeda, M. Nakahara, “Observation and Application
of Laser Induced Shock Wave “, 18th International
Conference on Advanced Information Networking and Applications (AINA2004),
Vol.2, pp.215-218(2004, Mar.)
14. H.
Maeda and X. Li, "Optical Switching in Photonic Crystal Directional
Coupler by Kerr Nonlinearity", Proc. of 2004 URSI EMT Symposium, Vol.2,
pp.745-747 (2004, May)
15. K.
Uchida, X. Li, H. Maeda and K. Y. Yoon, “On Extrapolated Absorbing
Boundary Condition for FVTD Method”, Proc. of ISAP2005,
Vol.1, pp.197-200 (2005, Aug.)
16. H.
Maeda, X. Li, T. Miyaoka, H. Nose, J. Iwashige and K. Uchida, “Frequency
Filtering Characteristics of Photonic Crystal Directional Coupler”, Proc. of ISAP2005, Vol.2, pp.467-470 (2005, Aug.)
17. X. Li
and H. Maeda, “Wavelength Filtering by Photonic Crystal Y-Branch
Waveguide with Microcavity”, Proc. of ISMOT2005,
pp.271-274 (2005, Aug.)
18. T.
Miyaoka, H. Maeda, X. Li, H. Nose, J. Iwashige, and K. Uchida, “Experimental
and Numerical Study on Transmissivity of Photonic Crystal Directional Coupler”, Proc. of ISMOT2005, pp.275-278 (2005, Aug.)
19. X. Li,
H. Maeda and K. Uchida, “All-Optical Logic Device by Photonic Crystal
Directional Coupler with Kerr-Type Nonlinear Material”,
Proc. of PIERS 2006-Tokyo, p.239 (2006, Aug.)
20. X. Li,
H. Maeda and K. Uchida, “Extrapolated Boundary Condition for FDTD Analysis”, Proc. of 2006 China-Japan Joint Microwave Conference, Vol.1,
pp.321-324 (2006, Aug.)
21. K.
Uchida, X. Li, H. Maeda and K. Y. Yoon. “On Extrapolated Absorbing
Boundary Condition Based on CIP Method”, Proc. of
ISAP2006, released only by CD-ROM, (2006. Nov.)
22. H.
Maeda, R. Nemoto, T. Satoh, “Experimental Study on
Cavities in 2D Photonic Crystal Waveguide for 4 GHz Band”, Proc. of ISMOT2007, pp.459-462 (2007, Dec.)
23. H.
Maeda, “Simulation of Soliton Propagation in Slab Waveguide by Frequency
Dependent FDTD Method”, Proc. of CISIS2009,
pp.1223-1228 (2009, Mar.)
24.
H. Maeda and S. Hironaka, “Experimental
Study on Improvement of Filtering Characteristics of Cavities in Photonic
Crystal Waveguide”, Proc. of ISMOT-2009, pp. 229-232,
(2009, Dec.)
25. H.
Maeda, H. Terashima, T. Maruyama and S. Hironaka, “Numerical
Analysis of Scattered Electromagnetic Wave by a Dielectric Cylinder with High
Contrast by CIP Method”, Proc. of First International
Workshop on Methods, Analysis and Protocols for Wireless Communication (MAPWC-2010) in conjunction with Fifth International Conference on Broadband and
Wireless Computing, Communication and Applications (BWCCA-2010), pp.561-564
(2010, Nov.)
26. H.
Maeda, Y. Zhang, H. Terashima, T. Maruyama and S. Hironaka, “Experimental
Study on Four-Branching Waveguide in Two Dimensional Photonic Crystal Structure
with Triangular Lattice by Scale Model around 4 GHz”,
Proc. of ISMOT2011, pp.65-68, only in CD-ROM, (2011, June)
27. H.
Maeda, H. Terashima, T. Maruyama and Y. Zhang, “Numerical Analysis
of Electromagnetic Wave Scattered by High-Contrast Dielectric Cylinder Using
CIP Method”, Proc. of The 1st International Workshop on Information Networking and Wireless
Communications (INWC 2011), in conjunction with The 14th International Conference on Network-Based Information Systems
(NBiS 2011), pp. 491-496(2011, Sep.)
28. Y.
Zhang, H. Terashima, D. Ogata and H. Maeda, “Some Trials to
Suppress Unnecessary Resonance in Photonic Crystal Cavity Structure”, Proc. of The 2nd International Workshop on Methods, Analysis and
Protocols for Wireless Communication (MAPWC-2011) in conjunction with The 6th
International Conference on Broadband, Wireless Computing, Communication and
Applications, pp.482-486(2011, Oct.)
29. H.
Maeda, Y. Zhang, H. Terashima and T. Shinohara, “Hexagonal resonator
in two dimensional photonic crystal structure”,
Proceedings of Third IEEE International Conference on Intelligent Networking
and Collaborative Systems (IEEE INCoS 2011), pp.537-540(2011, Nov.)
30. H.
Maeda, S. Inoue, S. Nakahara, O. Hatanaka, Y. Zhang and H. Terashima, “Experimental
Study on X-shaped Photonic Crystal Waveguide in 2D Triangular Lattice for
Wavelength Division Multiplexing System”, Proceedings
of The 26th IEEE International Conference on Advanced Information Networking
and Applications (AINA-2012), pp.629-632(2012, Mar.)
31. H.
Maeda, Y. Zhang and H. Terashima, “An Experimental Study on
X-shaped Branching Waveguide in Two-Dimensional Photonic Crystal Structure”, Proc. of The Sixth International Conference on Complex,
Intelligent, and Software Intensive Systems (CISIS-2012), pp.660-664, (2012,
July)
32. H.
Maeda, H. Chen, K. Tomiura and T. Shinohara, “Numerical and
Experimental Study on Confinement of Microwave in Dielectric and Metallic Post
Array Waveguide”, Proc. of The 2nd International Workshop on Information Networking and Wireless
Communications (INWC 2012), in conjunction with The 15th International Conference on Network-Based Information Systems
(NBiS 2012), pp.562-566(2012, Sep.)
33. H.
Maeda, T. Shinohara, K. Tomiura, and H. Chen, “Numerical and experimental
study on Y-Shaped branch by post array waveguide”,
Proc. of The 3rd International Workshop on Methods, Analysis and Protocols for
Wireless Communication (MAPWC-2012) in conjunction with The 7th International
Conference on Broadband, Wireless Computing, Communication and Applications,
pp.494-497, (2012, Nov.)
34. H.
Maeda, K. Tomiura, H. Chen and K. Yasumoto, “Studies on Loss
Evaluation of Bending in Post Wall Waveguide for Microwave Transmission”, Proc. of The 5th FTRA International Conference on Information
Technology Convergence and Services (ITCS-13); as Springer's Lecture Notes in
Electrical Engineering 253, "Information Technology Convergence -Security,
Robotics, Automations and Communication-", Vol. 1, Eds. J. H. Park, L.
Barolli, F. Xhafa, H. Y. Jeong,
pp.333-340(2013, July)
35. H.
Maeda, K. Yasumoto, H. Chen, K. Tomiura and D. Ogata, “Numerical
and Experimental Study on Y-shaped Branch Waveguide by Post Wall”, Proc. of The 3rd International
Workshop on Information Networking and Wireless Communications (INWC 2013), in
conjunction with The 16th International
Conference on Network-Based Information Systems (NBiS 2013), pp.508-512(2013,
Sep.)
36. K.
Yasumoto, H. Maeda, and V. Jandieri, “Coupled-Mode Analysis of
Two-Parallel Post-Wall Waveguides”, Proc. of 2013
International Symposium on Antennas and Propagation (2013, Oct.)
37. H.
Maeda, K. Yasumoto, K. Tomiura, H. Chen and D. Ogata, “Resonance
of cavity in two-dimensional square-lattice photonic crystal by metallic
pillars”, Proc. of The 4th International Workshop on
Methods, Analysis and Protocols for Wireless Communication (MAPWC-2013) in
conjunction with The 8th International Conference on Broadband, Wireless
Computing, Communication and Applications, pp.422-426(2013, Oct.)
38. H.
Maeda, K. Yasumoto, H. Chen, D. Ogata and K. Tomiura, “Resonator
in Two Dimensional Photonic Crystal Structure with Square Lattice by Metallic
Pillars”, Proc. of CISIS-2014, pp.313-317(2014, July)
39. H. Maeda and K. Yasumoto, “Experimental Study on Crank-shaped Waveguide in 2D Photonic Crystal”, Proc. of NBiS-2014, pp.576-579 (2014, September)
40. H.
Chen, Y. Bao, J. Jin and H. Maeda, “Propagation Constant
Measurement in Two Dimensional Post Array Waveguide with Triangular Lattice by
Metallic Pillars”, Proc. of MAPWC-2014, pp.357-361
(2014, November)
41. J. Jin,
Y. Bao, H. Chen and H. Maeda, “Numerical Analysis of
Y-shaped Branch Waveguide in Photonic Crystal Structures and Its Application”, Proc. of MAPWC-2014, pp.362-365 (2014, November)
42. Y. Bao,
H. Chen, J. Jin and H. Maeda, “Experimental Study on
Crank-shaped Waveguide in 2D Post Array”, Proc. of
MAPWC-2014, pp.366-370 (2014, November)
43. H.
Maeda, D. Ogata, N. Sakuma, N. Toyomasu, R. Nishi, “Numerical
Analysis of 1X4 Branch Waveguide in Two Dimensional Photonic Crystal Structure”, Proc. of AINA2015, pp.366-369 (2015, March)
44. H.
Maeda and K. Yasumoto, “Bending Loss in Two Dimensional Photonic Crystal
Waveguide”, Proc. of CISIS2015, pp.24-27 (2015, July)
45. H.
Maeda and Y. Bao, “Numerical Analysis of Cavities in Photonic Crystal
Waveguide for Filtering”, Proc. of BWCCA-2015,
pp.455-459, (2015, November)
46. Y. Bao,
H. Maeda, N. Nakashima, “Studies on Filtering Characteristics of X-shaped
Photonic Crystal Waveguide in Two-Dimensional Triangular Lattice by Microwave
Model”, Proc. of ISAP2015, pp.842-845, (2015, November)
47. H.
Maeda, M. Cada, Y. Bao, J. Jin, K. Tomiura, “Numerical analysis
of transmission spectrum of X-shaped photonic crystal waveguide for WDM system”, Proc. of CISIS2016, pp.186-189, (2016, July)
48. H. Maeda,
M. Cada, J. Jin, K. Tomiura, “Simulation of optical pulse
propagation in nonlinear and dispersive medium by constrained interpolated
profile method”, Proc. of CISIS2016, pp.403-407, (2016,
July)
49. H.
Maeda, J. Jin and K. Tomiura, “Control of envelope pulse
through nonlinear and dispersive medium”, Proc. of
NBiS2016, pp.425-428, (2016, Sep.)
50. H.
Maeda, K. Tomiura and J. Jin, “Numerical and experimental
study on transmission spectrum of waveguide with periodic structure”, Proc. of NBiS2016, pp.442-446, (2016, Sep.)
51. H.
Maeda, K. Tomiura and J. Jin, “Numerical analysis of
resonance characteristics in cavities in periodic structure for WDM
telecommunication system”, Proc. of MAPWC-2016,
pp.703-710 (2016, November)
52. H.
Maeda, J. Jin and K. Tomiura, “Spectrum analysis of envelope
pulse after propagating in nonlinear dielectric material”, Proc. of MAPWC-2016, pp.711-718 (2016, November)
53. H.
Maeda, “Numerical Analysis of Electromagnetic Pulse Wave Propagation in
Dispersive and Nonlinear Medium by Constrained Interpolation Profile Method”, Proc. of 2017 IEEE International Conference on Computational
Electromagnetics (ICCEM2017), pp.8-10(2017, March)
54. Y. Ma,
Y. Alattar, M. Eldlio, N. Nguyen-Huu, H. Maeda, and M. Cada, “Plasmonic
Semiconductor-Based Interferometers for Ultrasensitive THz Biosensing”, Proc. of 2017 IEEE International Conference on Computational
Electromagnetics (ICCEM2017), pp.295-296(2017, March)
55. H.
Maeda, X. Meng, K. Haari and N. Higashinaka, “Design of Microwave
Circuit with Periodic Structure for Channel Switching by Carrier Frequency”, Proc. of the 20th NBiS-2017, Lecture Notes on Data
Engineering and Communications Technologies, Vol.7, pp.969-974(2017, August)
56. H.
Maeda, K. Haari, X. Meng and N. Higashinaka, “Signal Routing by
Dispersive Medium”, Proc. of BWCCA-2017 (Lecture Notes
on Data Engineering and Communications Technologies 12, Springer),
pp.764-773(2017, October)
57. H.
Maeda, X. Meng, K. Haari and N. Higashinaka, “Signal Routing by
Cavities in Photonic Crystal Waveguide”, Proc. of
EIDWT-2018(The 6th International Conference on Emerging Internet, Data &
Web Technologies as ‘Lecture Notes on Data Engineering
and Communications Technologies 17’, Springer),
pp.765-772(2018, March).
58. V.
Jandieri, D. Erni, H. Maeda, K. Yasumoto, A. Akopiani, “Simulation
and optimization of post-wall waveguide based compact circuits for micro and
millimeter waves”, Proc. of 2018 11th German Microwave
Conference (GeMiC), pp.255--258, (2018, March)
59. K.
Haari, H. Maeda, X. Meng and N. Higashinaka, “Numerical Analysis
of Optical Duplexer Composed of Photonic Crystal with Square Lattice”, Proc. of BWCCA-2018(The 13-th International Conference on
Broadband, Wireless Computing, Communication and Applications, as ‘Lecture Notes on Data Engineering and Communications Technologies 25’), pp.548-558(2018, October).
60. K.
Haari, N. Higashinaka, X. Meng and H. Maeda, “Numerical Analysis
of Optical Duplexer Composed of Dispersive and Nonlinear Dielectric in
Two-Dimensional Photonic Crystal Waveguide with Square Lattice”, Proc. of AINA-2019, https://doi.org/10.1007/978-3-030-15035-8_26,
pp.275-285(March 2019).
61. K.
Haari, N. Higashinaka, X. Meng and H. Maeda, “Numerical Analysis
of Optical Wavelength Switching by Dispersive and Nonlinear Dielectric in 2D
Photonic Crystal”, Proc. of the 8th Asia-Pacific
Conference on Antennas and Propagation (APCAP 2019), pp.152-153(August 2019)
62. H.
Maeda, N. Higashinaka, A. Ochi, “Numerical Analysis of Fano
Resonator in 2D Periodic Structure for Integrated Microwave Circuit”, Proc. of NBiS2019, pp.630-637, https://doi.org/10.1007/978-3-030-29029-0_62
(March 2019)
63. N.
Higashinaka and H. Maeda, “Routing of Optical Baseband Signal Depending on
Wavelength in Periodic Structure”, Proc. of BWCCA-2019,
pp.621—629,
https://doi.org/10.1007/978-3-030-33506-9_56 (November 2019)
64. P.
Ampririt, S. Ohara, Y. Liu, M. Ikeda, H. Maeda and L. Barolli, “A
Fuzzy-Based System for Admission Control in 5G Wireless Networks Considering
Software-Defined Network Approach”, Proc. of
EIDWT-2020, LNDECT 47, pp. 73–81,
https://doi.org/10.1007/978-3-030-39746-3_9, (February 2020)
65. N.
Higashinaka and H. Maeda, “Input Amplitude Dependency of Duplexer with
Dispersive and Nonlinear Dielectric in 2D Photonic Crystal Waveguide”, Proc. of EIDWT2020, LNDECT 47, pp. 226–236,
https://doi.org/10.1007/978-3-030-39746-3_25 (February 2020)
66. E.
Archemashvili, V. Jandieri, H. Maeda, K. Yasumoto, J. Pistra and D. Erni, “Numerical
Analysis of Dielectric Post-Wall Waveguides”, Prof. of
2020 International Workshop on Antenna Technology (iWAT), T-TI 2-P14(February,
2020)
67. A. Akopian,
G. Burduli, V. Jandieri, H. Maeda, W. Hong, K. Yasumoto and D. Erni, “Numerical
Study and Optimization of Post-WallWaveguides and Filters for Millimeter Waves”, Prof. of German Microwave Conference (GeMiC 2020), pp.212-225,
ISBN 978-3-9820397-1-8 (March 2020)
68. H.
Maeda and N. Higashinaka, “Wavelength Tuning of Output Optical Signal Through
Resonant Filter for WDM System by Periodic Structure Composed of Silica Glass”, Proc. of NBiS-2020, https://doi.org/10.1007/978-3-030-57811-4_49,
pp.488-497 (August 2020)
69. H.
Maeda, “Tuning of Output Optical Signal Wavelength Through Resonant Filter
for WDM System”, Proc. of BWCCA-2020, pp.313-320
(October 2020)
70. H.
Maeda, “Numerical Analysis of Photonic Crystal Waveguide with Stub by CIP
Method”, Proc. of NBiS-2021, pp.320-328,
https://doi.org/10.1007/978-3-030-84913-9_32 (September 2021)
71. H.
Maeda, “Numerical Analysis of Electromagnetic Wave Propagation in Photonic
Crystal Waveguide with Stubs for Wavelength Filtering”,
Proc. of BWCCA-2021, pp.251-259, https://doi.org/10.1007/978-3-030-90072-4_27 (October 2021)
72. S.
Kobakhidze, E. Archamashvili, V. Jandieri, K. Yasumoto, H. Maeda, K. Watanabe,
W. Hong, D. H. Werner and D. Erni, “Analysis
of Dielectic Post-Wall Waveguide-Based Passive Circuits Using Recurrent Neural
Network”,PD1-22, EuCAP2022(March 2022)
73. H.
Maeda, “Numerical
Analysis of Photonic Crystal Waveguide with Fork-shaped Branch”, Proc. of NBiS-2022, pp.402–407.
https://doi.org/10.1007/978-3-031-14314-4_41 (September 2022)
74. H.
Maeda, “Comparison
of Transmission Spectra of Fork-Shaped Photonic Crystal Branch Waveguide for
Continuous and Band-Limited Input Signal”, Proc. of
BWCCA 2022, pp.332–340,
https://doi.org/10.1007/978-3-031-20029-8_32 (October 2022)
75. I.
Ishibashi and H. Maeda, “Numerical
Analysis of Coupled Hexagonal Resonators in Photonic Crystal Waveguide for
Demultiplexing of Wavelength Division Multiplexed Signals”, Proc. of NBiS 2023, pp. 353-360,
https://doi.org/10.1007/978-3-031-40978-3_38 (September 2023)
76. I.
Ishibashi and H. Maeda, “Optimization
of Configuration of Directional Coupler in Hexagonal Resonator in Photonic Crystal”, Proc. of NBiS 2024, pp. 443-452, https://doi.org/10.1007/978-3-031-72325-4_44
(September 2024)
紀要等(Memoirs, etc.)
1.
H. Maeda and K. Yasumoto, "Numerical
Analysis of a Symmetric Directional Coupler with Nonlinear Coupling
Region", Technology Reports of Kyushu University, Vol.66, No.5, pp.493-498
(1993, Oct.)
2.
H. Maeda and K. Yasumoto, "Numerical
Analysis of Periodic Optical Waveguide with Rectangular Grating Structure using
Fourier Series Expansion Method", Research Bulletin of FIT, Vol.30, No.1,
pp.73-78 (1997, Oct.)
3.
K. Uchida, D. Da, J. Iwashige, T. Noda, N. Saga
and H. Maeda, "Field estimation in tunnel and underground by ray tracing
method", Reports of Computer Science Laboratory, Vol.10,
pp.59-65 (1999, Oct.)
4.
岩重二郎,丸峯敬広,山下賢太郎,内田一徳,前田洋,松永利明,野田武昭,佐賀信裕,「ビル屋上のくさび状建造物による電磁波の散乱」,福工大情報研所報,Vol.10, pp.67-71 (1999, Oct.)
5.
岩重二郎,山下賢太郎,丸峯敬広,内田一徳,前田洋,松永利明,野田武昭,佐賀信裕,「導体平面上またはエッジ先端に取り付けられた導体板による電磁波の散乱」,福工大情報研所報,Vol.10, pp.73-77 (1999, Oct.)
6.
内田一徳,松永利明,野田武昭,岩重二郎,佐賀信裕,前田洋,「レイ・トレース法による屋内電波伝搬解析」,福工大情報研所報,Vol.11, pp.47-54 (2000, Oct.)
7.
能勢秀俊,中原基直,前田洋「パルスレーザーによる水中に生じる衝撃波」,福工大研究論集, Vol.35,
No.1, pp.77-85 (2002, Oct.)
8.
X. Li, H. Maeda and K. Uchida, “Extrapolated
Absorbing Boundary Condition for FDTD Analysis”, 福工大研究論集, Vol.39, No.2, pp.185-192 (2007, Mar.)
口頭発表[研究会](Technology Reports of IEICE, etc.)
1.
前田洋,横田光広,安元清俊,「非線形方向性結合器の直交選点法による数値解析」,信学技報,MW91-107
(1991, Nov.)
2.
前田洋,安元清俊「制御光を用いた位相不整合な非線形方向性結合器の数値解析」,電学研資,EMT92-22 (1992, May)
3.
安元清俊,前田洋,「非対称構造を持つ非線形方向性結合器の電力フィルタリング特性」,信学技報,OQE92-156
(1993, Jan.)
4.
K. Yasumoto, N. Maekawa and H. Maeda,
"Coupled-Mode Analysis of Asymmetric Nonlinear Directional Coupler", 信学技報,OQE93-95 (1993, Sep.)
5.
K. Yasumoto, N. Mitsunaga and H. Maeda,
"Coupled-Mode Analysis of a Three-Waveguide Nonlinear Directional
Coupler", 電学研資,EMT94-96 (1994, Oct.)
6.
中村浩一,前田洋,安元清俊,「異なる3本の導波路から成る非線形方向性結合器のFD-BPM解析」,信学技報,LQE94-70 (1995, Jan.)
7.
K. Yasumoto, K. Nakamura and H. Maeda,
"Numerical Analysis of Nonidentical Three-Waveguide Nonlinear Directional
Coupler", Proc. of Fifth Sino-Japanese Joint Meeting on OFSET, pp.B-94—B-95
(1995, Sep.)
8.
前田洋,安元清俊,「非線形媒質を装荷した非対称Y分岐光導波路の出力分配特性」,信学技報,LQE95-70 (1995, Sep.)
9.
H. Maeda and K. Yasumoto, "Numerical
Analysis of Dielectric Waveguide with Periodic Grating using Fourier Series
Expansion Method", 信学技報,MW96-124 (1996, Nov.)
10. 前田洋,安元清俊,「フーリエ級数展開法による損失性媒質を含む光導波路の解析」,信学技報,OPE97-99 (1997, Nov.)
11. 浜田秀之,前田洋,安元清俊,「二次元非線形光導波路のFDTD解析」,信学技報,OPE97-103 (1997, Nov.)
12. K.
Uchida, H. Maeda, T. Imai, T. Fujii and M. Hata, "Wiener-Hopf Solutions to
Electromagnetic Wave Scattering by a Finite Conducting Thin Plate in case of a
Line Source", 電学研資,EMT97-26 (1997, Nov.)
13. H.
Maeda and K. Yasumoto, "Finite-Difference Time-Domain Analysis of
Two-Dimensional Nonlinear Optical Waveguide", Proc. of 2nd Asia-Pacific
Engineering Forum on Microwaves and Electromagnetic Theory, pp.71-80 (1998,
Dec.)
14. 津曲紀彦,前田洋,「周期構造を有する非線形光導波路のFDTD解析」,信学会光通信システム研究会,OCS99-77, pp.7-12
(1999, Nov.)
15. N. Tsumagari
and H. Maeda, "Radiation characteristics of Nonlinear Dielectric Waveguide
with Grating Structure by FDTD Method", Proc. of 10th FIT-NUST-AJOU Univ.
Joint Seminar, pp.77-84 (2000, Nov.)
16. H.
Maeda and N. Tsumagari, "FDTD Analysis of Radiation Characteristics from
Nonlinear Dielectric Waveguide with Grating Structure", Proc. of 3rd
Asia-Pacific Engineering Research Forum on Microwaves and Electromagnetic
Theory, pp.46-55 (2000, Dec.)
17. 渡辺仰基,前田洋,李雪峰,「散乱行列伝搬法を用いた光導波路解析−有限差分法に基づく定式化−」,電学研資, EMT-02-124, pp.19-23 (2002, Oct.)
18. 李雪峰,前田洋「非線形誘電体を用いた2次元フォトニック結晶方向性結合器の数値解析」,電学研資,EMT-03-87 (2003, Nov.)
19. X. Li
and H. Maeda, “Numerical Analysis of Photonic Crystal Directional
Coupler with Kerr-type Nonlinearity”, Proc. of 5-th
Asia-Pacific Engineering Research Forum on Microwaves and Electromagnetic
Theory, pp.165-168 (2004, July)
20. 李雪峰,根本理絵,前田洋「フォトニック結晶方向性結合器の伝送特性の数値解析とマイクロ波モデル実験」,信学技報,OPE2005-88 (2005, Nov.)
21. H.
Maeda, X. Li and T. Miyaoka, “Numerical Analysis of
Photonic Crystal Directional Coupler by Super Cell Method”, Proc. of 6-th Asia-Pacific Engineering Research Forum on
Microwaves and Electromagnetic Theory, pp.99-103 (2006, Aug.)
22. H.
Maeda, “S-Parameter Measurement of Photonic Crystal Waveguide and Cavities
by Scaled Model for Microwave”, Proc. of 7-th
Asia-Pacific Engineering Research Forum on Microwaves and Electromagnetic
Theory, pp.141-145 (2008, Oct.)
23. 前田 洋,「福岡工業大学情報通信工学科におけるJABEE認定の取組 〜無線従事者免許に関する長期型養成課程認定を活かしたプログラム例〜」,技術者教育と優良実践研究会,第11回研究会,http://www.ieice.org/ess/eegp/ (2010, Aug.)
24. 寺嶋寛之,丸山哲生,廣中伸二郎,前田
洋,「CIP法による誘電体円柱の平面波散乱解析」,信学技報,OPE2010-88,pp.1-6 (2010, Oct.)
25. 廣中伸二郎,張 咏梅,寺嶋寛之,丸山哲生,前田
洋,「4GHz近傍における三角格子型二次元フォトニック結晶導波路に関する実験」,信学技報,OPE2010-89,pp.7-12 (2010, Oct.)
26. H.
Maeda, “Numerical Analysis of Scattered Wave by Dielectric Cylinder Using
Constrained Interpolation Profile Method”, Proc. of
8-th Asia-Pacific Engineering Research Forum on Microwaves and Electromagnetic
Theory, pp.5-8 (2010, Nov.)
27. 寺嶋寛之, 張 咏梅, 井上 翔太, 中原
慎太郎, 畑中 理, 前田 洋,「2次元フォトニック結晶リング状共振器のマイクロ波モデル実験」,信学技報,OPE2011-98,pp.33-36(2011, Oct.)
28. 前田 洋,「工業系大学における全学的な就業力育成カリキュラム」,技術者教育と優良実践研究会,第17回研究会(2012, Aug.)
29. 篠原拓也, 富浦和也, 陳 慧麗, 前田
洋, 安元清俊, 「ポストアレイ導波路における電磁界の閉じ込めについて」, 電子情報通信学会光エレクトロニクス研究会(OPE2012-124)信学技報Vol.112, No.259, pp.165-170 (2012, Oct.)
30. H.
Maeda, “Numerical Analysis of Electromagnetic Pulse Wave Propagation in
Nonlinear Dielectric Medium by Constrained Interpolation Profile (CIP) Method”, Proc. of 11-th Asia-Pacific Engineering Research Forum on
Microwaves and Electromagnetic Theory, pp.62-67 (2016, Oct.)
口頭発表[全国大会,支部大会](Oral Presentations in Society and
General Conferences of IEICE, etc.)
1.
前田洋,横田光広,安元清俊,「導波路における光波の直接解法」,平2九州連大,No.423, p.221 (1990,
Oct.)
2.
前田洋,横田光広,安元清俊,「テーパ導波路における光波の直接解法」,信学会,'91春季全国大会,C-199, p.4-216 (1991, Mar.)
3.
前田洋,横田光広,安元清俊,「非線形方向性結合器の直交選点法による数値解析」,信学会,'91秋季全国大会,C-177, p.4-207 (1991, Oct.)
4.
前田洋,横田光広,安元清俊,「非対称構造を有する非線形方向性結合器の数値解析」,平4九州連大,No.936,
p.526 (1992, Oct.)
5.
安元清俊,前田洋,「非対称な非線形方向性結合器を用いた光パワーフィルタ」,信学会,'93春季全国大会,C-267, p.4-303 (1993, Mar.)
6.
前田洋,安元清俊,「非対称構造を有する非線形方向性結合器の固有モードについて」,平5九州連大,No.529, p.279(1993, Oct.)
7.
前川尚人,安元清俊,前田洋,「摂動法による非対称非線形方向性結合器の解析」,平5九州連大,No.532, p.282 (1993, Oct.)
8.
前川尚人,安元清俊,前田洋,「結合モード理論による非対称非線形方向性結合器の解析」,信学会,'94春季全国大会,C-309, p.4-306 (1994, Mar.)
9.
中村浩一,前田洋,安元清俊,「異なった3本の導波路から構成される非線形方向性結合器の数値解析」,平6九州連大,No.929, p.569 (1994, Oct.)
10. 前田洋,光永直寛,安元清俊,「3本の導波路から成る非線形方向性結合器の電力フィルタ特性」,平6九州連大,No.930, p.570 (1994, Oct.)
11. 前田洋,安元清俊,「非線形誘電体クラッディングを持つ非対称Y分岐光導波路の入出力特性」,信学会'95総合大会,C-372, p.4-372 (1995, Mar.)
12. 前田洋,後藤知則,安元清俊,「フーリエ級数展開によるグレーティング付き光導波路の数値解析」,信学会'96ソサイエティ大会,C-256, p.256 (1996, Sep.)
13. 浜田秀之,前田洋,安元清俊,「2次元非線形光導波路のFD-TD解析」,信学会'97総合大会,SC-1-4, 講演論文集 Vol.4, p.459-450 (1997, Mar.)
14. X. B.
Wu, K. Yasumoto and H. Maeda, "Cylindrical Vector-Wave-Function Representations
of Fields in Biaxial Anisotropic Chiral Media", 信学会'97総合大会,C-1-28, Proc. of the 1997 IEICE
General Conf. Vol.4, p.28 (1997, Mar.)
15. 前田洋,安元清俊,「フーリエ級数展開法による損失性媒質を含む光導波路の解析」,平9九州連大,No.714, p.308(1997,
Oct.)
16. 前田洋,浜田秀之,安元清俊,「非線形導波路を伝搬する光パルスの数値解析」,信学会'98総合大会,C-3-100, エレクトロニクス分冊1(1998, Mar.)
17. 前田洋,浜田秀之,安元清俊,「FDTD法による非線形方向性結合器の解析」,平10九州連大,No.925, p.505 (1998, Oct.)
18. 納富耕一,前田洋,「アンテナ近傍に置かれた障害物による電磁界への影響のFDTD解析」,平12電子情報通信学会九州支部学生会講演会 p.21 (2000, Sep.)
19. 津曲紀彦,前田洋,「周期構造を有する非線形光導波路における分散について」,平12電気関係学会九州支部連合大会論文集,p.683 (2000, Sep.)
20. 吉野秀一,能勢秀俊,前田洋,中原基直,「ナノ秒パルス入射時の光ファイバから水中に放射される衝撃波の研究」,
第9回電子情報通信学会九州支部学生会講演会,p.45 (2001, Oct.)
21. 吉野秀一,能勢秀俊,前田洋,中原基直,「ナノ秒パルス入射時の光ファイバから水中に放射される衝撃波のシミュレーション」,
平13電気関係学会九州支部連合大会論文集,p.85 (2001, Oct.)
22. 能勢秀俊,吉野秀一,前田洋,中原基直,「パルスレーザーにより非金属材料から放出される衝撃波の観測」,平14電気関係学会九州支部連合大会講演論文集, p.673 (2002, Sep.)
23. 吉野秀一,能勢秀俊,前田洋,中原基直,「YAGパルスレーザ光により誘起される衝撃波の基礎研究」,平14電気関係学会九州支部連合大会講演論文集 p.674 (2002, Sep.)
24. 李雪峰,前田洋,「フォトニック結晶導波路の入出力特性」,第10回信学会九州支部学生会講演会 No.B-26 (2002, Sep.)
25. 田中武彦,前田洋「Mathematicaによる光導波路解析」,第10回信学会九州支部学生会講演会 No.B-28 (2002, Sep.)
26. 前田洋,能勢秀俊,山元規靖,中原基直,「レーザ誘起衝撃波を応用した切断実験」,
平15電気関係学会九州支部連合大会講演論文集, p.04-1A-14
(2003, Sep.)
27. 前田洋,李雪峰,渡辺仰基,「フーリエ級数展開法によるフォトニック導波路の解析」,
平15電気関係学会九州支部連合大会講演論文集, p.01-2P-18
(2003, Sep.)
28. 李雪峰,前田洋,「カー型非線形媒質を含むフォトニック結晶方向性結合器の光伝送特性」,平16電気関係学会九州支部連合大会講演論文集, p.08-2P-08 (2004,
Sep.)
29. 宮岡豊秀,前田洋,「フォトニック結晶方向性結合器の数値解析」,第12回電子情報通信学会九州支部学生講演会, No.C-22 (2004, Sep.)
30. 宮岡 豊秀,根本 理絵,前田 洋,「フォトニック結晶方向性結合器における結合長の数値解析」第13回電子情報通信学会九州支部学生会講演会, No.C-11 (2005, Sep.)
31. 根本 理絵,李 雪峰,前田 洋,「フォトニック結晶方向性結合器のマイクロ波モデル実験」第13回電子情報通信学会九州支部学生会講演会, No.C-12 (2005, Sep.)
32. 李雪峰,前田洋,「FDTD法による非線形フォトニック結晶方向性結合器の数値解析」,平17電気関係学会九州支部連合大会講演論文集, p.07-2P-01 (2005, Sep.)
33. 能勢秀俊,水田勝人,前田洋,中原基直,内田一徳,「レーザ誘起衝撃波により生じた屈折率分布の推定」,平17応用物理学会九州支部学術講演会講演予稿集,Vol.31,1Da-6,p.70(2005,Nov.)
34. 大庭 将平,長田 陽成,森政 祐一,山田
尚稔,前田 洋,「CIP法による1次元電磁波伝搬解析」,第14回電子情報通信学会九州支部学生会講演会, No.C-6 (2006, Sep.)
35. 長田 陽成,大庭 将平,森政 祐一,山田
尚稔,前田 洋,「CIP法による2次元電磁波伝搬解析」,第14回電子情報通信学会九州支部学生会講演会, No.C-7 (2006, Sep.)
36. 水田 勝人,能勢 秀俊,中原 基直,前田
洋,「レーザ誘起衝撃波の光学的測定法の提案」,第14回電子情報通信学会九州支部学生会講演会, No.C-8 (2006, Sep.)
37. 山田尚稔,森政祐一,前田 洋,内山裕貴,岡野 篤,則松隆司,山野智史,「CIP法による電磁波伝搬解析における誤差の検討」,平19電気関係学会九州支部連合大会講演論文集04-2P-01 (2007,Sep.)
38. 前田 洋,佐藤 健,根本理絵,祖母井
翔,渡海 剛,福島 治,宮本貴文,「二次元フォトニック結晶共振器のマイクロ波モデル実験」平19電気関係学会九州支部連合大会講演論文集04-2P-10 (2007,Sep.)
39. 森政祐一,山田尚稔,前田 洋「誘電体境界を含む二次元電磁波伝搬のCIP法による解析」,第15回電子情報通信学会九州支部学生会講演会, No.C-1 (2007, Sep.)
40. 佐藤 健,根本絵理,祖母井翔,渡海 剛,福島 治,宮本貴文,前田
洋,「二次元フォトニック結晶導波路および共振器のマイクロ波モデル実験」,第15回電子情報通信学会九州支部学生会講演会, No.P-4 (2007, Sep.)
41. 前田 洋,佐藤 健,祖母井翔,渡海 剛,福島 治,宮本貴文,「マイクロ波モデル実験によるフォトニック結晶導波路の伝送特性測定」,映像情報メディア学会2008年年次大会講演予稿集,No.8-3,(2008, Aug.)
42. 前田 洋,山田 尚稔,渡辺 仰基,「CIP法によるパルス平面波の反射透過特性」,平20電気関係学会九州支部連合大会講演論文集11-1A-14 (2008,Sep.)
43.
廣中 伸二郎,大串 弘樹,千住 武史,宅和 雄太,豊田
剛士,前田 洋,「30GHz帯におけるフォトニック結晶導波路のモデル実験」,第16回電子情報通信学会九州支部学生会講演会, No.C-4 (2008, Sep.)
44.
廣中 伸二郎, 古賀
代祐, 高口 大輔, 前田 豊徳, 中村 祐大朗, 渡辺 健太, 前田洋,「三角格子構造を有するフォトニック結晶導波路モデルの製作と測定」, 第17回電子情報通信学会九州支部学生会講演会, No.C-10 (2009, Sep.)
45.
丸山哲生,寺嶋寛之,廣中伸二郎,前田洋,「CIP法を用いた誘電体円柱による電磁波散乱の数値解析」, 第18回電子情報通信学会九州支部学生会講演会, No.C-05(2010, Sep.)
46.
寺嶋寛之,前田豊徳,古賀代祐,渡辺健太,広中伸二郎,前田洋「三角格子型フォトニック結晶中のマッハツェンダー干渉計に関するマイクロ波モデル実験」, 第18回電子情報通信学会九州支部学生会講演会, No.C-37(2010, Sep.)
47.
廣中伸二郎,張 咏梅,案西亮太郎,林 洋平,戸島広大,李
雷,前田 洋、「4GHz帯における三角格子型フォトニック結晶分岐導波路に関する実験」平22電気関係学会九州支部連合大会講演論文集11-2A-03 (2010, Sep.)
48.
張咏梅,寺嶋寛之,前田 洋,「2次元フォトニック結晶4分岐導波路のスケールモデル実験」,電子情報通信学会 2011年総合大会講演論文集 C-3-43 (2011, Mar.)
49.
篠原拓也,寺嶋寛之,張 咏梅,前田 洋,「三角格子型フォトニック結晶を用いたリング型共振器のCIP法による数値解析」,第19回電子情報通信学会九州支部学生会講演会, No.C-38(2011, Sep.)
50.
K. Yasumoto, H. Maeda and
V. Jandieri, “Coupled-Mode Analysis of
Two-Parallel Photonic Crystal Waveguides”, 電子情報通信学会2012年ソサイエティ大会(2013, Sep.)
51.
K. Yasumoto, H. Maeda and
V. Jandieri, “Analysis of Post-Wall
Waveguides Using a Model of Photonic Crystal”, 平24電気関係学会九州支部第65回連合大会講演論文集02-1P-06, p.184 (2012, Sep.)
52.
K. Yasumoto, H. Maeda and
V. Jandieri, “Analysis of Post-Wall
Waveguide Using a Model of Photonic Crystal Waveguides”,
電子情報通信学会2013年総合大会(2013, Mar.)
53.
K. Yasumoto, H. Maeda and
V. Jandieri, “Approximate Analysis of
Leakage Loss of Post-Wall Waveguides”, 平25電気・情報関係学会九州支部第66回連合大会, 13-1P-05 (2013, Sep.)
54.
K. Yasumoto, H. Maeda and
V. Jandieri, “Analysis of Post-Wall
Waveguide Filters Using a Model of Photonic Crystal Waveguides”, 電子情報通信学会2014年総合大会(2014,
Mar.)
55.
K. Yasumoto, H. Maeda and
V. Jandieri, “Lossy Magneto-Dielectric
Model for Perfect Electric Conductor”, 平26電気・情報関係学会九州支部第67回連合大会論文集13-1P-05, p.252 (2014, Sep.)
56. 緒方大地、前田 洋、「三角格子型フォトニック結晶Y分岐導波路中の共振器に関する数値解析」第22回電子情報通信学会九州支部学生会講演会, No.C-2(2014, Sep.)
57. K. Yasumoto, H. Maeda and V. Jandieri, “Validation
of Lossy Magneto-Dielectric Model for Perfect Electric Conductor”, 電子情報通信学会2015年総合大会(2015,
Mar.)
58. 冨浦和也,前田
洋,「共振器を有するX型フォトニック結晶導波路の周波数特性の研究」,第24回電子情報通信学会九州支部学生会講演会, No.C-8(2016, Sep.)
59. 羽有圭介,前田
洋, 「分散性媒質中を伝搬するパルス電磁波の伝搬特性」,第25回電子情報通信学会九州支部学生会講演会, No.C-1(2017, Sep.)
60. 孟
祥正,前田 洋, 「2次元フォトニック結晶4分岐導波路の共振特性―実験とシミュレーションの比較―」,第26回電子情報通信学会九州支部学生会講演会, No.C-17(2018, Sep.)
61. 羽有圭介,前田
洋, 「分散性線形および非線形誘電体を含む二次元フォトニック結晶共振器の数値解析」,第26回電子情報通信学会九州支部学生会講演会, No.C-21(2018, Sep.)
62. 東中直樹,前田
洋, 「2次元フォトニック結晶4分岐導波路の出力スペクトルピークの平坦化」,第26回電子情報通信学会九州支部学生会講演会, No.C-24(2018, Sep.)
63. 東中直樹,前田 洋,「FDTD法を用いた2次元フォトニック結晶導波路中の光共振器特性の数値解析」, 第72回電気・情報関係学会九州支部連合大会、2019年9月
64. 石橋樹、前田洋、「二次元ピラー型フォトニック結晶内に構成した六角形共振器導波路の周波数特性」、2023年度第31回電子情報通信学会九州支部学生会講演会、論文番号C-10(2023年9月)
学位論文(Master and Doctorial
Thesis)
1.
前田洋,「直交選点法による光導波路の数値解析」九州大学 大学院総合理工学研究科 情報システム学専攻 修士論文(1991, Feb.)
2.
Hiroshi Maeda, “Numerical Analysis of
Nonlinear Directional Couplers for Optical Devices”, 九州大学
大学院工学研究科 情報工学専攻 博士(工学)学位論文(1995,Mar.)
工学教育関連論文(Reports on
Engineering Education)
1. 前田 洋, 「情報通信工学系学生に対する工学教育現場における教育実践」, 工学教育, Vol.59, No.2, p.133(2011, Mar.)
2. 前田 洋, 若原俊彦, 岩重二郎, 「情報通信工学科におけるFD活動」, 福岡工業大学FD Annual Report, Vol.1,
pp.24-33(2011, Mar.)
3. 若原俊彦,前田 洋,西田茂人,山元規靖,杉田
薫,池田 誠,「情報通信工学科におけるJABEE活動報告 −実験科目におけるアクティブラーニングの導入−」,福岡工業大学FD Annual Report AL特集号,pp.52-58(2018,
February)
以上