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1) 船木　誠哉, 萓野　良樹, 村上　靖宜,  上　芳夫, 肖　鳳超, 田中　将樹, 伊藤　桂一, "導波管スロットアンテナに装荷するFSSのトポロジー最適化を用いた設計と実測によるその特性評価," 電子情報通信学会論文誌 C, 2024.

2) 村田 健太郎, 村上 靖宜, 久世 竜司, "アンテナ・伝搬研究者の角度から見るメタサーフェスとその向かう先 , " 電子情報通信学通信マガジン vol.18, No.2, pp.172-189, 2024.

3) Y. Murakami, J. Chakarothai, L. Hamada, and K. Fujii,"Optimization and Performance of Metamaterial- Based Electromagnetic Scattering Sheet for Coverage Improvement in 28 GHz Band. " IEEE Access, vol.12 pp. 17090-17101, Jan. 2024. DOI: 10.1109/ACCESS.2024.3355958

4) E. Ijima, K. Li, T. Hikage, A. Nagai, Y. Murakami, T. Arima, T. Ishitake, and H. Masuda, "Intensity-dependent Temperature Rise Induced by Local Exposure to 26.5 GHz Quasi-Millimeter-Wave in Rat," In vivo, Vol. 37, Issue 5, Sept.2023.

5) Y. Murakami, J. Chakarothai and K. Fujii, "Electromagnetic Diffusion of a Wall with Modified Checkerboard Pattern, " IEICE Commun. Express, 2021.

6) Y. Murakami, J. Chakarothai and K. Fujii, "Design of electromagnetic scattering wall using genetic algorithm, " IEICE Commun. Express, vol. 9, pp.282-287, 2020.

7) S. Higashibata, Y. Murakami, T. Arima and T. Uno "Localized Electric Field Generating for Rats Head Using a Patch Antenna in 26.5GHz, " IEICE Commun. Express, vol.8, pp.359-362, 2019.

8) 村上靖宜, 堀俊和, 藤元美俊, "AMC 反射板付ダイポールアンテナのための反射板の最適構成, " 電子情報通信学会論文誌 B vol.J98-B, No.11, pp.1212-1220, 2015.

9) 村上靖宜, 堀俊和, 藤元美俊, " 誘電体基板を用いた人工磁気導体の低姿勢設計と帯域特性," 電子情報通信学会論文誌, B, Vol.J98-B, No.2, pp.172-179, 2015.

1) Y. Murakami, T. Hori, Y. Kawakami, M. Fujimoto, R. Yamaguchi and K. Cho: Low-Profile Design and Bandwidth Characteristics of AMC with Dielectric Substrate, Proc. ISAP2011, ThG1-2 (2011)

2) Y. Murakami, T. Hori and M. Fujimoto: Reflection Characteristics of AMC with Lossy Dielectric Substrate, Proc. ISAP2012, FB3-2(2012)

3) Y. Murakami, T. Hori and M. Fujimoto: Optimum Reflector Configuration for Dipole Antenna by using Artificial Magnetic Conductor, Proc. iWAT2013, 279-282(2013)

4) Y. Murakami, T. Hori and M. Fujimoto: Optimum Area of Arranged Unit Cell of Artificial Magnetic Conductor Reflector for Dipole Antenna, Proc. APMC2013, F2F-5(2013)

5) Y. Murakami, T. Hori and M. Fujimoto: Configuration of Meta-surface Reflector for Antenna Beam Steering, 2014AWAP (2014)

6) Y. Murakami, T. Hori and M. Fujimoto: Optimum Design of Dipole Antenna with AMC Reflector, Proc. IEEE AP-S2014, 2669(2014)

7) Y. Murakami, T. Hori and M. Fujimoto: Bandwidth Characteristics of Printed Dipole Antenna with Artificial Magnetic Conductor Reflector, Proc. ISAP2014 (2014)

8) Y. Murakami, M. Umegae, T. Uno and T. Arima: 6 to 14 GHz Frequency Band Local Exposure Antenna for Animal Experiments, 2017AWAP (2017)

9) Y. Murakami, T. Uno and T. Arima: Open-Ended Coaxial Line Probe for Local Exposure at 26.5 GHz, Proc. PIERS2018, 3P2a (2018)

10) Y. Murakami, M. Umegae, T. Uno and T. Arima: Open-Ended Coaxial Line Probe for Local Exposure at 26.5 GHz, Proc. ISAP2018 (2018)

11) Y. Murakami, J. Chakarothai and K. Fujii: A Design of Metamaterial Electromagnetic Scattering Wall, URSI GASS 2020, CB1-01(2020)

12) Y. Murakami, J. Chakarothai and K. Fujii: A Design of an Electromagnetic Scattering Wall Applying Array Antenna Theory, EMC Europe2020 (2020)

13) Y. Murakami, J. Chakarothai and K. Fujii: Improvement of EM Diffusion Performance of Checkerboard Structure in 28 GHz Band, IEEE EMC ＆SIPI(2021)

14) Y. Murakami: Design of Electromagnetic Scattering Sheet for Improvement of Wireless Communications Quality at 28 GHz, Proc.APMC2022, Workshops (2022)

15) Y. Murakami, N. Hirasawa, A. Minegishi, K. Hosokawa, I. Sudo and H. Hyakutake: Reflection Phase Control Using a Transparent Metasurface with a Cross-Mesh Structure, 2024 iWEM (2024)

16) Y. Murakami, J. Chakarothai, L. Hamada and K. Fujii:  Scattering Characteristics of Metamaterial-Based Electromagnetic Scattering Sheet With Protective Layer, 2024 CAMA (2024)

17) Y. Murakami, N. Hirasawa, A. Minegishi, K. Hosokawa, I. Sudo and  H. Hyakutake: Characteristics of A Transparent Metasurface with A Cross-Mesh Structure, 2024 ISAP (2024)

1) 橋本修 監修(分担執筆):電波吸収体・電磁波シールド材の開発最前線-5G に向けた設計と高性能化- (シーエムシ出版，2020)

2) (分担執筆):-5G/Beyond 5G に向けた- 高速・高周波対応部材の最新動向 (技術情報協会，2021)