Publicaiton list
研究成果の詳細については,静岡大学:教員データベースをご覧ください.
Original papers
Yu-ichiro Tanaka, Atsushi Ono*, Wataru Inami, and Yoshimasa Kawata, “Silicon Plasmonics for Enhanced Responsivity of Silicon Photodetectors in Deep-Ultraviolet Region,” Physical Review Letters 134, 22, 226901 (2025). [DOI]
Koya Okazaki, Takahito Yoshinaga, Nobukazu Teranishi, and Atsushi Ono*, “Enhancement of Near-Infrared Sensitivity in Silicon-Based Image Sensors to Oblique Chief Rays via Quasi-Surface Plasmon Resonance,” IEEE Journal of the Electron Devices Society 13, 278-284 (2025). [DOI]
Soh Uenoyama, Kazunori Tanaka, Hiroyasu Fujiwara, Akiyoshi Watanabe, and Atsushi Ono*, “Experimental Demonstration of Improvement in Near-Infrared Photodetection Efficiency by Plasmonic Diffraction,” ACS Applied Electronic Materials 6, 9, 7046-7054 (2024). [DOI]
Atsushi Nakamura, Shunpei Shiba, Kei Hosomi, Atsushi Ono, Yoshimasa Kawata, and Wataru Inami, “Development of a localized surface plasmon–enhanced electron beam–pumped nanoscale light source for electron beam excitation–assisted optical microscopy,” Microscopy 74, 1, 71–77 (2024). [DOI]
Toshiki Masuzawa and Atsushi Ono*, “Enhanced sensitivity and response speed in surface-normal InGaAs photodetectors with Au grating through waveguide-plasmon coupling,” Optics Express 32, 18, 32271–32282 (2024). [DOI]
Hirofumi Morisawa, Atsushi Ono*, Koki Ikegami, Wataru Inami, and Yoshimasa Kawata, “Enhanced photoelectron emission in a large area aluminum nanohole array via a deep-UV surface plasmon,” Optical Materials Express 14, 5, 1149–1159 (2024). [DOI]
Ayana Mizuno and Atsushi Ono*, “Highly Chromatic Plasmonic Color Film by Sterical Dispersion of Au Nanoparticles in Polydimethylsiloxane,” ACS Applied Optical Materials 2, 2, 284-290 (2024). [DOI]
Yuki Yoshimoto, Kenta Nakazawa, Makoto Ishikawa, Atsushi Ono, and Futoshi Iwata, “In-process sintering of Au nanoparticles deposited in laser-assisted electrophoretic deposition,” Optics Express 31, 25, 41726-41739 (2023). [DOI]
Ayana Mizuno, Yosei Shibata, Hideo Fujikake, and Atsushi Ono*, “Plasmonic Color Switching by a Combination Device with Nematic Liquid Crystals and a Silver Nanocube Monolayer,” ACS Omega 8, 44, 41579-41585 (2023). [DOI]
Hiroaki Satoh, Ken Kawakubo, Atsushi Ono, and Hiroshi Inokawa, “Angle-sensitive pixel based on silicon-on-insulator p-n junction photodiode with aluminum grating gate electrode,” IEICE Electronics Express 19, 21, 1-5 (2022). [DOI]
Takahito Yoshinaga, Kazuma Hashimoto, Nobukazu Teranishi, and Atsushi Ono*, “Photon confinement in a silicon cavity of an image sensor by plasmonic diffraction for near-infrared absorption enhancement,” Optics Express 30, 20, 35516-35525 (2022). [DOI]
Che Nur Hamizah Che Lah, Hirofumi Morisawa, Keita Kobayashi, Atsushi Ono*, Wataru Inami, and Yoshimasa Kawata, “Autofluorescence Imaging of Living Yeast Cells with Deep-Ultraviolet Surface Plasmon Resonance,” Photonics 9, 424, 1-7 (2022). [DOI]
Ayana Mizuno and Atsushi Ono*, “Dynamic Control of the Interparticle Distance in a Self-Assembled Ag Nanocube Monolayer for Plasmonic Color Modulation,” ACS Applied Nano Materials 4, 9, 9721-9728 (2021). [DOI]
Hirofumi Morisawa, Atsushi Ono*, Wataru Inami, and Yoshimasa Kawata, “Hot-electron emission enhancement by deep UV surface plasmon resonance on an aluminum periodic disk-hole array,” Optical Materials Express 11, 7, 2278-2287 (2021). [DOI]
Atsushi Ono*, Kazuma Hashimoto, and Nobukazu Teranishi, “Near-infrared sensitivity improvement by plasmonic diffraction for a silicon image sensor with deep trench isolation filled with highly reflective metal,” Optics Express 29, 14, 21313-21319 (2021). [DOI]
Takeru Iwahori, Ayana Mizuno, Atsushi Ono, Yoichi Uehara, and Satoshi Katano, “Thermally and photoinduced structural and chemical changes of a silver nanocube array on Au(111),” RSC Advances 11, 15847-15855 (2021). [DOI]
Atsushi Sugita, Hirofumi Yogo, Kanta Mochizuki, Shohei Hamada, Hiroumi Matsui, Atsushi Ono, Wataru Inami, Yoshimasa Kawata, and Masayuki Yoshizawa, “Polarization-resolved femtosecond pump-probe spectroscopy for Au nanodisks at the LSP resonance,” OSA Continuum 3, 10, 2943-2952 (2020). [DOI]
Satoshi Katano, Takeru Iwahori, Ryota Yamasaki, Ayana Mizuno, Atsushi Ono, and Yoichi Uehara, “Localized Surface Plasmon-induced Vibrational Excitations in the Surface-enhanced Raman Scattering Using Two-dimensional Array of Silver Nanocubes,” Journal of Applied Physics 127, 185301, 1-8 (2020). [DOI]
S. Elhani, H. Ishitobi, Y. Inouye, A. Ono, S. Hayashi, and Z. Sekkat, “Surface enhanced visible absorption of dye molecules in the near-field of gold nanoparticles,” Scientific Reports 10, 3913, 1-11 (2020). [DOI]
A. Sugita, S. Kaname, K. Mochizuki, K. Kikuchi, A. Ono, W. Inami, and Y. Kawata, “Second harmonic conversions of surface-plasmon-polariton–enhanced optical fields in nonlinear optics polymer/Ag/glass structures,” Physical Review B 101, 4, 045303- (2020). [DOI]
Atsutaka Miyamichi, Atsushi Ono*, Keiichiro Kagawa, Keita Yasutomi, and Shoji Kawahito, “Plasmonic Color Filter Array with High Color Purity for CMOS Image Sensors,” Sensors 19, 8, 1750-1759 (2019). [DOI]
Ayana Mizuno and Atsushi Ono*, “ Static and dynamic tuning of surface plasmon resonance by controlling inter particle distance in arrays of Au nanoparticles,” Applied Surface Science 480, 846-850 (2019). [DOI]
Seiya Toriyama, Vygantas Mizeikis, and Atsushi Ono*, “Fabrication of silver nano-rings using photo-reduction induced by femtosecond pulses,” Applied Physics Express 12, 015004- (2019). [DOI]
Atsutaka Miyamichi, Atsushi Ono*, Hiroki Kamehama, Keiichiro Kagawa, Keita Yasutomi, and Shoji Kawahito, “Multi-band plasmonic color filters for visible-to-near-infrared image sensors,” Optics Express 26, 19, 25178-25187 (2018). [DOI]
Taras Hanulia, Wataru Inami, Atsushi Ono, and Yoshimasa Kawata, “Fluorescence lifetime measurement excited with ultraviolet surface plasmon resonance,” Optics Communications 427, 266-270 (2018). [DOI]
Atsushi Sugita, Hirofumi Yogo, Tatsuya Matsui, Shunsuke Nihashi, Takuma Hirabayashi, Wataru Inami, Atsushi Ono, Yoshimasa Kawata, “Polarized second-harmonic-generation spectroscopy for Au nanorods arrayed on SiO2 substrates at localized surface plasmon resonances,” Japanese Journal of Applied Physics 56, 12, 122002- (2017). [DOI]
Hidekazu Ishitobi, Taka-aki Kobayashi, Atsushi Ono, and Yasushi Inouye, “Near-field optical mapping of single gold nano particles using photo-induced polymer movement of azo-polymers,” Optics Communications 387, 24-29 (2017). [DOI]
Masahiro Fukuta, Wataru Inami, Atsushi Ono*, Yoshimasa Kawata, Yasunori Nawa, Lin Shen, Susumu Terakawa, “Cell structure imaging with bright and homogeneous nanometric light source,” Journal of Biophotonics 9, 1, 1-8 (2016). [DOI]
Masakazu Kikawada, Atsushi Ono, Wataru Inami, and Yoshimasa Kawata, “Plasmon-Enhanced Autofluorescence Imaging of Organelles in Label-Free Cells by Deep-Ultraviolet Excitation,” Analytical Chemistry 88, 2, 1407-1411 (2016). [DOI]
Masahiro Fukuta, Wataru Inami, Atsushi Ono, and Yoshimasa Kawata, “Intensity distribution analysis of cathodoluminescence using the energy loss distribution of electrons,” Ultramicroscopy 160, 225-229 (2016). [DOI]
Masakazu Kikawada, Atsushi Ono, Wataru Inami, and Yoshimasa Kawata, “Surface plasmon-enhanced fluorescence cell imaging in deep-UV region,” Applied Physics Express 8, 7 (2015). [DOI]
川田善正, 黄川田昌和, 小野篤史, 居波渉, “深紫外励起表面プラズモンによる高感度蛍光バイオイメージング,” レーザー研究 43, 5, 280-285 (2015). [DOI]
Wataru Inami, Masahiro Fukuta, Yuriko Masuda, Yasunori Nawa, Atsushi Ono, Sheng Lin, Yoshimasa Kawata, and Susumu Terakawa, “A plastic scintillator film for an electron beam-excitation assisted optical microscope,” Optical Review 22, 2, 354-358 (2015). [DOI]
Atsushi Ono*, Naoya Shiroshita, Masakazu Kikawada, Wataru Inami, and Yoshimasa Kawata, “Enhanced photoelectron emission from aluminum thin film by surface plasmon resonance under deep-ultraviolet excitation,” Journal of Physics D: Applied Physics 48, 18, 184005 (2015). [DOI]
Dedy Septono Catur Putranto, Purnomo Sidi Priambodo, Djoko Hartanto, Wei Du, Hiroaki Satoh, Atsushi Ono, and Hiroshi Inokawa, “Effects of substrate voltage on noise characteristics and hole lifetime in SOI metal-oxide-semiconductor field-effect transistor photon detector,” Optics Express 22, 18, 22072-22079 (2014). [DOI]
Masakazu Kikawada, Atsushi Ono, Wataru Inami, and Yoshimasa Kawata, “Enhanced multicolor fluorescence in bioimaging using deep-ultraviolet surface plasmon resonance,” Applied Physics Letters 104, 22, 223703 (2014). [DOI]
Atsushi Ono*, Yasushi Enomoto, Yasufumi Matsumura, Hiroaki Satoh, and Hiroshi Inokawa, “Broadband absorption enhancement of thin SOI photodiode with high-density gold nanoparticles,” Optical Materials Express 4, 4, 725-732 (2014).This paper has been selected for Spotlight on Optics, April 2014. [DOI]
Atsushi Ono*, Masakazu Kikawada, Wataru Inami, and Yoshimasa Kawata, “Surface plasmon coupled fluorescence in deep-ultraviolet excitation by Kretschmann configuration,” Frontiers of Physics 9, 1, 60-63 (2014). [DOI]
Yasunori Nawa, Yoshimasa Kawata, Wataru Inami, Aki Miyake, Atsushi Ono, Sheng Lin, Susumu Terakawa, “Dynamic autofluorescence imaging of intracellular components inside living cells using direct electron beam excitation,” Biomedical Optics Express 5, 2, 378-386 (2014). [DOI]
Atsushi Ono*, Masakazu Kikawada, Rentaro Akimoto, Wataru Inami, and Yoshimasa Kawata, “Fluorescence enhancement with deep-ultraviolet surface plasmon excitation,” Optics Express 21, 15, 17447-17453 (2013). [DOI]
Hiroaki Satoh, Ken Kawakubo, Atsushi Ono, and Hiroshi Inokawa, “Material Dependence of Metal Grating on SOI Photodiode for Enhanced Quantum Efficiency,” IEEE Photonics Technology Letters 25, 12, 1133-1136 (2013). [DOI]
Hiroshi Inokawa, Hiroaki Satoh, Ken Kawakubo, Atsushi Ono, “Enhancement of SOI photodiode sensitivity by aluminum grating,” ECS Transactions 53, 5, 127-130 (2013). [DOI]
Hiroaki Satoh, Atsushi Ono, and Hiroshi Inokawa, “Enhanced Visible Light Sensitivity by Gold Line-and-Space Grating Gate Electrode in Thin Silicon-On-Insulator p-n Junction Photodiode,” IEEE Transactions on Electron Devices 60, 2, 812-818 (2013). [DOI]
Wataru Inami, Jun Fujiwara, Masahiro Fukuta, Atsushi Ono, and Yoshimasa Kawata, “Analysis of electron and light scattering in a fluorescent thin film by combination of Monte Carlo simulation and finite-difference time-domain method,” Applied Physics Letters 101, 151104 (2012). [DOI]
Wei Du, Hiroshi Inokawa, Hiroaki Satoh, and Atsushi Ono, “Single-Photon Detection by a Simple Silicon-on-Insulator Metal-Oxide-Semiconductor Field-Effect Transistor,” Japanese Journal of Applied Physics 51, 6, 1-4 (2012). [DOI]
Yasunori Nawa, Wataru Inami, Akito Chiba, Atsushi Ono, Atsuo Miyakawa, Yoshimasa Kawata, Sheng Lin, and Susumu Terakawa, “Dynamic and high-resolution live cell imaging by direct electron beam excitation,” Optics Express, 20, 5, 5629-5635 (2012). [DOI]
Atsushi Ono*, Hiroki Sano, Wataru Inami, and Yoshimasa Kawata, “Surface plasmon excitation and localization by metal-coated axicon prism,” Micromachines 3, 55-61 (2012). [DOI]
Atsushi Ono*, Yuki Matsuo, Hiroaki Satoh, and Hiroshi Inokawa, “Sensitivity improvement of silicon-on-insulator photodiode by gold nanoparticles with substrate bias control,” Applied Physics Letters 99, 62105, 1-3 (2011). [DOI]
Wei Du, Hiroshi Inokawa, Hiroaki Satoh, and Atsushi Ono, “SOI metal-oxide-semiconductor field-effect transistor photon detector based on single-hole counting,” Optics Letters 36, 15, 2800-2802 (2011). [DOI]
Hiroaki Satoh, Yuki Matsuo, Hiroshi Inokawa, and Atsushi Ono, “Investigation of Adhesion Materials for Gold Line-and-Space Surface Plasmon Antenna on SOI-MOS Photodiode,” Advanced Materials Research 222, 201-204 (2011). [DOI]
Atsushi Ono*, Hiroaki Satoh, and Hiroshi Inokawa, “High-efficiency SOI photodetector utilizing surface plasmon resonance in gold corrugated structure,” Advanced Materials Research 222, 154-157 (2011). [DOI]
Hiroshi Inokawa, Wei Du, Mitsuru Kawai, Hiroaki Satoh Atsushi Ono, and Vipul Singh, “Single-Photon Detector Based on MOSFET Electrometer with Single-Electron Sensitivity,” Advanced Materials Research 222, 3-7 (2011). [DOI]
Keisuke Kato Atsushi Ono, Wataru Inami, and Yoshimasa Kawata, “Plasmonic nanofocusing using a metal-coated axicon prism,” Optics Express 18, 13, 13580 (2010). [DOI]
Atsushi Ono*, Prabhat Verma, and Satoshi Kawata, “Plasmonic nano-imaging with metallic nanolens,” Journal of Automation, Mobile Robotics and Intelligent Systems 3, 4, 102-104 (2009).
Satoshi Kawata, Atsushi Ono, and Prabhat Verma, “Subwavelength colour imaging with a metallic nanolens,” Nature Photonics 2, 7, 438-442 (2018). [DOI]
A. Ono*, K. Masui, Y. Saito, T. Sakata, A. Taguchi, M. Motohashi, T. Ichimura, H. Ishitobi, A. Tarun, N. Hayazawa, P. Verma, Y. Inouye, and S. Kawata, “Active Control of the Oxidization of a Silicon Cantilever for the Characterization of Silicon-based Semiconductors,” Chem. Lett. 37, 1, 122-123 (2008). [DOI]
N. Hayazawa, M. Motohashi, Y. Saito, H. Ishitobi A. Ono, T. Ichimura, P. Verma, and S Kawata, “Visualization of localized strain of a crystalline thin layer at the nanoscale by tip-enhanced Raman spectroscopy and microscopy,” Journal of Raman Spectroscopy 38, 684-696 (2007). [DOI]
Yuika Saito, Kazuhiro Yanagi, Norihiko Hayazawa, Hidekazu Ishitobi Atsushi Ono, Hiromichi Kataura, and Satoshi Kawata, “Vibrational Analysis of Organic Molecules Encapsulated in Carbon Nanotubes by Tip-enhanced Raman Spectroscopy,” Japanese Journal of Applied Physics 45, 9286-9289 (2006). [DOI]
Atsushi Ono*, Jun-ichi Kato, and Satoshi Kawata, “Subwavelength Optical Imaging through a Metallic Nanorod Array,” Physical Review Letters 95, 267407 (2005).This paper has been selected for Virtual Journal of Nanoscale Science & Technology 13, 2 (2006).This paper has been nominated for especially preeminent 10 papers selection of Annual Report of Osaka University between early 2005 and early 2006. [DOI]
Guangyong Zhou, Atsushi Ono, Michael James Ventura, Martin Straub, Xuehua Wang, Yuri Kivshar, Min Gu, and Satoshi Kawata, “In-plane and out-of-plane band-gap properties of a two-dimensional triangular polymer-based void channel photonic crystal,” Applied Physics Letters 84, 22, 4415-4417 (2004). [DOI]
Tatsuhiro Masaki, Atsushi Ono, Kazuya Goto, Yasushi Inouye, Satoshi Kawata, and Haruo Kuroda, “Apertured cantilever probes for infrared near-field scanning optical microscopy,” Japanese Journal of Applied Physics, supplement 41, 1, 71-72 (2002). [DOI]
Review articles, Proceedings
小野篤史*, 水野文菜, “金ナノ粒子でできた高色彩性カラーフィルム,” 機能材料44, 9, 49-54 (2024).
小野篤史*,井村考平,酒井優,岩見健太郎, “創立70周年記念特集 光学界の将来ビジョン「ナノオプティクス研究の醍醐味」,” 光学 51, 4, 173-175 (2022).
小野篤史*, “金属微細構造作製技術とプラズモニクス応用,” OPTRONICS 40, 3, 138-142 (2021).
小野篤史*,宮道篤孝,香川景一郎,安富啓太,川人祥二, “金属ナノ構造を用いたプラズモニックカラーフィルタリング,” O plus E 43, 1, 32-36 (2021).
小野篤史*,鳥山誠也,ミゼイキス ビガンタス, “フェムト秒レーザ光還元法による金属微細パターニング,” 砥粒加工学会誌 64, 8, 403-406 (2020).
小野篤史*,宮道篤孝,亀濱博紀,香川景一郎,安富啓太,川人祥二, “プラズモニックカラーフィルタを用いたマルチスペクトル撮像技術,” 映像情報メディア学会誌 73, 2, 243-246 (2019).
Atsushi Sugita, Kanta Mochizuki, Kohei Kikuchi, Atsushi Ono, Wataru Inami, and Yoshimasa Kawata, “Amplifying conversion efficiencies of SP-enhanced SHG from Ag surface with nonlinear optical polymer films,” Proc. SPIE 11082, Plasmonics: Design, Materials, Fabrication, Characterization, and Application XVII, 110820W, 1-4 (2019). [DOI]
Ayana Mizuno and Atsushi Ono*, “Dynamic tunability and polarization anisotropy of elastic plasmonic device,” Proc. SPIE 11081, Active Photonic Platforms XI, 110812J, 1-6 (2019). [DOI]
小野 篤史*, “結晶性銀ナノワイヤを用いた表面プラズモン共鳴伝搬,” 化学工業 68, 4, 1-5 (2017).
福田真大,居波渉,小野篤史,川田善正, “モンテカルロシミュレーションと有限差分時間領域法の組合せによる蛍光薄膜内外の電子線励起発光分布の解析,” 電子情報通信学会論文誌C 199-C, 2, 18-25 (2016).
川田善正,黄川田昌和,小野篤史,居波渉, “深紫外励起表面プラズモンによる高感度蛍光バイオイメージング,” レーザー研究 43, 5, 280-285 (2015).
黄川田昌和, 小野篤史, 居波渉, 川田善正, “深紫外光プラズモン励起とその蛍光増強に関する研究,” レーザー研究 41, 3, 191-195 (2013).
Atsushi Ono, Hiroki Sano, Wataru Inami, Keisuke Kato, and Yoshimasa Kawata, “Plasmonic nanofocusing by axicon-shape Kretschmann configuration,” Proceedings of SPIE 8204 (2011).
小野篤史, 佐藤弘明, 猪川洋, “表面プラズモンを利用した光検出器の性能向上,” 表面技術 62, 6, 291-295 (2011).
小野篤史, “ナノ分解能イメージングを実現する金属ナノレンズ,” 表面科学 31, 9, 500-505 (2010).
Invited talks
小野篤史, “プラズモニクスが拓く次世代光センサ,” 日本光学会 ナノオプティクス研究グループ 第30回研究討論会, (emCAMPUS(エムキャンパス), 2025年11月13日).
Atsushi Ono and Toshiki Masuzawa, “Enhanced Sensitivity and Speed in Surface-Normal InGaAs Photodetectors through Waveguide-Plasmon Coupling with Au Gratings,” Inter Photonics 2025 7th International Conference on Photonics Research (LIberty Hotels Lykia, Turkey, Apr. 8-14, 2025).
Atsushi Ono, “Plasmonic color filters for multi-spectral imaging,” 6th International Workshop on Image Sensors and Imaging Systems (IWISS2024) (Morito Memorial Hall, Nov. 8, 2024).
Atsushi Ono, Wataru Inami, and Yoshimasa Kawata, “Plasmon-enhanced autofluorescence imaging in Deep-UV for biological cells,” SPIE Optics + Photonics 2024 (San Diego, United States, Aug. 18-22, 2024).
Atsushi Ono, “Active plasmonics for dynamic color tuning,” OPIC2024/OPTM2024 (PACIFICO Yokohama, Apr. 22-26, 2024).
小野篤史, “マルチカラーCMOS イメージセンサ用プラズモニックカラーフィルタの開発,” Optics&Photonics Japan 2023 (北海道大学 学術交流会館・百年記念会館, 2023年11月27~29日).
小野篤史, “表面プラズモンを利用したシリコンイメージセンサの近赤外感度向上技術,” 次世代画像入力ビジョンシステム部会定例会, (東京理科大学森戸記念館, 2023年9月8日).
Atsushi Ono, Takahito Yoshinaga, Kazuma Hashimoto, and Nobukazu Teranishi, “Quasi-resonance of surface plasmons for near-infrared sensitivity improvement of silicon image sensor,” META2023, (Paris, France, Jul. 18-21, 2023).
小野篤史(キーノートスピーチ), “金属ナノ構造作製技術とプラズモニックセンシングへの応用,” 2023年度精密工学会春季大会学術講演会, (東京理科大学葛飾キャンパス, 2023年3月14~16日).
小野篤史, “金属ナノレンズの開発に向けた表面プラズモン共鳴伝播の実証,” レーザー学会第42回年次大会, (オンライン開催, 2022年1月12~14日).
Atsushi Ono, Mai Hayase, Masato Sumiyoshi, Makoto Takishita, and Vygantas Mizeikis, “Laser induced fabrication of metal-mesh transparent electrode using precursor polyimide,” Materials Oceania 2021, (online, Oct. 11–14, 2021).
小野篤史, “光還元と偏光制御による超微細金属パターニング,” 第68回応用物理学会春季学術講演会, (オンライン開催, 2021年3月16〜19日).
小野篤史, “金属微細パターニング技術のプラズモニクス応用,” 第2回微細加工と表面機能専門委員会, (オンライン開催, 2020年12月21日).
Atsushi Ono, Makoto Takishita, Masato Sumiyoshi, and Vygantas Mizeikis, “Laser Induced Photoreduction for Metal Based Flexible Transparent Electrode,” The 27th International Display Workshops (IDW ’20), (Virtual Conference, Dec. 9-11, 2020).
小野篤史,鳥山誠也,ミゼイキスビガンタス, “フェムト秒レーザー光還元法による金属微細パターニング,” 第131回マイクロ接合研究委員会, (オンライン開催, 2020年12月8日).
小野篤史, “レーザー誘起光還元プロセスを利用した金属ナノ周期パターニング,” 第67回応用物理学会春季学術講演会, (上智大学, 東京都, 2020年3月12〜15日).
A. Ono, S. Toriyama, and V. Mizeikis, “Femtosecond laser writing of metallic nanostructures using silver photo-reduction,” SPIE Micro + Nano Materials, Devices, and Applications 2019, (Melbourne, Australia, Dec. 8-12 2019).
小野篤史, “ナノプラズモニクス,” 2019年度精密工学会秋季大会シンポジウム, (静岡大学, 浜松市, 2019年9月6日).
Atsushi Ono, Hirofumi Morisawa, Masakazu Kikawada, Wataru Inami, and Yoshimasa Kawata, “Deep-UV plasmonics for enhanced fluorescence and photoelectron emission,” SPIE Optics +Photonics 2019, (San Diego, USA, Aug. 11th-15th, 2019).
Atsushi Ono, “Metal nano fabrication techniques for plasmonics applications,” International Workshop on Integrated Nanooptics & Nanophotonics, (Yokohama National University, Yokohama, Mar.14, 2019).
小野篤史, “フェムト秒レーザ光還元法による金属微細周期構造パターニング,” 第90回レーザ加工学会講演会, (産総研臨海副都心センター, 2018年12月10-11日).
Atsushi Ono, Seiya Toriyama, Masato Sumiyoshi, and Vygantas Mizeikis, “Nanofabrication fo metallic structures by femtosecond laser-induced photoreduction,” 11th International Conference on Photo-Excited Processes and Applications, (Vilnius, Lithuania, Sep. 10-14, 2018).
Atsushi Ono, Seiya Toriyama, Masato Sumiyoshi, and Vygantas Mizeikis, “Laser-induced fabrication of metallic nanostructure for plasmonic devices,” APLS2018, (Xian, China, May 28-31, 2018).
Atsushi Ono, “Fabrication techniques for metallic nanostructures and its applications to surface plasmon enhanced optical devices,” The 19th Takayanagi Kenjiro Memorial Symposium, (Shizuoka University, Hamamatsu, Nov. 21-22, 2017).
Atsushi Ono,Atsutaka Miyamichi,Hiroki Kamehama,Keiichiro Kagawa,Keita Yasutomi,Shoji Kawahito, “Multi-band plasmonic color filters with corrugated metallic thin film,” AOPC2017, (Beijing International Convention Center, Beijing, China, Jun. 4-6, 2017).
Atsushi Ono, Seiya Toriyama, Atsushi Sugita, Vygantas Mizeikis, Yoshimasa Kawata, “Plasmonic applications in polymer engineering,” 14th International Conference on Frontiers of Polymers and Advanced Materials, (Daejeon, Korea, Oct. 31-Nov. 4, 2016).
Atsushi Ono, Atsutaka Miyamichi, “Plasmonic Color Filter of Corrugated Metallic Thin Film,” The 37th PIERS in Shanghai, (PIERS Shanghai, China, Aug. 8-11, 2016).
Atsushi Ono, Atsutaka Miyamichi, “Plasmonic color filter of corrugated metallic thin film,” Progress In Electromagnetics Research Symposium (PIERS2016), (Shanghai, China, Aug. 8-11, 2016).
Atsushi Ono, Atsutaka Miyamichi, “Transmission characteristics of metallic ultra thin film for optical color filter,” Optics & Photonics Taiwan, International Conference 2015, (National Tsing Hua University, Hsinchu, Taiwan, Dec. 4-6, 2015).
Atsushi Ono,Naoya Shiroshita,Masakazu Kikawada,Wataru Inami,Yoshimasa Kawata, “Deep ultraviolet plasmonics for enhanced photoelectron emission,” Applied Optics and Photonics China 2015, (Beijing, China, May 5-7, 2015).
Atsushi Ono,Hiroaki Satoh,Hiroshi Inokawa, “Plasmonics for sensor applications,” 2nd Aisan Image Sensors and Imaging Systems Symposium, (Tokyo, Japan, Dec. 1-2, 2014).
Atsushi Ono, Seiya Toriyama, Vygantas Mizeikis, “Direct laser writing of metallic nano structures by femtosecond laser assisted photoreduction,” The 4th international conference on manipulation, manufacturing and measurement on the nanoscale, (Taipei, Taiwan, Oct. 27-31, 2014).
Atsushi Ono, Masakazu Kikawada, Rentaro Akimoto, Wataru Inami, and Yoshimasa Kawata, “Surface plasmon coupled fluorescence in deep-ultraviolet excitation”, EMN Fall Meeting 2013 (Florida, USA, Dec. 7-10, 2013).
小野篤史,”プラズモニクスを利用した光ナノ計測,” 大阪大学大学院生命機能研究科第84回研究交流会 (大阪大学,2012年12月5日).
Atsushi Ono, “Plasmonics devices for nano-resolution optical imaging,” Nano-S&T 2012 (Qindao, China, Oct. 26-28, 2012).
Atsushi Ono, Hiroaki Satoh, and Hiroshi Inokawa, “Plasmonics for enhanced performance of SOI photodiode,” 2012 Symposium on Nanovision Technology (Taipei, Taiwan, Oct. 19, 2012).
Atsushi Ono, Hiroaki Satoh, and Hiroshi Inokawa, “Plasmonics for enhanced performance of SOI photodiode,” 3rd International Conference on Photonics 2012 (Penang, Malaysia, Oct. 2, 2012).
Atsushi Ono, Masakazu Kikawada, Wataru Inami, Atsushi Sugita, and Yoshimasa Kawata, “Applied plasmonics based on Kretschmann configuration,” The 2nd International Conference on Frontiers of Plasmonics (Sichuan University, China, Apr. 10, 2012).
Atsushi Ono, Hiroki Sano, Wataru Inami, Keisuke Kato, and Yoshimasa Kawata, “Plasmonic nanofocusing by axicon-shape Kretschmann configuration,” 2011 Smart Nano+Micro Materials and Devices (Melbourne, Australia, Dec. 6, 2011).
Atsushi Ono, Jun-ichi Kato, and Satoshi Kawata, “Subwavelength Imaging through Metallic Nanorod Array,” 2006 MRS Spring Meeting (17-21 April 2006, San Francisco, USA).
新聞記事等
“超高分解能イメージングを実現する金属ナノレンズを提案 表面プラズモン現象利用” 科学新聞,2008年7月18日(金)第7面.
“ナノ分解能イメージングを実現する金属ナノレンズを世界で初めて提案” Laser Focus World JAPAN, p. 9, Jul. 2008.
“金属細線で高分解能 理研がナノレンズ提案” 岡山日日新聞, 2008年7月12日(土)第4面.
“ナノレベルの分解能を持つ新レンズ原理考案 微細金属ワイヤー束ねる” 化学工業日報, 2008年6月30日(月)第5面.
“ナノ分解能イメージングを実現する金属ナノレンズを世界で初めて提案 - レンズの常識を覆す -” 理研プレスリリース, 2008年6月26日.link
“ナノサイズの金属がレンズに” Newton, p. 112, Mar. 2006.
“金属ナノ構造と光の相互作用で実現” 日刊工業新聞, 2006年3月2日(木)第27面.
“金属ナノ構造による新しいナノ観察用レンズ” O plus E, Vol. 28, No. 2, p. 133, Feb. 2006.
“理研, 金属ナノ構造によるイメージング技術を開発” OPTRONICS, p. 79, Feb. 2006.
“理研が金属ナノ構造による光ナノイメージング技術を確立” Laser Focus World JAPAN, p. 10, Jan. 2006.
“微細構造を鮮明に画像化” 読売新聞, 2006年1月11日(水)第25面
“ナノの世界よく見える” 毎日新聞(夕刊), 2006年1月5日(木)第10面
“光学系でナノメートルの分解能 理研が世界初” 科学新聞, 2006年1月1日(日)第1面
“ナノクラス解像度の金属ナノレンズ” 化学工業日報, 2005年12月22日(木)第11面
“理研が光イメージング技術: 金属ナノ構造でレンズ” 日刊工業新聞, 2005年12月22日(木)第21面
“金属ナノ構造による光ナノイメージング技術を世界で初めて確立 - 表面プラズモンイメージング素子開発へ -” 理研プレスリリース, 2005年12月21日.link