Session Details
[9a-PA4-1~34]3.11 Nanoscale optical science and near-field optics
Wed. Sep 9, 2026 11:00 AM - 12:30 PM JST
Wed. Sep 9, 2026 2:00 AM - 3:30 AM UTC
Wed. Sep 9, 2026 2:00 AM - 3:30 AM UTC
PA4 (1st Gymnasium)
[9a-PA4-1]Quantum-Classical Hybrid Theory of Superfluorescence with Stimulated Emission
〇Yuki Numada1, Kensuke Miyajima2, Akira Ishikawa1 (1.Univ. of Yamanashi, 2.Tokyo Univ. of Sci.)
[9a-PA4-2]Emission and Lasing Properties of Transition Metal Dichalcogenide Optical Resonators
〇Fumina Shiozawa1, Keisuke Imaeda2, Sou Ryuzaki2, Kosei Ueno2 (1.Grad. Sch. Chem. Sci. and Eng., Hokkaido Univ., 2.Fac. Sci., Hokkaido Univ.)
[9a-PA4-3]Size-Dependent Mie Resonance Coupling in Spherical TiO2 Nanoparticles
〇(D)Kanto Maeda1, Izzah Machfuudzoh1, Sotatsu Yanagimoto1, Takumi Sannomiya1, Taka-aki Yano2 (1.Science Tokyo, 2.Tokushima Univ.)
[9a-PA4-4]Analysis of rRectification property control of mechanism in MIM tunneling diode with metal nanoparticles for optical rectenna
〇(M1)Shun Inoue1, Chitose Yasuhara1, Zhen Liu1, Hiroo Yugami1, Makoto Shimizu1 (1.Tohoku Univ.)
[9a-PA4-5]Stochastic Behavior of Local Photoisomerization in Photochromic Microcrystals
〇Akinobu Mochizuki1, Koyo Ueno1, Kingo Uchida2, Hirokazu Hori1, Kazuharu Uchiyama1 (1.Univ. of Yamanashi, 2.Ryukoku Univ)
[9a-PA4-6]Fabrication of Photochromic Microcrystal Arrays forOptoelectronic Structures via Nano-photoisomerization
〇(M1)Koyo Ueno1, Rui Ishiguro1, Kingo Uchida2, Hirokazu Hori1, Kazuharu Uchiyama1 (1.Yamanashi Univ., 2.Ryukoku Univ.)
[9a-PA4-7]Synthesis and localized surface plasmon resonance properties of C1-structured AuIn2 nanoparticles
〇Masaki Wada1, Haruka Takekuma1,2, Toshiharu Teranishi1,2 (1.Grad. Sch. of Sci., Kyoto Univ., 2.ICR, Kyoto Univ.)
[9a-PA4-8]Electromagnetic Field Enhancement in Hybrid Plasmon Structures
〇YIXUAN YANG1, Yukiko Yasukawa1 (1.Chiba Tech.)
[9a-PA4-9]Magneto-optical responses of surface plasmon elements in Otto configuration
〇Haruki Yamane1, Jiaxiang Liu2, Takashi Hasegawa2 (1.AITC, 2.Akita Univ.)
[9a-PA4-10]Functional ITO Electrodes for Infrared Photothermal Conversion Based on Surface Plasmon Resonance
〇Noriyuki Hasuike1, Daisei Hanaoka1 (1.Kyoto Inst. of Tech.)
[9a-PA4-11]Elucidating the Relationship between 3D Crystal Structural Order and Plasmon Resonance using DNA-functionalized Nanoparticle Superlattices
〇(M2)Nonoko Nagasaka1, Saki Kozawa1, Taito Ikeuchi1, Lidong Zhang1, Satoshi Ogawa2, Makoto Kuwahara2, Xu Li2, Miho Tagawa2 (1.Graduate School of Eng., Nagoya Univ., 2.IMaSS, Nagoya Univ.)
[9a-PA4-12]Control of Electrochemical CO2 Reduction Reactions using Plasmon-Enhanced Mid-Infrared Pulses
〇Ikki Morichika1, Samuel Jeong2, Naoki Ichiji3, Hiroki Uratani4, Yoshikazu Ito2, Satoshi Ashihara1 (1.IIS, The Univ. of Tokyo, 2.Univ. of Tsukuba, 3.NIMS, 4.Kyoto Univ.)
[9a-PA4-13]Colloidal synthesis of chiral Au@MnO2@Ag nanoparticles by circularly polarized light irradiation
〇koichiro saito1, Yoshie Ishikawa1 (1.AIST)
[9a-PA4-14]Evaluation of plasmonic response changes accompanying thermal expansion in liquid Sn nanoparticles
〇Yamato Kirii1, Wakaba Yamamoto2, Natsuki Miyauchi2, Akira Yasuhara2, Takumi Sannomiya1 (1.Science Tokyo, 2.JEOL)
[9a-PA4-15]Optical Tweezer-Assisted Formation of Polymer Droplets on Solid Si Nanostructures and the Extraction and Highly Sensitive Detection of Fluorescent Molecules
〇(M1)Reiko Amano1, Reika Fukumitsu1, Kimiko Kanazawa1, Kenichi Yuyama1, Yasuyuki Tsuboi1 (1.Osaka Metropolitan Univ.)
[9a-PA4-16]Evaluation of Temperature Dependence of Plasmon-Boosted Cooperative Emission in InGaN/GaN Multiple Quantum Wells
〇Shun Ito1, Atsushi Okada1, Shunsuke Murai1, Tetsuya Matsuyama1, Kenji Wada2, Mitsuru Funato3, Yoichi Kawakami3, Koichi Okamoto1 (1.Osaka Metro. Univ., 2.OShaRE, 3.Kyoto Univ.)
[9a-PA4-17]Al2O3-Protected NHoM Structures: Improved Durability and Anomalous Optical Characteristics
〇Ikuto Toyota1, Kota Yamasaki1, Shun Fukutomi1, Tetsuya Matsuyama1, Shunsuke Murai1, Kenji Wada2, Koichi Okamoto1 (1.Osaka Metro. Univ., 2.OShaRE)
[9a-PA4-18]Bayesian Optimization-Based Exploration of High PL Enhancement Conditions in Ag Random Nanograin Structures
〇Haruki Hirauchi1, Atsushi Okada1, Shunsuke Murai1, Tetsuya Matsuyama1, Kenji Wada2, Hiroyoshi Naito1,3, Koichi Okamoto1 (1.Osaka Metro. Univ., 2.OShaRE, 3.Ritsumeikan Univ.)
[9a-PA4-19]FDTD Analysis of Nano-Gap Modes in Ag Nano-Hemisphere on Mirror
〇Shun Fukutomi1, Kota Yamasaki1, Ikuto Toyota1, Tetsuya Matsuyama1, Shunsuke Murai1, Kenji Wada2, Koichi Okamoto1 (1.Osaka Metro. Univ., 2.OShaRE)
[9a-PA4-20]Giant Enhancement of Second-Harmonic Generation with Preserved Valley Properties
in Monolayer MoS2 on Metal-Insulator Nanocavity Substrates
〇Ryoichi Sakata1,2, Keisuke Shinokita1,2 (1.IMS, 2.SOKENDAI)
[9a-PA4-21]Bubble Generation Utilizing Photothermal Conversion Characteristics of Si Nanodots
〇Tomoya Takiuchi1, Mikael Kaell2, Khosro Zangeneh Kamali2, Kyoko Namura1, Motofumi Suzuki1 (1.kyoto Univ., 2.Chalmers University of Technology.)
[9a-PA4-22]Visible to Near-IR Thermal Radiation Control via Toroidal Dipole Resonance in Silicon Nanodisk Arrays
〇(B)Shota Hosoi1, Kono Shintaro1, Sugimoto Hiroshi1, Fujii Minoru1 (1.Kobe Univ.)
[9a-PA4-23]Structural Colors by Silicon Nanoparticle Multilayers
〇(M1)Yuma Watanabe1, Jialu Song1, Hiroshi Sugimoto1, Minoru Fujii1 (1.Kobe Univ.)
[9a-PA4-24]Nanostructure–Chiral Matter Interactions Analysis with Electromagnetic Coupling Coefficients
〇(D)HIROKI KASAI1, Mojtaba Karimi Habil1, Hiroshi Sugimoto1, Minoru Fujii1 (1.Kobe Univ)
[9a-PA4-25]Time-Dependent Interaction between [AuCl4]- and Cysteine for the Electrochemical Synthesis of Chiral Plasmonic Gold Nanostructures for Chiral Sensing by SERS
〇(B)Tianji Zhang1, Junhe Wang1, Yuta Shiga1, Olga Guselnikova2, Takuya Nakanishi1, Yusuke Yamauchi2,3,4, Toru Asahi1, Kenta Nakagawa1 (1.Waseda Univ., 2.NIMS, 3.Nagoya Univ., 4.Univ. of Queensland)
[9a-PA4-26]Role of Au-glutathione Coordination Species in the Formation of Chiral Au Nanostructures and Enantioselective SERS Sensing
〇(D)Junhe WANG1, Tianji Zhang1, Takuya Nakanishi1, Yusuke Yamauchi2,3,4, Toru Asahi1, Kenta Nakagawa1 (1.Waseda University, 2.Nagoya University, 3.University of Queensland, 4.NIMS)
[9a-PA4-27]Design of Mode Converter Metasurface Based on the Direct Backpropagation method
〇Atsushi Kibune1, Masaki Okamoto1, Tianji Zhang1, Yasufumi Yamada2, Takeshi Sugiura3, Shiei Kusajima3, Toru Asahi1,2,4, Kenta Nakagawa2 (1.Waseda Univ., 2.Comp. Res. Org., Waseda Univ., 3.OPTORUN Co., Ltd., 4.Nano & Life, Waseda Univ.)
[9a-PA4-28]Design, Fabrication, and Coupling Efficiency Evaluation of Metalenses
for Optical Communication Bands
〇(D)Masaki Okamoto1, Atsushi Kibune1, Shodai Hasebe2, Yasufumi Yamada2, Takeshi Sugiura3, Shiei Kusajima3, Toru Asahi1,2,4, Kenta Nakagawa2 (1.Waseda Univ., 2.Waseda Univ ., 3.OPTORUN Co., Ltd., 4.Waseda Univ .)
[9a-PA4-29]Chromatic Dispersion Control in Meta-Lenses Based on Hole-Type Meta-Atoms
〇Masaki Iwama1 (1.Konicaminolta)
[9a-PA4-30]Near Perfect Chiral Absorption in All Dielectric Metasurfaces Enabled by Bound States in the Continuum
〇(D)Yaokai Tian1, Junichi Takahara1,2 (1.Univ. of Osaka, 2.Photonics Center)
[9a-PA4-31]Fundamental Study for a Development of Reflectarray for Millimeter-Wave and Terahertz-Wave Applications Using High-Permittivity Materials
〇Hirokatsu Sekine1, Tatsunosuke Matui1 (1.Mie Univ.)
[9a-PA4-32]Design of Kink-induced Nanowire type Chiral Metasurface exhibiting Visible Light Transmittance Circular Dichroism.
〇Mizuki Murakami1, Shintaro Toda2 (1.Grad.Sch.of Eng. The Univ. of Osaka, 2.ULVAC, inc)
[9a-PA4-33]One-way transparency by the interplay between two resonators
〇Minato Ishida1, Hiroyuki Kurosawa1, Tetsuya Ueda1 (1.Kyoto Inst Tech.)
[9a-PA4-34]Computer simulation of second-harmonic generation under backward quasi-phase-matching conditions in a metamaterial consisting of a stack of films containing single-gap split-ring resonators
〇Taisho Tokuda1, Toshihiro Okamoto2, Masanobu Haraguchi2 (1.Grad. Sch. Sci. Tech. Innov. Tokushima Univ., 2.pLED Tokushima Univ.)
