プレプリントサーバー(arXiv: https://arxiv.org/a/tamayama_y_1.html)
[3] 玉山 泰宏, "無反射メタマテリアルによる電磁波の伝搬制御," 光技術コンタクト, Vol. 62, pp. 1-9 (2024).
[2] 玉山 泰宏, "プラズマの生成および消滅を利用した動的メタマテリアルの設計と作製," 機能材料, Vol. 43, pp. 15-22 (2023).
[1] 玉山 泰宏, "動的メタマテリアルを利用した電磁波制御," FCレポート, Vol. 39, pp. 60-65 (2021).
[5] 玉山 泰宏, "メタマテリアルを用いた複素透過スペクトル制御," 電磁波吸収・シールド材料の開発と電磁ノイズの対策, 第3章第1節, pp. 221-226, 技術情報協会 (2024).
[4] 玉山 泰宏, "メタマテリアルによる電磁波の群遅延制御," メタマテリアルの設計、作製と新材料、デバイス開発への応用, 第3章第2節, pp. 83-89, 技術情報協会 (2022).
[3] 玉山 泰宏, "メタサーフェスにおける局所電場増強現象を利用したマイクロプラズマの生成とその電磁波制御への展開," メタマテリアル、メタサーフェスの設計・作製と応用技術, 第3章第3節, pp. 147-159, R&D支援センター (2020).
[2] 北野 正雄, 玉山 泰宏, "メタマテリアルの基礎的問題と旋光性媒質に対する無反射現象," メタマテリアルII, 石原 照也, 真田 篤志, 梶川 浩太郎 編, 第7章, pp. 67-76, シーエムシー出版 (2012).
[1] Y. Tamayama, T. Nakanishi, K. Sugiyama, and M. Kitano, "No-Reflection Phenomena for Chiral Media," in Wave Propagation, edited by Andrey Petrin, chap. 20, pp. 415-432, InTech (2011). (doi: 10.5772/13828)
[25] T. Hoshino and Y. Tamayama, "Tunable filter based on the Brewster effect in metafilms: From all-pass filter to narrowband perfect absorber," 14th International Conference on Metamaterials, Photonic Crystals and Plasmonics, Toyama International Conference Center (Japan), July 2024 (poster).
[24] T. Sato and Y. Tamayama, "Microplasma generation in a meta-atom fabricated on a quartz substrate," EM-NANO 2021, Online, June 2021 (poster).
[23] H. Yamamoto and Y. Tamayama, "Controlling group delay of electromagnetic waves using Brewster metafilms," EM-NANO 2021, Online, June 2021 (poster).
[22] (invited) Y. Tamayama and O. Sakai, "Strong Enhancement of Local Electric Field and Microplasma Generation in an Electromagnetically Induced Transparency Like Metasurface," PIERS 2018 Toyama, Toyama International Conference Center and ANA Crown Plaza Toyama (Japan), August 2018 (oral).
[21] (invited) Y. Tamayama, K. Hamada, and K. Yasui, "Phase transition from an electromagnetically induced transparency like metamaterial to Lorentz type metamaterials," The 5th Korea-Japan Metamaterials Forum, Seoul National University (Korea), June 2015 (oral).
[20] (invited) T. Nakanishi, Y. Tamayama, and M. Kitano, "Storage and manipulation of electromagnetic waves in metamaterials," The 8th Energy, Materials, and Nanotechnology Meeting, DoubleTree by Hilton Hotel Orlando at SeaWorld (USA), November 2014 (oral).
[19] Y. Tamayama, K. Yasui, T. Nakanishi, and M. Kitano, "Modulation Instability in a Nonlinear Metamaterial Waveguide," MJIIT-JUC Joint International Symposium 2014, MJIIT, UTM Kuala Lumpur (Malaysia), November 2014 (oral).
[18] (invited) Y. Tamayama, K. Yasui, T. Nakanishi, and M. Kitano, "Modulation instability in a metamaterial waveguide with third-order nonlinearity," International Conference on Computational & Experimental Engineering and Science, Changwon Exhibition Convention Center (Korea), June 2014 (oral).
[17] Y. Tamayama, K. Yasui, T. Nakanishi, and M. Kitano, "Slow and Variable Group Velocity in a Metamaterial Mimicking Electromagnetically Induced Transparency," MJIIT-JUC Joint International Symposium 2013, Tokai University (Japan), November 2013 (oral).
[16] K. Wada, T. Nakanishi, Y. Tamayama, and M. Kitano, "Enhancement of Four-wave Mixing in a Multi-layered EIT Metamaterial," The 7th International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, The Agora Conference Center (France), September 2013 (oral).
[15] T. Nakanishi, T. Otani, Y. Tamayama, and M.Kitano, "Storing and Retrieving Electromagnetic Waves in a Metamaterial by Dynamic Control of Structural Symmetry," The 7th International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, The Agora Conference Center (France), September 2013 (oral).
[14] (invited) T. Nakanishi, T. Otani, Y. Tamayama, and M.Kitano, "Coherent trap of electromagnetic waves in a metamaterial," 3rd Korea-Japan Metamaterials Forum, Ewha Womans University (Korea), June 2013 (oral).
[13] (invited) T. Nakanishi, Y. Nakata, Y. Tamayama, and M. Kitano, "Progress in coupled-resonator-based metamaterial," International Symposium on Frontiers in THz Technology, Todaiji Culture Center (Japan), November 2012 (oral).
[12] (invited) T. Nakanishi, Y. Tamayama, and M. Kitano, "Enhancement of second harmonic generation in coupled-resonator-based metamaterials," 2nd Korea-Japan Metamaterials Forum 2012, Tsukuba International Congress Center (Japan), June 2012 (oral).
[11] Y. Tamayama, T. Nakanishi, and M. Kitano, "Variable control of group velocity in a metamaterial with field-gradient-induced transparency," 3rd International Conference on Metamaterials, Photonic Crystals and Plasmonics, Telecom ParisTech (France), April 2012 (poster).
[10] T. Nakanishi, T. Kanazawa, Y. Tamayama, and M. Kitano, "Demonstration of enhancing second harmonic generation with doubly resonant metamaterial," Fifth International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, Hotel Barceló-Sants (Spain), October 2011 (poster).
[9] (invited) Y. Tamayama, T. Nakanishi, and M. Kitano, "Slow group velocity in a metamaterial with field-gradient-induced transparency," 1st Korea-Japan Metamaterials Forum 2011, Ewha Womans University (Korea), July 2011 (oral).
[8] (invited) M. Kitano, Y. Tamayama, K. Chola, and T. Nakanishi, "The chiral vacuum in metamaterials," 1st Korea-Japan Metamaterials Forum 2011, Ewha Womans University (Korea), July 2011 (oral).
[7] Y. Tamayama, T. Kanazawa, T. Nakanishi, and M. Kitano, "Second Harmonic Generation in a Metamaterial Resonating at Fundamental and Second Harmonic Frequencies," 2011 Electronic Materials Conference, University of California (USA), June 2011 (oral).
[6] (invited) M. Kitano, Y. Tamayama, and T. Nakanishi, "No-Reflection No-Refraction Metamaterial for Circularly Polarized Light," 2010 Asia-Pacific Radio Science Conference, Toyama International Conference Center (Japan), September 2010 (oral).
[5] Y. Tamayama, T. Nakanishi, Y. Wakasa, T. Kanazawa, K. Sugiyama, and M. Kitano, "Field-gradient-induced-transparency metamaterial," Fourth International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, Karlsruhe Institute of Technology (Germany), September 2010 (poster).
[4] Y. Tamayama, T. Nakanishi, K. Sugiyama and M. Kitano, "No-reflection phenomena for chiral media," 2nd GCOE Young Researchers International Symposium on Photonics and Electronics Science and Engineering, Kyoto University (Japan), November 2009 (oral).
[3] T. Nakanishi, Y. Wakasa, Y. Tamayama, T. Kanazawa, K. Sugiyama, and M. Kitano, "Electromagnetically-induced-transparency-like metamaterial with magnetic quadrupole," Third International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, Queen Mary, University of London (UK), September 2009 (poster).
[2] Y. Tamayama, T. Nakanishi, K. Sugiyama, nd M. Kitano, "No-reflection conditions for chiral media," Third International Congress on Advanced Electromagnetic Materials in Microwaves and Optics, Queen Mary, University of London (UK), September 2009 (poster).
[1] M. Kitano, Y. Tamayama, and T. Nakanishi, "An Invisible Medium for Circularly Polarized Electromagnetic Waves," 2nd GCOE International Symposium on Photonics and Electronics Science and Engineering, Kyoto University (Japan), March 2009 (oral).
[3] Y. Tamayama, Outstanding Reviewer Awards 2022, Journal of Optics, 9 March 2023. (certificate) (link)
[2] Y. Tamayama, IOP Trusted Reviewer, IOP Publishing, 21 November 2022. (certificate)
[1] Y. Tamayama, Outstanding Reviewer, Optics Communications, March 2015. (certificate)