(1)
Karen Akatsuka, Kazumasa Hiramatsu
and Atsushi
Motoagito, “Fabrication and Evaluation
of Narrow-Band Near-UV Light Absorber Using Fano Resonance in Al
Nanohole Array Structure”,Technical Digest on International
Symposium on Imaging, Sensing and Optical Memory (ISOM'23),
pp.185-186 (2023).
(2) Atsushi Motoagito, Akitaka Harada and Kazumasa Hiramatsu, “Fabrication and Behavior Analysis of Surface Plasmon Sensor Using Non-propagating Mode in Metal Diffraction Grating”,Technical Digest on International Symposium on Imaging, Sensing and Optical Memory (ISOM'23), pp.35-36 (2023).
(3) Atsushi Motogaito, Seigi Shimizu, Karen Akatsuka, Kazumasa Hiramatsu , “Fabrication of Wavelength-Selective Visible-Absorbing Filter for 405-nm by Surface Plasmon Resonance”,Proceedings of the 2022 Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), P_CM16_16 (2022).
(4) Atsushi Motoagito, Yukino Hayashi, Akinori Watanabe and Kazumasa Hiramatsu, “Fabrication of Polarization Control Devices using Metal Grating Structures ”,Technical Digest on the 26th Microoptics Conference (MOC 2021), pp.146-147 (2021).
(5) Atsushi Motoagito, Ryoga Tanaka and Kazumasa Hiramatsu, “Fabrication and characterization of plasmonic band-stop filter using Ag grating”, EPJ Web of Conferences (European Optical Society Annual Meeting (EOSAM2020)), 238, 05006 (2020).
(6) Atsushi Motoagito, Kazuki Matsuo and Kazumasa Hiramatsu, “Fabrication of SiO2-based Binary Diffractive Lens with Controllable Focal Distribution for High-Power Laser Applications”, Abstracts of the 9th Laser Display and Lighting Conference 2020 (LDC 2020), LDC10-04 (2020).
(7)
Atsushi
Motoagito and
Akinori Watanabe, “Wave
Plate Fabrication Using Surface Plasmon Polariton in a Ag Wire Grid ”,
echnical Digest on the 24nd
Microoptics Conference (MOC 2019),
pp.250-251 (2019).
(8)
Atsushi
Motoagito, Yosuke Iguchi and Shuji
Kato, “Diffractive lens for controlling the focal length and depth
of focus by using binary structure of grating and diffractive
condenser lens for laser processing application”, Abstracts of the
Annual Joint Symposia on Optics, 30pBJ3 (2018)
(9)
Atsushi
Motogaito, Yusuke Ito, Hideto Miyake
and Kazumasa Hiramatsu, “Considering the Origin of Surface Plasmon
Polaritons for a Surface Plasmon Sen-sor with 1D Metal Grating
Structure and Characterization of Sensitivity”, Abstracts of the
JSAP-OSA Joint Symposia, 19p-211B-19 (2018).
(10)
Atsushi
Motogaito, Yousuke Iguchi, Shuji Kato,
Hideto Miyake and Kazumasa Hiramatsu, “Fabrication and
characterization of a binary diffractive lens for controlling the
focal length and depth of focus”, Technical Digest on the 22nd
Microoptics Conference (MOC 2017),
pp.276-277 (2017).
(11)
Yusuke Ito,
Atsushi Motogaito, Hideto Miyake and Kazumasa Hiramatsu,
“Characteristics of a Surface Plasmon Sensor using a 1d Metal
Diffraction Grating”, Program book of the 11th Asia-Pacific
Conference on Near-Field Optics (APNFO-11), p.132 (2017).
(12)
Atsushi
Motogaito, Tomoyasu Nakajima, Hideto
Miyake and Kazumasa Hiramatsu, “The Mechanism of the Surface Plasmon
Polariton in the Double-Layer Wire Grid Structure”, Program book of
the 11th Asia-Pacific Conference on Near-Field Optics (APNFO-11),
p.77 (2017).
(13)
Atsushi
Motogaito, Shinya Mito, Hideto Miyake
and Kazumasa Hiramatsu, “Detecting High-refractive-index (n>1.5)
Media using Surface Plasmon Sensor with One-dimensional Au
Diffraction Grating on Glass Substrate”, Technical Digest on Light,
Energy and the Environment 2016, JW4A.42 (2016)
(14)
Atsushi
Motogaito, Masanori Kito, Hideto
Miyake, Kazumasa Hiramatsu, “The controlling of transmittance and
reflectance of a 2D metal periodic grating structure for cold filter
application”, Abstracts of the JSAP-OSA Joint Symposia, 13a-C302-5
(2016).
(15)
Tomoyasu Nakajima,
Atsusi Motogaito, Hideto Miyake, and Kazumasa Hiramatsu,
“Relationship between space control and optical properties of a
double-layer surface plasmon wire grid polarizer”, Abstracts of the
14th International Conference on Near-Field Optics, Nano Photonics
and Related Technics (NFO14), p.227 (2016).
(16)
Atsushi
Motogaito, Naoki Hashimoto, Kazumasa
Hiramatsu and Katsusuke Murakami, “Study of plant cultivation using
a light-emitting diode illumination system to control spectral
irradiance distribution”, Proceedings of the 15th International
Symposium on the Science and Technology on Lighting (LS-15),
pp.225-226 (2016).
(17)
Shinya Mito,
Atsushi Motogaito, Hideto Miyake and Kazumasa Hiramatsu,
“Detection of high-refractive index media by a surface plasmon
sensor using a one-dimensional metal diffraction grating”, Technical
Digest on the 20th Microoptics Conference (MOC 2015) pp.126-127
(2015).
(18)
Atsushi
Motogaito, Yuuta Morishita, Hideto
Miyake and Kazumasa Hiramatsu, “Transmission of the Double-layer
Wire Grid Polarizer and its Dependence on the Incident Angle and the
Periodical Structures”, Abstracts of the JSAP-OSA Joint Symposia,
13a-2C-5 (2015).
(19)
Atsushi Motogaito,
Yuuta Morishita, Hideto Miyake and Kazumasa Hiramatsu, “Polarization
Property of a Double-layer Wire Grid Polarizer and the Mechanism of
Transmission” Proceedings of ECIO-MOC 2014, P034 (2014).
(20)
Atsushi Motogaito,
Shohei Nakamura,Jyunn Miyazaki, Hideto Miyake and Kazumasa
Hiramatsu, “Excitation of Surface Plasmon Polariton at the GaP–Au
Interface in a High-Refractive-Index Medium”, Proceedings of
ECIO-MOC 2014, P035 (2014).
(21)
Shohei Nakamura,
Atsushi
Motogaito, Hideto Miyake and Kazumasa Hiramatsu, “Study on the
Chemical Sensor Using Excitation of the Surface Plasmon Polariton
with the GaP-Au Contact”,
Abstracts of the
JSAP-OSA Joint Symposia, 18p-D4-7 (2013).
(22)
Shohei Nakamura,
Atsushi
Motogaito, Hideto Miyake and Kazumasa Hiramatsu, “The Excitation
of the Surface Plasmon Polariton with the GaP-Au Contact and
Application to Chemical Sensors”, Proceeding of the 2013 Conference
on Lasers and Electro-Optics Pacific Rim (CLEO-PR), TuPI-14 (2013).
(23)
Atsushi Motogaito,
Shohei Nakamura, Hideto Miyake and Kazumasa Hiramatsu,
“Investigation of the surface plasmon polariton excitation
conditions at a metal-semiconductor contact interface by simulation
of reflectance characteristics”, Abstracts of the JSAP-OSA Joint
Symposia, 11p-G1-7 (2012).
(24)
Atsushi Motogaito,
Kazuya Arakawa, Hideto Miyake, and Kazumasa Hiramatsu, “The
dependence of the 1st order diffraction efficiency on the structures
of binary diffractive lens with the 100 μm-order-focal lengths on a
PET film”, Proceedings of the 2nd EOS Conference on Manufacturing of
Optical Components, AMFT-4293 (2011).
(25)
Atsushi Motogaito,
Yuuta Seriguchi, Hideto Miyake, Kazumasa Hiramatsu and Hiroyuki
Yoshino, “Fabrication and characterization of the binary diffractive
concave lens with 2 mm-focal-length on a Cyclic Olefin Polymer
film”, Proceedings of the 2nd EOS Conference on Manufacturing of
Optical Components, AMFT-4294 (2011).
(26)
Atsushi Motogaito,
Kazuya Arakawa, Yuuji Nakayama, Hideto Miyake, and Kazumasa
Hiramatsu, “Fabrication and characterization of binary diffractive
lens with the 100
mm-order-focal
length”, Technical Digest of the 16th Microoptics Conference (MOC
2010), pp. 209-210 (2010).
(27)
Atsushi Motoagito,
Narito Machida, Tadanori Morikawa, Katsuhide Manabe, Hideto Miyake
and Kazumasa Hiramatsu, “Fabrication of the binary blazed
diffractive lens for controlling the luminous intensity distribution
of LED light”, Technical Diest on the 6th International Conference
on Optics-photonics Design & Fabrication (ODF 2008), pp.219-220
(2008).
(28)
Atsushi Motoagito,
Katsuhide Manabe, Yuuki Yamanaka, Narito Machida, Hideto Miyake and
Kazumasa Hiramatsu, “Optical characterization of Japanese papaers
for application to the LED lighting system wih human sensitivity”,
Proceedigs of the First International Conference on White LEDs and
Solid State Lighting, pp.440-443 (2007).
(29)
Atsushi Motogaito,
Takahiro Yamada, Fumiaki Matsuoka and Kazumasa Hiramatsu,
“Fabrication of GaN based photonic crystal by using electron beam
lithography”, Abstract book 2nd International Conference Advanced
Materials and Nanotechnology”, p.281 (2005)
(30)
Atsushi
Motogaito, Hironobu Watanabe, Kazumasa
Hiramatsu, Kazutoshi Fukui, Yutaka Hamamura and Kazuyuki Tadatomo,
“Characterization of GaN based Schottky UV detectors in the Vacuum
UV (VUV) and the soft X-ray (SX) region (10-100 nm)”, Technical
Digest on the 5th International Conference on Nitride
Semiconductors, p.497 (2003).
(31)
Kazumasa Hiramatsu, Hironori
Yasukawa, Keiichi Ohta, Yoshihiro Kida,
Atsushi Motogaito,
Hideto Miyake, 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”, Technical Digest on the 5th International
Conference on Nitride Semiconductors, p.161 (2003).
(32) Atsushi Motogaito,
Keiichi Ohta, Hironobu Watanabe, Kazumasa Hiramatsu, Youichiro
Ohuchi, Kazuyuki Tadatomo, Yutaka Hamamura and Kazutoshi Fukui,
“Responsivity and Electrical Characteristics of GaN Based Schottky
Barrier UV Detectors with Transparent Electrode in the Near UV and
VUV Region”, Proceedings of 2002 Conference on Optoelectronic and
Microelectronic Materials and Devices, pp.107-110 (2003).
(33)
Atsushi Motogaito,
Motoo Yamaguchi, Keiichi Ohta, Kazumasa Hiramatsu, Youichiro Ohuchi,
Kazuyuki Tadatomo, Yutaka Hamamura and Kazutoshi Fukui,
“Responsivity Spectra of GaN Based Schottky Barrier UV Detectors
using Synchrotron Radiation”, Technical Program with Abstracts of
the 43rd Electronic Materials Conference, p. 54 (2001).
(34)
Hideto Miyake, Hiromitsu
Mizutani, Katsuya Nishiyama, Atsushi Motogaito, Kazumasa
Hiramatsu, Yasushi Iyechika and Takayoshi Maeda, “Reduction of
Dislocation Density in GaN by Facet Controlled ELO”, Technical
Digest on the International Workshop on Nitride Semiconductors
(IWN2000), p.189 (2000).
(35) Kazumasa Hiramatsu, Hideto
Miyake, Atsushi Motogaito, Hiroki Sone, Yasutoshi Kawaguchi,
Nobuhiko Sawaki, Yasushi Iyechika and Takayoshi Maeda, “Crystalline
and Optical Properties of ELO GaN Using W Mask by MOVPE and HVPE”,
Program & Abstract Book on the Lateral Epitaxial Overgrowth
Workshop, p.25 (1999).
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