Active Integrated Filters for RF-Photonic Channelizers
Autor: | Mieczyslaw K. Dabkowski, Louis R. Hunt, Tim LaFave, Duncan L. MacFarlane, Marc P. Christensen, Ke Liu, Viswanath Ramakrishna, Amr El Nagdi |
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Rok vydání: | 2011 |
Předmět: |
Optics and Photonics
Frequency response Materials science Radio Waves active filters lcsh:Chemical technology Band-stop filter Biochemistry Article Analytical Chemistry Band-pass filter Electronic engineering Microelectronics Computer Simulation lcsh:TP1-1185 Electrical and Electronic Engineering Instrumentation Active filter business.industry Filter (signal processing) Models Theoretical Chip Atomic and Molecular Physics and Optics Nanostructures four-port coupler state space representation photonic channelizer Photonics business |
Zdroj: | Sensors, Vol 11, Iss 2, Pp 1297-1320 (2011) Sensors Volume 11 Issue 2 Pages 1297-1320 Sensors (Basel, Switzerland) |
ISSN: | 1424-8220 |
DOI: | 10.3390/s110201297 |
Popis: | A theoretical study of RF-photonic channelizers using four architectures formed by active integrated filters with tunable gains is presented. The integrated filters are enabled by two- and four-port nano-photonic couplers (NPCs). Lossless and three individual manufacturing cases with high transmission, high reflection, and symmetric couplers are assumed in the work. NPCs behavior is dependent upon the phenomenon of frustrated total internal reflection. Experimentally, photonic channelizers are fabricated in one single semiconductor chip on multi-quantum well epitaxial InP wafers using conventional microelectronics processing techniques. A state space modeling approach is used to derive the transfer functions and analyze the stability of these filters. The ability of adapting using the gains is demonstrated. Our simulation results indicate that the characteristic bandpass and notch filter responses of each structure are the basis of channelizer architectures, and optical gain may be used to adjust filter parameters to obtain a desired frequency magnitude response, especially in the range of 1–5 GHz for the chip with a coupler separation of ∼9 mm. Preliminarily, the measurement of spectral response shows enhancement of quality factor by using higher optical gains. The present compact active filters on an InP-based integrated photonic circuit hold the potential for a variety of channelizer applications. Compared to a pure RF channelizer, photonic channelizers may perform both channelization and down-conversion in an optical domain. |
Databáze: | OpenAIRE |
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