2021年第68回応用物理学会春季学術講演会

講演情報

一般セッション(口頭講演)

3 光・フォトニクス » 3.12 ナノ領域光科学・近接場光学

[18p-Z08-1~18] 3.12 ナノ領域光科学・近接場光学

2021年3月18日(木) 13:00 〜 18:00 Z08 (Z08)

松井 裕章(東大)、藤井 稔(神戸大)、杉田 篤史(静大)

13:00 〜 13:15

[18p-Z08-1] [講演奨励賞受賞記念講演] 光メタフルイドの実現へ向けたシリコンナノ粒子溶液の開発

雛本 樹生1、堀田 慎之介1、杉本 泰1,2、藤井 稔1 (1.神戸大院工、2.JSTさきがけ)

キーワード:ミー共鳴、メタマテリアル、負の屈折率

Meta-atoms that support magnetic and electric dipoles at visible frequencies are key building-blocks for optical metamaterials. Recently liquid-type metamaterials, solutions in which meta-atoms are dispersed, are proposed as metafluids. In contrast to solid-state metamaterials, the liquid metamaterials can be applied to solution-phase spectroscopy and optofluidic devices to enhance signals and/or offer advanced functionalities. As a component of liquid metamaterials, a plasmonic meta-atom composed of silica core decorated with metal nanoparticles have been studied so far; however, the magnitude of the magnetic dipole (MD) is weaker than that of the electric dipole (ED) on the plasmonic meta-atom. Here we propose silicon nanospheres as a novel meta-atom that can be dispersed in solution such as water and alcohol. The silicon nanospheres exhibit strong resonant scattering by Mie-type ED and MD resonances. We show that the silicon nanosphere colloid can control effective refractive index in a wide range and are an excellent candidate for metafluids because of advantages such as low-loss, simple symmetric structure, and strong optical magnetism.