Tunable optical materials for multi-resonant plasmonics: from TiN to TiON
A Kharitonov, S Kharintsev - Optical Materials Express, 2020 - opg.optica.org
Alternative plasmonic materials are gaining more and more interest since they deliver a
plethora of advantages in designing of optical metadevices. Among other alternatives …
plethora of advantages in designing of optical metadevices. Among other alternatives …
[HTML][HTML] Thin conducting films: preparation methods, optical and electrical properties, and emerging trends, challenges, and opportunities
Thin conducting films are distinct from bulk materials and have become prevalent over the
past decades as they possess unique physical, electrical, optical, and mechanical …
past decades as they possess unique physical, electrical, optical, and mechanical …
Titanium nitride as a plasmonic material from near-ultraviolet to very-long-wavelength infrared range
Titanium nitride is a well-known conductive ceramic material that has recently experienced
resumed attention because of its plasmonic properties comparable to metallic gold and …
resumed attention because of its plasmonic properties comparable to metallic gold and …
[图书][B] Thin film coatings: properties, deposition, and applications
Thin Film Coatings: Properties, Deposition, and Applications discusses the holistic subject of
conventional and emerging thin film technologies without bias to a specific technology …
conventional and emerging thin film technologies without bias to a specific technology …
Ultrafast dynamics and mechanism of structure formation in titanium nitride upon femtosecond laser irradiation for plasmonic enhanced photothermal effect
Femtosecond laser has great potential in controlling the surface structure of titanium nitride
(TiN) to promote plasmonic photothermal effect. Studying the mechanism of femtosecond …
(TiN) to promote plasmonic photothermal effect. Studying the mechanism of femtosecond …
Laser-synthesized TiN-based nanoparticles as novel efficient electrostatic nanosorbent for environmental water cleaning
AV Syuy, IV Martynov, IA Zavidovskiy, DV Dyubo… - Physica …, 2024 - iopscience.iop.org
Dyes used in industries such as textile, paper, and leather are known to be harmful to both
human health and aquatic ecosystems, which makes critically important the search of …
human health and aquatic ecosystems, which makes critically important the search of …
Laser-synthesized TiN nanoparticles as novel efficient sorbent for environmental water cleaning
AV Syuy, IV Martynov, IA Zavidovskiy… - arXiv preprint arXiv …, 2024 - arxiv.org
Dyes used in industries such as textile, paper, and leather are known to be harmful to both
human health and aquatic ecosystems. Therefore, finding effective and sustainable methods …
human health and aquatic ecosystems. Therefore, finding effective and sustainable methods …
Broadband Plasmonics with Titanium Oxynitride
AV Kharitonov, SS Kharintsev - Bulletin of the Russian Academy of …, 2022 - Springer
Electromagnetic phenomena accompanying plasmon resonances underpin a rich diversity
of photonic devices. Noble metals have long constituted a material platform for plasmonics …
of photonic devices. Noble metals have long constituted a material platform for plasmonics …
Эффекты усиления вынужденного комбинационного рассеяния света в средах с близким к нулю показателем преломления
АР Газизов, АВ Харитонов… - Письма в Журнал …, 2021 - mathnet.ru
Материалы с близким к нулю показателем преломления открывают новые
возможности для усиления нелинейно-оптических взаимодействий. Это позволяет …
возможности для усиления нелинейно-оптических взаимодействий. Это позволяет …
Усиление кубической нелинейности в средах с близкой к нулю диэлектрической проницаемостью: невырожденный оптический эффект Керра
АВ Харитонов, АР Газизов… - Письма в Журнал …, 2021 - mathnet.ru
Нелинейные среды, у которых диэлектрическая проницаемость ε может быть
уменьшена до квазинулевых значений, позволяют дополнительно усилить нелинейно …
уменьшена до квазинулевых значений, позволяют дополнительно усилить нелинейно …