Session Details
[24a-P06-1~17]3.11 Nanoscale optical science and near-field optics (formerly 3.12)
Sun. Mar 24, 2024 9:30 AM - 11:30 AM JST
Sun. Mar 24, 2024 12:30 AM - 2:30 AM UTC
Sun. Mar 24, 2024 12:30 AM - 2:30 AM UTC
P06 (Building No. 9)
[24a-P06-1]Characterization of a highly tunable plasmonic Au nanopillar array towards sensing applications
〇(PC)Jessiel Siaron Gueriba1, Hidenori Nagai1, Satoshi Fujita1, Eiichi Tamiya1,2 (1.AIST, 2.Osaka Univ.)
[24a-P06-2]Refractive index detection using highly lossy Ni/SiO2/Cr-subwavelength grating structure
〇Yuusuke Takashima1,2, Kentaro Nagamatsu1,2, Masanobu Haraguchi1,2, Yoshiki Naoi1,2 (1.Tokushima Univ., 2.pLED, Tokushima Univ.)
[24a-P06-3]Resonant sharpness narrowing in deep ultraviolet region using AlN subwavelength grating on high refractive index substrate
〇(DC)Yua Okano1, Yuusuke Takashima1,2, Kentaro Nagamatsu1,2, Masanobu Haraguchi1,2, Yoshiki Naoi1,2 (1.Tokushima Univ., 2.pLED, Tokushima Univ.)
[24a-P06-4]High-Throughput Screening of Heat-Shielding Nanoparticle-Based Carrier-Doped Semiconductors
〇Tomohiro Yoshida1 (1.Sumitomo Metal Mining)
[24a-P06-5]Plasmonic Properties of Gold Nanoparticle Dimers Controlled via Electrochemical Surface Oxidation
〇Hiroyasu Nishi1, Higashi Yuki1, Saitou Manaka1 (1.Univ. of Toyama)
[24a-P06-6]Conductivity Characteristics of Plasmon-Porphyrin Strong Coupling Systems
〇(B)Sogo Akita1, Hiroki Takeuchi2, Keisuke Imaeda3, Sou Ryuzaki3, Kousei Ueno3 (1.Sch. Sci., Hokkaido Univ., 2.Grad. Sch. Chem. Sci. and Eng., Hokkaido Univ., 3.Dept. Chem., Fac. Sci., Hokkaido Univ.)
[24a-P06-7]Surface Plasmon Resonance in ITO Grating Coupler Fabricated by the Combination of Thermal Nanoimprint Lithography and Reactive Plasma Deposition
〇Noriyuki Hasuike1, Takeshi Maeda1, Yugo Okada2, Makoto Maehara2, Kimio Kinoshita2, Minoru Takeda1 (1.Kyoto Inst. Tech., 2.Sumitomo Heavy Industries, Ltd.)
[24a-P06-8]Excitation of broadband infrared SPP waves by dielectric phase plate structure
〇Naoki Ichiji1, Satoshi Ashihara1 (1.Tokyo Univ. IIS)
[24a-P06-9]Rotational optical torque of a sab-shell structure induced by optical vortex excited LPR (II)
〇Yuto Fujita1, Daisuke Tanaka1 (1.NIT, Oita College)
[24a-P06-10]Relationship between optical vortex-excited LPR properties and size, symmetricity, inhomogeneity of metal or MIM nanodisks
〇Daisuke Tanaka1, Kiichi Hamamoto2, Haisong Jiang2, Tien Thanh Pham3, Dang Quang Huy Nguyen3 (1.NIT, Oita College, 2.Kyushu Univ., 3.Vietnam-Japan Univ.)
[24a-P06-11]Circular Dichroism for Broadband Visible Light Region by using Al plasmonic chiral metasurface
〇(M1)Ryune Fukushi1, Kazumasa Hiramatsu1, Atsushi Motogaito1 (1.Mie Univ.)
[24a-P06-12]Chiral Optical Properties of Asymmetric Silver Nanostructures on Mirror
〇Hironori Kaneshige1, Ryohei Hatsuoka1, Rei Niguma1, Tetsuya Matsuyama1, Kenji Wada1, Koichi Okamoto1 (1.Osaka Metropolitan Univ.)
[24a-P06-13]Plasmon Mode Dependence and Their Steric Properties of Optical Chiral Fields near Gold Nanorectrangles
〇Riku Kasahara1, Seiju Hasegawa1, Kohei Imura1 (1.Waseda Univ.)
[24a-P06-14]Theory of nonreciprocal electromagnetic force on a nanoparticle with magnetism and chirality
〇Hiroyuki Kurosawa1 (1.KIT)
[24a-P06-15]Design of Thin Film Metamaterial Absorber for 2.4 GHz
Tomoki Narita1, Sho Yoshikawa1, 〇Tatsunosuke Matsui1 (1.Mie Univ.)
[24a-P06-16]Control of Au nanoparticle dimer gap mediated by different monovalent cation
〇Keiko Esashika1, Toshiharu Saiki1 (1.Keio. Univ.)
[24a-P06-17]Super-Resolution Imaging of Amyloid Fibrils by Near-Field Infrared Absorption Spectroscopy with Wavelength Swept Quantum Cascade Laser
〇(M1)Yuta Hamada1, Toshiaki Hirose1, Tatsuo Dougakiuchi2, Gen Takebe2, Yoichi Kawada2, Yoshimasa Kawata1, Atsushi Ono1 (1.Shizuoka Univ., 2.Hamamatsu Photonics K.K.)