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(1) Karen Akatsuka, Kazumasa Hiramatsu and Atsushi Motogaito, "TM- and TE-polarization-selective narrowband perfect absorber for near-ultraviolet light using Fano resonance in an aluminum nanohole array structure ", Applied Physics B, 130, 64 (2024). https://doi.org/10.1007/s00340-024-08198-w Sharedit Research Square
(2) Atsushi Motogaito, Akitaka Harada and Kazumasa Hiramatsu, "Fabrication and Operation Analysis of a Surface-Plasmon Sensor Using a Nonpropagating Mode ", Plasmonics (2023). https://doi.org/10.1007/s11468-023-02111-5 SharedIt Research Square
(3) Atsushi Motogaito, Yukino Hayashi, Akinori Watanabe and Kazumasa Hiramatsu, "Fabrication of Polarization Control Devices Using Metal Grating Structures", Optics and Photoics Journal, 12, pp.201-213 (2022). https://doi.org/10.4236/opj.2022.129015
(4) Atsushi Motoaito, Ryoga Tanaka and Kazumasa Hiramatsu, "Fabrication of perfect plasmonic absorbers for blue and near-ultraviolet lights using double-layer wire-grid structures ", Journal of European Optical Society-Rapid Publications, 17, 6 (2021). https://jeos.springeropen.com/articles/10.1186/s41476-021-00151-0
(5) Atsushi Motoaito, Yosuke Iguchi, Shuji Kato and Kazumasa Hiramatsu, "Fabrication and characterization of a binary diffractive lens for controlling focal distribution ", Applied Optics, 59, pp.742-747 (2020). https://doi.org/10.1364/AO.381139 MiUSE
(6) Atsushi Motogaito and Yusuke Ito, “Excitation Mechanism of Surface Plasmon Polaritons for Surface Plasmon Sensor with 1D Metal Grating Structure for High Refractive Index Medium”, Photonic Sensors, 9, pp.11-18 (2019) https://doi.org/10.1007/s13320-018-0515-8
(7) Atsushi Motogaito, Tomoyasu Nakajima, Hideto Miyake and Kazumasa Hiramatsu, “Excitation mechanism of surface plasmon polaritons in a double- layer wire grid structure”, Applied Physics A 123, 729 (2017). https://doi.org/10.1007/s00339-017-1367-6 MiUSE
(8) Atsushi Motogaito, Naoki Hashimoto, Kazumasa Hiramatsu and Katsusuke Murakami, “Study of Plant Cultivation Using a Light-Emitting Diode Illumination System to Control the Spectral Irradiance Distribution”, Optics and Photonics Journal, 7, pp.101-108 (2017). https://doi.org/10.4236/opj.2017.76010
(9) Atsushi Motogaito、“Plant Cultivation by using LED”、O plus E, 39, pp.657-661(2017)(in Japanese).
(10) Atsushi Motogaito, Shinya Mito, Hideto Miyake and Kazumasa Hiramatsu, “Detecting High-Refractive-Index Media Using Surface Plasmon Sensor with One-Dimensional Metal Diffraction Grating”, Optics and Photonics Journal, 6, pp.164-170 (2016). https://doi.org/10.4236/opj.2016.67018
(11) Atsushi Motogaito, Masanori Kito, Hideto Miyake and Kazumasa Hiramatsu, “Fabrication and optical characterization of a 2D metal periodic grating structure for cold filter application”, Proceedings of SPIE Micro+Nano Materials, Devices, and Systems, 9668, pp.96681Q-1 – 96681Q-6 (2015). https://doi.org/10.1117/12.2201116 MiUSE
(12) Atsushi Motogaito, Yuuta Morishita, Hideto Miyake and Kazumasa Hiramatsu, “Extraordinary Optical Transmission Exhibited by Surface Plasmon Polaritons in a Double-Layer Wire Grid Polarizer”, Plasmonics, 10, pp.1657-1662 (2015). https://doi.org/10.1007/s11468-015-9980-8 MiUSE
(13) Atsushi Motogaito, Shohei Nakamura, Jyun Miyazaki, Hideto Miyake and Kazumasa Hiramatsu, “Using surface-plasmon polariton at the GaP-Au interface in order to detect chemical species in high-refractive-index media”, Optics Communications, 341, pp.64-68 (2015). https://doi.org/10.1016/j.optcom.2014.12.006 MiUSE
(14) Atsushi Motogaito and Kazumasa Hiramatsu, “Fabrication of Binary Diffractive Lenses and the Application to LED Lighting for Controlling Luminosity Distribution”, Optics and Photonics Journal, 3, pp.67-73 (2013). https://doi.org/10.4236/opj.2013.31011
(15) Atsushi Motogaito, Katsuhide Manabe, Kazumasa Hiramatsu “Application of Local Crafts to a New LED Lighting System : The Development of an LED Lighting System with Human Sensitivity Using Ise Paper Stencils as Lamp Shades”, Journal of the Illuminating Engineering Institute of Japan, 97, pp.381-385 (2013) (In Japanese).
(16) Atsushi Motogaito, Narito Machida,Tadanori Morikawa, Katsuhide Manabe, Hideto Miyake and Kazumasa Hiramatsu, “Fabrication of a binary diffractive lens for controlling the luminous intensity distribution of LED light”, Optical Review, 16, pp.455-457 (2009).
(17) Hideto Miyake, Takeharu Ishii, Atsushi Motogaito, and Kazumasa Hiramatsu, “Improved optical properties of AlGaN using periodic structures”, Physica Status Soidi (c), 5, pp.1822-1824 (2008)
(18) Atsushi Motogaito, Katsuhide Manabe, Yuuki Yamanaka, Narito Machida, Hideto Miyake and Kazumasa Hiramatsu, Journal of Light & Visual Environment, 32, pp.218-221 (2008).
(19) Yasuhiro Shibata, Atsushi Motogaito, Hideto Miyake, Kazumasa Hiramatsu, Youichiro Ohuchi, Hiroaki Okagawa, Kazuyuki Tadatomo, Tatsuya Nomura, Yutaka Hamamura and Kazutoshi Fukui, Materteral Research Society Symposium Proceedings, 831, pp. E3.12.1-E3.12.6 (2005).
(20) Atsushi Motogaito, Kazumasa Hiramatsu, Yasuhiro Shibata, Hironobu Watanabe, Hideto Miyake, Kazutoshi Fukui, Youichiro Ohuchi, Kazuyuki Tadatomo and Yutaka Hamamura, “Characterization of III-nitride Based Schottky UV Detectors with Wide Detectable Wavelength Range (360-10 nm) using Synchrotron Radiation”, Materteral Research Society Symposium Proceedings, 798, pp. Y6.6.1-Y6.6.6 (2004).
(21) Hideto Miyake, Hironori Yasukawa, Yoshihiro Kida, Keiichi Ohta, Yasuhiro Shibata, Atsushi Motogaito, Kazumasa Hiramatsu, Youichiro Ohuchi, Kazuyuki Tadatomo, Yutaka Hamamura and Kazutoshi Fukui, “High performance Schottky UV detectors (265-100 nm) using n-Al0.5Ga0.5N on AlN epitaxial layer, Physica Status Solidi (a), 200, pp.151-154 (2003).
(22) Atsushi Motogaito, Hironobu Watanabe, Kazumasa Hiramatsu, Kazutoshi Fukui, Yutaka Hamamura and Kazuyuki Tadatomom “Characterization of GaN based Schottky UV detectors in the vacuum UV (VUV) and the soft X-ray (SX) region (10–100 nm)”, Physica Status Solidi (a), 200, pp.147-150 (2003).
(23) Kazumasa Hiramatsu and Atsushi Motogaito, “GaN-based Schottky barrier photodetectors from near ultraviolet to vacuum ultraviolet (360–50 nm)”, Physica Status Solidi (a), 195, pp.496-501 (2003).
(24) Atsushi Motogaito, Keiichi Ohta, Kazumasa Hiramatsu, Youichiro Ohuchi, Kazuyuki Tadatomo, Yutaka Hamamura and Kazutoshi Fukui, “Effects of the Schottky electrode structure in GaN based UV-VUV (50-360 nm) photodetector”. Materteral Research Society Symposium Proceedings, 693, pp. 761-766 (2002).
(25) Atsushi Motogaito, Keiichi Ohta, Kazumasa Hiramatsu, Youichiro Ohuchi, Kazuyuki Tadatomo, Yutaka Hamamura and Kazutoshi Fukui, “Characterization of GaN Based UV‐VUV Detectors in the Range 3.4–25 eV by Using Synchrotron Radiation”, Physica Status olidi (a), 188, pp.337-340 (2001).
(26) Atsushi Motogaito, Motoo Yamaguchi, Kazumasa Hiramatsu, Masahiro Kotoh, Youichiro Ohuchi, Kazuyuki Tadatomo, Yutaka Hamamura and Kazutoshi Fukui, “Characterization of GaN-Based Schottky Barrier Ultraviolet (UV) Detectors in the UV and Vacuum Ultraviolet (VUV) Region Using Synchrotron Radiation”, Japanese Journal of Applied Physics, 40, pp.L368-370 (2001).
(27) Kazumasa Hiramatsu, Masahiro Haino, Motoo Yamaguchi, Hideto Miyake, Atsushi Motogaito, Nobuhiko Sawaki, Yasushi Iyechika and Takayoshi Maeda, “GaN layer structures with buried tungsten nitrides (WNx) using epitaxial lateral overgrowth via MOVPE”, Materials Science and Engineering: B, 82, pp.62-64 (2001).
(28) Masahiro Haino, Motoo Yamaguchi, Hideto Miyake, Atsushi Motogaito, Kazumasa Hiramatsu, Yasutoshi Kawaguchi, Nobuhiko Sawaki, Yasushi Iyechika and Takayoshi Maeda, “Buried Tungsten Metal Structure Fabricated by Epitaxial-Lateral-Overgrown GaN via Low-Pressure Metalorganic Vapor Phase Epitaxy”, Jaanese Journal of Applied Physics, 39, pp. L449-L452 (2000).
(29) Kazumasa Hiramtsu, Atsushi Motogaito, Hideto Miyake, Yoshiaki Honda, Yasushi Itechika, Takayoshi Maeda, Frank Bertram, Jüergen Christen, and Axel Hoffman, “Crystalline and Optical Properties of ELO GaN by HVPE Using Tungsten Mask”. IEICE Transactions on Electronics, E83-C, pp.620-626 (2000).
(30) Kazumasa Hiramatsu, Katsuya Nishiyama, Masaru Onishi, Hiromitsu Mizutani, Mitsuhisa Narukawa, Atsushi Motogaito, Hideto Miyake, Yasushi Iyechika and Takayoshi Maeda, “Fabrication and characterization of low defect density GaN using facet-controlled epitaxial lateral overgrowth (FACELO), Journal of Crystal Growth, 221, pp.316-326 (2000).
(31) Hideto Miyake, Motoo Yamaguchi, Masahiro Haino, Atsushi Motogaito, Kazumasa Hiramatsu, Shingo Nambu, Yasutoshi Kawaguchi, Nobuhiko Sawaki, Yasushi Iyechika, Takayoshi Maeda and Isamu Akasaki, “Fabrication of GaN with Buried Tungsten (W) Structures Using Epitaxial Lateral Overgrowth (ELO) via LP-MOVPE”, Materials Research Society Symposium - Proceedings, 595 W2.3.1-W2.3.6 (2000).
(32) Kazumasa Hiramatsu, Katsuya Nishiyama, Atsushi Motogaito, Hideto Miyake, Yasushi Iyechika and Takayoshi Maeda, “Recent Progress in Selective Area Growth and Epitaxial Lateral Overgrowth of III-Nitrides: Effects of Reactor Pressure in MOVPE Growth”, Physica Status Solidi (a), 176, pp. 535-543 (1999).
(33) Hideto Miyake, Atsushi Motogaito and Kazumasa Hiramatsu, “Effects of Reactor Pressure on Epitaxial Lateral Overgrowth of GaN via Low-Pressure Metalorganic Vapor Phase Epitaxy”, Japanese Journal of Applied Physics, 38, pp. L1000-L1002 (1999).
(34) Atsushi Motogaito, Masakazu Kimura, Sadik Dost, Hironobu Katsuno, Akira Tanaka and Tokuzo Sukegawa, “Growth of alloy GalnP crystals by compositional conversion of InP layers grown on GaP substrates in an LPE system”, Journal of Crystal Growth, 182, pp.275-280 (1999).
(35) Haruhiko Udono, Atsushi Motogaito, Masakazu Kimura, Akira Tanaka and Tokuzo Sukegawa, “Suppression of twins in GaAs layers grown on a GaP(111) B substrate by liquid phase epitaxy”, Journal of Crystal Growth, 169, pp.181-184 (1996).