Silicon photonics has found a profound place among emerging technologies in the past few decades due to several advantages. Due to a series of breakthroughs and increased funding from private and government sectors, the development of silicon photonics has accelerated especially starting from the two years 2004-2005 with a persisting and ever-growing momentum. Among various components, the silicon photonic filters that selectively pass or block particular wavelengths with a finite bandwidth have found particular interest as they are useful in signal processing in different fields ranging from optical communication to microwave photonics and quantum photonics. Herein, a comprehensive review of silicon photonic filters focusing on the four most commonly used architectures, such as microring resonators, waveguide Bragg grating, Mach-Zehnder interferometers, and arrayed waveguide grating, encapsulating basics, and guidelines, in terms of simulating tools and topologies, of realizing reconfigurable and high-performing filters for several applications, is provided. The novelty of this review relies on the fact that it summarizes these filter architectures covering a broad range of applications concisely and constructively and includes the basics, growth, and future trends, providing a clear understanding and importance of silicon photonic filters from research to commercialization perspective.The proposed review summarizes the principle of silicon photonic filtering, from the modeling strategies to the target applications, relating this analysis to the silicon photonics market growth. Particularly, the simulation approaches, the tuning mechanism, and the filtering elements are investigated with a view of trending market sectors, such as microwave photonics and quantum communications.image (c) 2024 WILEY-VCH GmbH
Silicon Photonic Filters: A Pathway from Basics to Applications / Saha, Nabarun; Brunetti, Giuseppe; di Toma, Annarita; Armenise, Mario Nicola; Ciminelli, Caterina. - In: ADVANCED PHOTONICS RESEARCH. - ISSN 2699-9293. - (2024). [10.1002/adpr.202300343]
Silicon Photonic Filters: A Pathway from Basics to Applications
Saha, Nabarun;Brunetti, Giuseppe;di Toma, Annarita;Armenise, Mario Nicola;Ciminelli, Caterina
2024-01-01
Abstract
Silicon photonics has found a profound place among emerging technologies in the past few decades due to several advantages. Due to a series of breakthroughs and increased funding from private and government sectors, the development of silicon photonics has accelerated especially starting from the two years 2004-2005 with a persisting and ever-growing momentum. Among various components, the silicon photonic filters that selectively pass or block particular wavelengths with a finite bandwidth have found particular interest as they are useful in signal processing in different fields ranging from optical communication to microwave photonics and quantum photonics. Herein, a comprehensive review of silicon photonic filters focusing on the four most commonly used architectures, such as microring resonators, waveguide Bragg grating, Mach-Zehnder interferometers, and arrayed waveguide grating, encapsulating basics, and guidelines, in terms of simulating tools and topologies, of realizing reconfigurable and high-performing filters for several applications, is provided. The novelty of this review relies on the fact that it summarizes these filter architectures covering a broad range of applications concisely and constructively and includes the basics, growth, and future trends, providing a clear understanding and importance of silicon photonic filters from research to commercialization perspective.The proposed review summarizes the principle of silicon photonic filtering, from the modeling strategies to the target applications, relating this analysis to the silicon photonics market growth. Particularly, the simulation approaches, the tuning mechanism, and the filtering elements are investigated with a view of trending market sectors, such as microwave photonics and quantum communications.image (c) 2024 WILEY-VCH GmbHI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.