Meta-optics for multi-dimensional, high-sensitivity optical sensing technology
Our goal is to develop a new platform that enables humans and machines to easily access a wide variety of optical information by creating multi-dimensional, high-sensitivity optical sensing technology based on meta-optics.
Awards
- Optics Awards 2022 for excellent papers, The Optical Society of Japan (2022)
- Young Scientist Presentation Award, The Japan Society of Applied Physics (2013)
Academic Activities
- The Japan Society of Applied Physics, Photonics Division, Secretary (2023-2025)
- The journal of The Institute of Electronics, Information and Communication Engineers, Editor (2020-2022)
Publications
Papers
- Masashi Miyata, Ikue Hiraoka, Yuki Yamada, Fumito Nakajima, and Toshikazu Hashimoto, "Anti-reflection coating for all-semiconductor metasurface optical elements," Optics Express, 32 (27), 48943-48956 (2024).
- Masashi Miyata, "High-sensitivity color image sensor with full-color-sorting metalenses," JSAP Review 2024, 240408 (2024).
- Masashi Miyata, "Dispersion-engineered metasurfaces for high-sensitivity color image sensors," Optical Review 31, 290-298 (2024).
- Masashi Miyata, Akihiro Kohno, Takeshi Komatsu, and Toshikazu Hashimoto, "Scalable direct printing of visible-light metasurfaces composed of an industrial ZrO2-composite imprint material," Optical Materials Express 12 (10), 4169-4181 (2022).
- Masashi Miyata, Naru Nemoto, Kota Shikama, Fumihide Kobayashi, and Toshikazu Hashimoto, "Full-color-sorting metalenses for high-sensitivity image sensors," Optica 8 (12), 1596-1604 (2021).
- Masashi Miyata, Mitsumasa Nakajima, and Toshikazu Hashimoto, "Compound-eye metasurface optics enabling a high-sensitivity, ultra-thin polarization camera," Optics Express 28 (7), 9996-10014 (2020).
- Masashi Miyata, Mitsumasa Nakajima, and Toshikazu Hashimoto, "High-sensitivity color imaging using pixel-scale color splitters based on dielectric metasurfaces," ACS Photonics 6 (6), 1442-1450 (2019).
- Masashi Miyata, Mitsumasa Nakajima, and Toshikazu Hashimoto, "Impedance-matched dielectric metasurfaces for non-discrete wavefront engineering," Journal of Applied Physics 125 (10), 103106 (2019).
- Masashi Miyata, Akira Kaijima, Yusuke Nagasaki, and Junichi Takahara, "Electromechanically tunable plasmonic nanowires operating in visible wavelengths," ACS Photonics 3 (12), 2268-2274 (2016).
- Masashi Miyata, Hideaki Hatada, and Junichi Takahara, "Full-color subwavelength printing with gap-plasmonic optical antennas," Nano Letters 16 (5), 3166-3172 (2016).
- Masashi Miyata, Aaron Holsteen, Yusuke Nagasaki, Mark L. Brongersma, and Junichi Takahara, "Gap plasmon resonance in a suspended plasmonic nanowire coupled to a metallic substrate," Nano Letters 15 (8), 5609-5616 (2015).
- Masashi Miyata, Jumpei Hirohata, Yusuke Nagasaki, and Junichi Takahara, "Multi-spectral plasmon induced transparency via in-plane dipole and dual-quadrupole coupling," Optics Express 22 (10), 11399-11406 (2014).
- Masashi Miyata and Junichi Takahara, "Colloidal quantum dot-based plasmon emitters with planar integration and long-range guiding," Optics Express 21 (7), 7882-7890 (2013).
- Masashi Miyata and Junichi Takahara, "Excitation control of long-range surface plasmons by two incident beams," Optics Express 20 (9), 9493-9500 (2012).
- Masashi Miyata and Junichi Takahara, "Field enhancement by longitudinal compression of plasmonic slow light" Journal of Applied Physics 111 (5), 053102 (2012).
Keywords
Metasurface, Metamaterial, Plasmonics, Computational imaging, Machine learning