Достижения в разработке плазмонных волноводных датчиков для измерения показателя преломления

Автор: Казанский Николай Львович, Бутт Мухаммед Али, Дегтярев Сергей Александрович, Хонина Светлана Николаевна

Журнал: Компьютерная оптика @computer-optics

Рубрика: Дифракционная оптика, оптические технологии

Статья в выпуске: 3 т.44, 2020 года.

Бесплатный доступ

Оптические датчики широко используются в биомедицинской, химической и пищевой промышленности и обеспечивают высокую чувствительность к изменениям показателя преломления в окружающей среде благодаря специфическому распределению электромагнитного поля собственных мод (резонансных состояний). Чувствительность датчика сильно зависит от его материала и структуры. В этом обзоре мы сосредоточились на анализе кремниевых волноводов как перспективном компоненте миниатюризации оптических датчиков и плазмонных датчиках показателя преломления без флуоресцентной маркировки. Представлены новейшие разработки специальных типов плазмонных структур, таких как волноводы металл-изолятор-металл, и их применение в датчиках показателя преломления. Анализируются многочисленные типы плазмонных волноводов, их геометрические структуры, материалы и процессы изготовления, а также возможные энергетические потери. Важной частью обзора является обсуждение спектральных характеристик недавно предложенных датчиков показателя преломления с акцентом на их чувствительность и показатели качества.

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Плазмонные волноводы, структуры металл-диэлектрик-металл, резонансы лоренца и фано, датчики показателя преломления

Короткий адрес: https://sciup.org/140249994

IDR: 140249994 | DOI: 10.18287/2412-6179-CO-743

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