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OPTICAL RESONATORS AND FILTERS

2004; World Scientific; Linguagem: Inglês

10.1142/9789812565730_0001

1793-1002

H. A. Haus, Miloš A. Popović, Michael R. Watts, Christina Manolatou, Brent E. Little, Sai T. Chu,

Photonic Crystals and Applications

Advanced Series in Applied PhysicsOptical Microcavities, pp. 1-37 (2004) No AccessOPTICAL RESONATORS AND FILTERSHermann A. Haus, Miloš A. Popović, Michael R. Watts, Christina Manolatou, Brent E. Little and Sai T. ChuHermann A. HausResearch Laboratory of Electronics, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts, USA, Miloš A. PopovićResearch Laboratory of Electronics, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts, USA, Michael R. WattsResearch Laboratory of Electronics, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts, USA, Christina ManolatouResearch Laboratory of Electronics, Massachusetts Institute of Technology, 77 Massachusetts Avenue, Cambridge, Massachusetts, USA, Brent E. LittleLittle Optics, Inc., 9020 Junction Drive, Annapolis Junction, Maryland, USA and Sai T. ChuLittle Optics, Inc., 9020 Junction Drive, Annapolis Junction, Maryland, USAhttps://doi.org/10.1142/9789812565730_0001Cited by:8 PreviousNext AboutSectionsPDF/EPUB ToolsAdd to favoritesDownload CitationsTrack CitationsRecommend to Library ShareShare onFacebookTwitterLinked InRedditEmail Abstract: Dielectric optical resonators of small size are considered for densely-integrated optical components. High-index-contrast microresonators of low Q are shown, using microwave design principles, to permit wavelength-sized, low-loss, reflectionless waveguide bends and low-crosstalk waveguide crossings. The analysis and synthesis of high Q high-order microring- and racetrack-resonator channel add/drop filters are reviewed, supplemented by simulation examples. Standing-wave, distributed Bragg resonator filters are also described. The study is unified by a coupled-mode theory approach. Rigorous numerical simulations are justified for the design of high-index-contrast optical "circuits". Integrated-optical components are described within a polarization-diversity scheme that circumvents the inherent polarization dependence of high-index-contrast devices. Filters fabricated in academic and commercial research, and a review of microring resonator technology, advances and applications are presented. FiguresReferencesRelatedDetailsCited By 8An All-MRR-Based Photonic Spiking Neural Network for Spike Sequence LearningYanan Han, Shuiying Xiang, Yuna Zhang, Shuang Gao and Aijun Wen et al.20 February 2022 | Photonics, Vol. 9, No. 2Hyperuniform disordered metal-insulator-metal gap plasmon metasurface near perfect light absorberWonkyu Kim, Blake S. Simpkins, Hong Guo, Joshua R. Hendrickson and Junpeng Guo29 November 2021 | Optical Materials Express, Vol. 11, No. 12Silicon Photonics High-Order Distributed Feedback Resonators FiltersClaudio Porzi, Graham J. Sharp, Marc Sorel and Antonella Bogoni1 Feb 2020 | IEEE Journal of Quantum Electronics, Vol. 56, No. 1An optical channel modeling of a single mode fiberNeda Nabavi, Peng Liu and Trevor James Hall12 January 2018 | Journal of Modern Optics, Vol. 65, No. 9Characterization of Microring Filters for Differential Group Delay ApplicationsDavid Domenech, Pedro Chamorro-Posada, Francisco J. Fraile-Pelaez, Maria Jose Erro and Santiago Tainta Ausejo et al.15 Jul 2017 | Journal of Lightwave Technology, Vol. 35, No. 14Repeated passing principle for propagation in optical resonatorsTatjana P. Keča, William R. Headley, Goran Z. Mashanovich and Petar S. Matavulj13 February 2016 | Optical Review, Vol. 23, No. 2Slow and Stopped Light in Coupled Resonator SystemsShanhui Fan, Sunil Sandhu, Clayton R. Otey and Michelle L. Povinelli10 March 2010Ruby microsphere and liquid cyrstal based tunable optical filterErsin Huseyinoglu, Mohammed S. Murib, Ali Serpenguzel and Romeo Beccherelli1 Oct 2009 Optical MicrocavitiesMetrics History PDF download