[036] T. Suichi, A. Ishikawa, Y. Hayashi, and K. Tsuruta
“Performance limit of daytime radiative cooling in warm humid environment,”
AIP Advances Vol. 8, Issue 5, pp. 055124-1-055124-6 (2018). [Link]
[035] A. Ishikawa, S. Hara, T. Tanaka, X. Zhang, and K. Tsuruta
“Robust plasmonic hot-spots in a metamaterial lattice for enhanced sensitivity of infrared molecular detection,”
Applied Physics Letters Vol. 111, Issue 24, pp. 243106-1-243106-4 (2017). [Link]
[034] A. Ishikawa, T. Kato, N. Takeyasu, K. Fujimori, and K. Tsuruta,
“Selective electroless plating of 3D-printed plastic structures for three-dimensional microwave metamaterials,”
Applied Physics Letters Vol. 111, Issue 18, pp. 183102-1-183102-4 (2017). [Link]
[033] T. Kanazawa, T. Amemiya, V. Upadhyaya, A. Ishikawa, K. Tsuruta, T. Tanaka, and Y. Miyamoto,
“Performance improvement of HfS2 transistors by atomic layer deposition of HfO2,”
IEEE Transactions on Nanotechnology, Vol. 17, Issue 4, pp. 582-587 (2017). [Link]
[032] A. Ishikawa, S. Hara, T. Tanaka, Y. Hayashi, and K. Tsuruta,
“Cross-polarized surface-enhanced infrared spectroscopy by Fano-resonant asymmetric metamaterials,”
Scientific Reports Vol. 7, pp. 3205-1-3205-8 (2017). [Link]
[031] A. Ishikawa and K. Tsuruta,
“Design of non-reciprocal acoustic waveguides by indirect interband transitions,”
Japanese Journal of Applied Physics, Vol. 56, No. 7S1, pp. 07JB01-1-07JB01-4 (2017). [Link]
[030] Y.-H. Chen, C.-C. Chen, A. Ishikawa, M.-H. Shiao, Y.-S. Lin, C.-N. Hsiao, H.-P. Chiang, and T. Tanaka,
“Interplay of mutual electric and magnetic couplings between three-dimensional split-ring resonators,”
Optics Express Vol. 25, No. 3, pp. 2909 (2017). [Link]
[029] Y. Iwasaki, K. Tsuruta, and A. Ishikawa,
“Rectification of Lamb wave propagation in thin plates with piezo-dielectric periodic structures,”
Japanese Journal of Applied Physics Vol. 55, No. 7S1, pp. 07KB02-1-07KB02-4 (2016). [Link]
[028] T. Kanazawa, T. Amemiya, A. Ishikawa, V. Upadhyaya, K. Tsuruta, T. Tanaka, and Y. Miyamoto,
“Few-layer HfS2 transistor,”
Scientific Reports Vol. 6, pp. 22277-1-22277-9 (2016). [Link]
[027] Z. Gu, T. Amemiya, A. Ishikawa, T. Hiratani, J. Suzuki, N. Nishiyama, T. Tanaka, and S. Arai,
“Optical transmission between III-V chips on Si using photonic wire bonding,”
Optics Express Vol. 23, No. 17, pp. 22394-22403 (2015). [Link]
[026] T. Yatooshi, A. Ishikawa, and K. Tsuruta,
“Terahertz wavefront control by tunable metasurface made of graphene ribbons,”
Applied Physics Letters Vol. 107, Issue 5, pp. 053105-1-053105-4 (2015). [Link]
[025] A. Ishikawa and T. Tanaka,
“Metamaterial absorbers for infrared detection of molecular self-assembled monolayers,”
Scientific Reports Vol. 5, pp. 12570-1-12570-7 (2015). [Link]
[024] R. Hikata, K. Tsuruta, A. Ishikawa, and K. Fujimori,
“Terahertz acoustic wave on piezoelectric semiconductor film via large-scale molecular dynamics simulation,”
Japanese Journal of Applied Physics Vol. 54, No. 7S1, pp. 07HB07-1-07HB07-4 (2015). [Link]
[023] Z. Gu, T. Amemiya, A. Ishikawa, Y. Atsumi, J. H. Kang, Y. Hayashi, J. Suzuki, E. Murai, T. Hiratani,
N. Nishiyama, T. Tanaka, and S. Arai,
“Investigation of optical interconnection using photonic wire bonding,”
Journal of Laser Micro/Nanoengineering Vol. 10, No. 2, pp. 148-153 (2015). [Link]
[022] T. Amemiya, A. Ishikawa, T. Kanazawa, S. Myoga, T. Shindo, J.-H. Kang, N. Nishiyama, Y. Miyamoto,
T. Tanaka, and S. Arai,
“Permeability-controlled optical modulator with tri-gate metamaterial: control of permeability on InP-based
photonic integration platform,”
Scientific Reports Vol. 5, pp. 8985-1-8985-8 (2015). [Link]
[021] A. Ishikawa, T. Amemiya, Y. Shoji, P. N. Hai, M. Tanaka, T. Mizumoto, S. Arai, and T. Tanaka,
“Optical and magnetic microstructures in YIG ferrite fabricated by femtosecond laser,”
Journal of Laser Micro/Nanoengineering Vol. 10, No. 1, pp. 48-52 (2015). [Link]
[020] C.-C. Chen*, A. Ishikawa* (* equally contributed), Y.-H. Tang, M.-H. Shiao, D. P. Tsai, and T. Tanaka*,
“Uniaxial-isotropic metamaterials by three-dimensional split-ring resonators,”
Advanced Optical Materials Vol. 3, Issue 1, pp. 44-48 (2015). [Link]
*This work has been highlighted by several articles, including Nature Vol. 515, Issue 7525, pp. 10 (2015).
*This work has been selected as one of the best papers of Advanced Optical Materials in 2015.
[019] T. Amemiya, A. Ishikawa, Y. Shoji, P. N. Hai, M. Tanaka, T. Mizumoto, T. Tanaka, and S. Arai,
“Three-dimensional nanostructuring in YIG ferrite with femtosecond laser,”
Optics Letters Vol. 39, Issue 2, pp. 212-215 (2014). [Link]
[018] A. Ishikawa and T. Tanaka,
“Plasmon hybridization in graphene metamaterials,”
Applied Physics Letters Vol. 102, Issue 25, pp. 253110-1-253110-4 (2013). [Link]
*This work has been highlighted by Nature Photonics Vol. 7, Issue 7, pp. 672 (2013).
[017] R. Watanabe-Tamaki, A. Ishikawa, and T. Tanaka,
“Blue shift of plasmonic resonance induced by nanometer scale anisotropy of chemically synthesized gold
nanospheres,”
Applied Physics Letters Vol. 102, Issue 4, pp. 043110-1-043110-4 (2013). [Link]
[016] R. Watanabe-Tamaki, A. Ishikawa, T. Tanaka, T. Zako, and M. Maeda,
“DNA-templating mass production of gold trimer rings for optical metamaterials,”
Journal of Physical Chemistry C, Vol. 116, Issue 28, pp. 15028-15033 (2012). [Link]
[015] S. Myoga, T. Amemiya, A. Ishikawa, N. Nishiyama, T. Tanaka, and S. Arai,
“Carrier concentration dependent resonance frequency shift in a metamaterial loaded semiconductor,”
Journal of the Optical Society of America B, Vol. 29, Issue 8, pp. 2110-2115 (2012). [Link]
[014] A. Ishikawa, R. F. Oulton, T. Zentgraf, and X. Zhang,
“Slow-light dispersion by transparent waveguide plasmon polaritons,”
Physical Review B, Vol. 85, Issue 15, pp. 155108-1-155108-5 (2012). [Link]
[013] A. Ishikawa and T. Tanaka,
“Two-photon fabrication of three-dimensional metallic nanostructures for plasmonic metamaterials,”
Journal of Laser Micro/Nanoengineering Vol. 7, No. 1, pp. 11-15 (2012). [Link]
[012] X. Yang*, A. Ishikawa* (* equally contributed), X. Yin, and X. Zhang,
“Hybrid photonic-plasmonic crystal nano-cavities,”
ACS Nano Vol. 5, No. 4, pp. 2831-2838 (2011). [Link]
[011] A. Ishikawa, S. Zhang, D. A. Genov, G. Bartal, and X. Zhang,
“Deep subwavelength terahertz waveguides using gap magnetic plasmon,”
Physical Review Letters Vol. 102, Issue 4, pp. 043904-1-043904-4 (2009). [Link]
[010] A. Ishikawa, T. Tanaka, and S. Kawata,
“Magnetic excitation of magnetic resonance in metamaterials at far-infrared frequencies,”
Applied Physics Letters Vol. 91, Issue 11, pp. 113118-1-113118-3 (2007). [Link]
[009] A. Ishikawa, T. Tanaka, and S. Kawata,
“Frequency dependence of the magnetic response of split-ring resonators,”
Journal of the Optical Society of America B Vol. 24, Issue 3, pp. 510-515 (2007). [Link]
[008] A. Ishikawa, T. Tanaka, and S. Kawata,
“Improvement in the reduction of silver ions in aqueous solution using two-photon sensitive dye,”
Applied Physics Letters Vol. 89, Issue 11, pp. 113102-1-113102-3 (2006). [Link]
[007] T. Tanaka, A. Ishikawa, and S. Kawata,
“Unattenuated light transmission through the interface between two materials with different indices of refraction
using magnetic metamaterials,”
Physical Review B Vol. 73, Issue 12, pp. 125423-1-125423-6 (2006). [Link]
[006] F. Formanek, N. Takeyasu, T. Tanaka, K. Chiyoda, A. Ishikawa, and S. Kawata,
“Selective electroless plating to fabricate complex three-dimensional metallic micro/nanostructures,”
Applied Physics Letters Vol. 88, Issue 8, pp. 083110-1-083110-3 (2006). [Link]
[005] T. Tanaka, A. Ishikawa, and S. Kawata,
“Two-photon-induced reduction of metal ions for fabricating three-dimensional electrically conductive metallic
microstructure,”
Applied Physics Letters Vol. 88, Issue 8, pp. 081107-1-081107-3 (2006). [Link]
[004] A. Ishikawa and T. Tanaka,
“Negative magnetic permeability of split ring resonators in the visible light region,”
Optics Communications Vol. 258, Issue 2, pp. 300-305 (2006). [Link]
[003] F. Formanek, N. Takeyasu, T. Tanaka, K. Chiyoda, A. Ishikawa, and S. Kawata,
“Three-dimensional fabrication of metallic nanostructures over large areas by two-photon polymerization,”
Optics Express Vol. 14, Issue 2, pp. 800-809 (2006). [Link]
[002] A. Ishikawa, T. Tanaka, and S. Kawata,
“Negative magnetic permeability in the visible light region,”
Physical Review Letters Vol. 95, Issue 23, pp. 237401-1-237401-4 (2005). [Link]
[001] A. Ishikawa, H. Murata, T. Tanaka, H. Shiomi, Y. Okamura, and S. Yamamoto,
“Positive and negative optical responses in high-electron mobility transistors and their applications to optically
controlled microwave oscillators,”
Japanese Journal of Applied Physics Vol. 43, No. 3, pp. 997-1001 (2004). [Link]
[009] T. Tanaka* and A. Ishikawa* (* equally contributed),
“Towards three-dimensional optical metamaterials,”
Nano Convergence Vol. 4, pp. 34-1-34-9 (2017). [Link]
[008] K. Tsuruta and A. Ishikawa,
“超音波・弾性波の非相反伝搬機構の設計,”
超音波TECHNO Vol. 29, No. 6, pp. 70-73 (December, 2017). [Link]
[007] T. Amemiya, Z. Gu, Y. Shoji, T. Mizumoto, S. Arai, T. Tanaka, and A. Ishikawa,
“光デバイスへ向けた紫外線硬化樹脂と磁性体の三次元光造形,”
光アライアンス Vol. 28, No. 11, pp. 44-49 (November, 2017). [Link]
[006] T. Amemiya, T. Kanazawa, T. Hiratani, N. Nishiyama, S. Arai, T. Urakami, T. Tanaka, and A. Ishikawa,
“光学迷彩とメタマテリアルフィルム,”
光技術コンタクト Vol. 54, No. 11 (636), pp. 27-36 (November, 2016). [Link]
[005] A. Ishikawa,
“屈折率,”
ぶんせき(ミニファイル:分析化学と材料物性)Vol. 2016, No. 9 (501), pp. 364-365 (September, 2016). [Link]
[004] A. Ishikawa, T. Yatooshi, T. Tanaka, and K. Tsuruta,
“グラフェンプラズモニクス,”
月刊オプトロニクス Vol. 34, No. 12 (408), pp. 75-80 (December, 2015). [Link]
[003] A. Ishikawa and T. Tanaka,
“Three-dimensional plasmonic metamaterials and their fabrication techniques,”
IEEE Journal of Selected Topics in Quantum Electronics on Nanoplasmonics Vol. 19, Issue 3,
pp. 4700110 (2013). [Link]
[002] A. Ishikawa, and T. Tanaka,
“3-4節 光制御技術への展望と展開,”
「S2群3編 ナノ光エレクトロニクス 3章 プラズモニクスとメタマテリアル」
電子情報通信学会知識ベース, (October, 2010).
[001] A. Ishikawa
“第7章 SRR(分割リング共振器)の短波長化,”
「メタマテリアルー最新技術と応用ーMetamaterial: New Technology and Its Application」
CMC出版, ISBN: 978-4-88231-965-8, (November, 2007).
Copyright © Atsushi ISHIKAWA All rights reserved.