Chapter Topological Characterization and Advanced Noise-Filtering Techniques for Phase Unwrapping of Interferometric Data Stacks

Semiconductor optical amplifiers (SOAs) have been extensively used in a wealth of telecom and datacom applications as a powerful building block that features large optical gain, all-optical gating function, fast response, and ease of integration with other functional semiconductor devices. As fabric...

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Hauptverfasser: Imperatore, Pasquale, Pepe, Antonio
Format: Online
Sprache:Englisch
Veröffentlicht: InTechOpen 2021
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Online-Zugang:ONIX_20210602_10.5772/61847_288
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author Imperatore, Pasquale
Pepe, Antonio
author_browse Imperatore, Pasquale
Pepe, Antonio
author_facet Imperatore, Pasquale
Pepe, Antonio
author_sort Imperatore, Pasquale
collection Directory of Open Access Books
description Semiconductor optical amplifiers (SOAs) have been extensively used in a wealth of telecom and datacom applications as a powerful building block that features large optical gain, all-optical gating function, fast response, and ease of integration with other functional semiconductor devices. As fabrication technologies are steadily maturing toward enhanced yield, SOAs are foreseen to play a pivotal role in complex photonics integrated circuits (PICs) of the near future. From a design standpoint, accurate numerical modeling of SOA devices is required toward optimizing PICs response from a system perspective, while enhanced circuit complexity calls for efficient solvers. In this book chapter, we present established experimentally validated SOA numerical modeling techniques and a gain parameterization procedure applicable to a wide range of SOA devices. Moreover, we describe multigrid concepts and implicit schemes that have been only recently presented to SOA modeling, enabling adaptive time stepping at the SOA output, with dense sampling at transient phenomena during the gain recovery and scarce sampling during the steady-state response. Overall, a holistic simulation methodology approach along with recent research trends are described, aiming to form the basis of further developments in SOA modeling.
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spelling doab-20.500.12854ir-703152024-04-14T10:28:06Z Chapter Topological Characterization and Advanced Noise-Filtering Techniques for Phase Unwrapping of Interferometric Data Stacks Imperatore, Pasquale Pepe, Antonio Semiconductor optical amplifier, numerical modeling, transfer matrix method, multigrid techniques thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTB Applied optics Semiconductor optical amplifiers (SOAs) have been extensively used in a wealth of telecom and datacom applications as a powerful building block that features large optical gain, all-optical gating function, fast response, and ease of integration with other functional semiconductor devices. As fabrication technologies are steadily maturing toward enhanced yield, SOAs are foreseen to play a pivotal role in complex photonics integrated circuits (PICs) of the near future. From a design standpoint, accurate numerical modeling of SOA devices is required toward optimizing PICs response from a system perspective, while enhanced circuit complexity calls for efficient solvers. In this book chapter, we present established experimentally validated SOA numerical modeling techniques and a gain parameterization procedure applicable to a wide range of SOA devices. Moreover, we describe multigrid concepts and implicit schemes that have been only recently presented to SOA modeling, enabling adaptive time stepping at the SOA output, with dense sampling at transient phenomena during the gain recovery and scarce sampling during the steady-state response. Overall, a holistic simulation methodology approach along with recent research trends are described, aiming to form the basis of further developments in SOA modeling. 2021-02-10T12:58:18Z 2021-06-02T10:08:24Z 2016 chapter ONIX_20210602_10.5772/61847_288 https://library.oapen.org/handle/20.500.12657/49174 https://directory.doabooks.org/handle/20.500.12854/70315 eng open access image/jpeg image/jpeg n/a n/a https://library.oapen.org/bitstream/20.500.12657/49174/1/49969.pdf https://library.oapen.org/bitstream/20.500.12657/49174/1/49969.pdf InTechOpen 10.5772/61847 10.5772/61847 035ecc65-6737-43cf-a13a-6bdf67ce01f4 open access
spellingShingle Semiconductor optical amplifier, numerical modeling, transfer matrix method, multigrid techniques
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTB Applied optics
Imperatore, Pasquale
Pepe, Antonio
Chapter Topological Characterization and Advanced Noise-Filtering Techniques for Phase Unwrapping of Interferometric Data Stacks
title Chapter Topological Characterization and Advanced Noise-Filtering Techniques for Phase Unwrapping of Interferometric Data Stacks
title_full Chapter Topological Characterization and Advanced Noise-Filtering Techniques for Phase Unwrapping of Interferometric Data Stacks
title_fullStr Chapter Topological Characterization and Advanced Noise-Filtering Techniques for Phase Unwrapping of Interferometric Data Stacks
title_full_unstemmed Chapter Topological Characterization and Advanced Noise-Filtering Techniques for Phase Unwrapping of Interferometric Data Stacks
title_short Chapter Topological Characterization and Advanced Noise-Filtering Techniques for Phase Unwrapping of Interferometric Data Stacks
title_sort chapter topological characterization and advanced noise filtering techniques for phase unwrapping of interferometric data stacks
topic Semiconductor optical amplifier, numerical modeling, transfer matrix method, multigrid techniques
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTB Applied optics
topic_facet Semiconductor optical amplifier, numerical modeling, transfer matrix method, multigrid techniques
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TT Other technologies and applied sciences::TTB Applied optics
url ONIX_20210602_10.5772/61847_288
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