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| Author | : R.W. Eason |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 438 |
| Release | : 2012-12-06 |
| Genre | : Technology & Engineering |
| ISBN | : 9401115605 |
Nonlinear Optics in Signal Processing covers the applications of nonlinear optics to optical processing in a range of areas including switching, computing, and telecommunications.
| Author | : Thomas Schneider |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 418 |
| Release | : 2013-03-09 |
| Genre | : Science |
| ISBN | : 3662089963 |
This comprehensive and didactic overview explores the nonlinear effects from a physical point of view and discusses the implications for signal capacity. Enriched with practical considerations and experimental results, the book offers special chapters dealing with applications of nonlinear effects for signal processing, ultrafast-optical switching, wavelength conversion, nonlinear amplification, and optical phase-conjugation. Equipped with chapter-end summaries and problems, this valuable reference can also serve as a graduate-level textbook.
| Author | : Le Nguyen Binh |
| Publisher | : CRC Press |
| Total Pages | : 465 |
| Release | : 2012-03-05 |
| Genre | : Science |
| ISBN | : 1439845476 |
Nonlinear Optical Systems: Principles, Phenomena, and Advanced Signal Processing is a simplified overview of the evolution of technology associated with nonlinear systems and advanced signal processing. This book’s coverage ranges from fundamentals to phenomena to the most cutting-edge aspects of systems for next-generation biomedical monitoring and nonlinear optical transmission. The authors address how these systems are applied through photonic signal processing in contemporary optical systems for communications and/or laser systems. They include a concise but sufficient explanation of mathematical representation of nonlinear equations to provide insight into nonlinear dynamics at different phases. The book also describes advanced aspects of solitons and bound solitons for passive- and active-mode locked fiber lasers, in which higher-order differential equations can be employed to represent the dynamics of amplitude evolution in the current or voltages of lightwaves in such systems. Covering a wide range of topics, this book: Introduces nonlinear systems and some mathematical representations, particularly the routes to chaos and bifurcation Describes nonlinear fiber lightwave lasing systems Covers nonlinear phenomena in fiber lasers, including both passive and active energy storage cavities Experimentally and theoretically demonstrates soliton pulses, in which lightwaves are the carrier under their envelopes Assembles and demonstrates sequences of both single and multiple solitons in a group and then assesses their dynamics in detail Examines the evolution of bound solitons, which are transmitted through single-mode optical fibers that compose a phase variation system This text outlines the theory and techniques used in nonlinear physics and applications for physical systems. It also illustrates the use of MATLAB® and Simulink® computer models and processing techniques for nonlinear signals. Building on readers’ newly acquired fundamental understanding of nonlinear systems and associated signal processing, the book then demonstrates the use of such applications in real-world, practical environments.
| Author | : Mário Fernando Santos Ferreira |
| Publisher | : CRC Press |
| Total Pages | : 130 |
| Release | : 2020-05-18 |
| Genre | : Technology & Engineering |
| ISBN | : 0429552726 |
This book provides an updated description of the most relevant types of highly nonlinear fibers. It also describes some of their actual applications for nonlinear optical signal processing. Multiple types of highly nonlinear fibers are considered, such as silica-based conventional highly nonlinear fibers, tapered fibers, photonic crystal fibers, and fibers made of highly nonlinear materials, namely lead-silicate, tellurite, bismuth oxide, and chalcogenide glasses. Several nonlinear phenomena occurring on such highly nonlinear fibers are described and used to realize different functions in the area of all-optical signal processing. Describes several nonlinear phenomena occurring on optical fibers, namely nonlinear phase modulation, parametric and stimulated scattering processes, optical solitons, and supercontinuum generation. Discusses different types of highly nonlinear fibers, namely silica-based conventional highly nonlinear fibers, tapered fibers, and photonic crystal fibers. Examines fibers made of highly nonlinear materials, namely lead-silicate, tellurite, bismuth oxide, and chalcogenide glasses. Describes the application of several nonlinear phenomena occurring on highly nonlinear fibers to realize different functions in the area of all-optical signal processing, namely optical amplification, multiwavelength sources, pulse generation, optical regeneration, wavelength conversion, and optical switching. Mário F. S. Ferreira received his PhD degree in 1992 in physics from the University of Aveiro, Portugal, where he is now a professor in the Physics Department. Between 1990 and 1991, he was at the University of Essex, UK, performing experimental work on external cavity semiconductor lasers and nonlinear optical fiber amplifiers. His research interests have been concerned with the modeling and characterization of multisection semiconductor lasers, quantum well lasers, optical fiber amplifiers and lasers, soliton propagation, nanophotonics, optical sensors, polarization, and nonlinear effects in optical fibers. He has written more than 400 scientific journal and conference publications and several books in the area of mathematical physics, optics, and photonics. He has served as chair and committee member of multiple international conferences, as well as guest editor and advisory board member of several international journals.
| Author | : Le Nguyen Binh |
| Publisher | : CRC Press |
| Total Pages | : 463 |
| Release | : 2012-03-05 |
| Genre | : Science |
| ISBN | : 1466554967 |
Nonlinear Optical Systems: Principles, Phenomena, and Advanced Signal Processing is a simplified overview of the evolution of technology associated with nonlinear systems and advanced signal processing. This book's coverage ranges from fundamentals to phenomena to the most cutting-edge aspects of systems for next-generation biomedical monitoring an
| Author | : Toshiaki Suhara |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 330 |
| Release | : 2013-04-17 |
| Genre | : Science |
| ISBN | : 3662108720 |
The most comprehensive book on waveguide nonlinear optic devices, this volume presents a systematic description of the NLO field, with an emphasis on devices that use ferroelectric waveguides. It ranges from an introduction to the concepts of waveguides to the most recent experimental results.
| Author | : Boris Lembrikov |
| Publisher | : BoD – Books on Demand |
| Total Pages | : 156 |
| Release | : 2019-02-06 |
| Genre | : Science |
| ISBN | : 1789851637 |
Nonlinear optics is a rapidly developing field of modern physics. Nonlinear optical phenomena such as self-focusing, self-phase modulation, soliton formation and propagation, higher harmonic generation, different types of stimulated light scattering, and four-wave mixing have attracted interest from the fundamental point of view of the investigation of light/matter interaction, and as a basis for applications in contemporary optical communications and optical signal processing. Nonlinear Optics - Novel Results in Theory and Applications contains novel results concerning the mathematical methods of nonlinear optical phenomena analysis, soliton formation and propagation in optical fibers, and peculiarities of nonlinear optical phenomena in micro- and nanostructures. The book may be interesting for researchers and engineers interested in nonlinear optics, lasers, and optical communications.
| Author | : Mohammad Rezagholipour Dizaji |
| Publisher | : |
| Total Pages | : |
| Release | : 2017 |
| Genre | : |
| ISBN | : |
"Processing of high speed optical signals in the optical domain, referred to as optical signal processing, is required for many applications in the telecommunication systems and networks. Many optical signal processing techniques have been studied in the literature where most of them are based on nonlinear optics such as 2nd order and 3rd order nonlinear effects. A wide range of nonlinear media are used for performing these nonlinear optical signal processing applications such as optical fibres, semiconductor optical amplifiers, and different types of optical waveguides. In this thesis, we use nonlinear optics to perform nonlinear optical signal processing and microwave photonics applications. First we propose and experimentally demonstrate an optical signal processing module that will be used for recognition of spectral amplitude code (SAC) labels in optical packet-switched networks. We use the nonlinear effect FWM in a highly nonlinear fibre (HNLF) for generation of a unique FWM idler for each SAC label referred to as a label identifier (LI). A serial array of fibre Bragg gratings is then used to reflect the LI wavelengths. Each LI is associated with a unique amount of delay between two optical signals received at two photodiodes. Label recognition is then achieved by measuring this unique time delay. An experiment is conducted where two variable-length data packets are transmitted over a 50-km dispersion-compensated span of fibre and switched at a forwarding node. The SAC labels are successfully recognized, and we obtain error-free transmission for the switched packets with less than 0.3-dB penalty. Then using FWM in a HNLF and also a programmable planar lightwave circuit (PLC) we propose and experimentally demonstrate the all-optical reconfigurable time slot interchange (TSI) of individual bits at 40 Gb/s. The PLC is used to generate different control signals (masks) that determine which bits undergo TSI. By programming the PLC to generate two different masks, two different TSI patterns are obtained. TSI is achieved using FWM between the data signal and the desired mask with bidirectional propagation in the HNLF. Error-free operation is obtained for both of the TSI patterns, with a power penalty of less than 5.2 dB, at a bit error rate of 10-9.Next, we use a low-stress silicon-rich nitride waveguide as the nonlinear medium to perform two different applications based on XPM. The waveguide is engineered to display flat and low dispersion over the entire C+L bands. First, we demonstrate wavelength conversion of 10 Gb/s signals across the C band and obtain error free operation. We also demonstrate ultra broadband wavelength conversion over 300 nm from the O-band to the L-band. Second, we highlight the use of SixNy waveguides for nonlinear MWP. We report the first demonstration of an XPM-based radio-frequency (RF) spectrum analyzer of optical signals using an integrated silicon nitride waveguide. Measurements show a bandwidth of at least 560 GHz for our RF-spectrum analyzer. RF-spectra measurements for pulse trains at rates from ~ 10 GHz to ~ 160 GHz are demonstrated. These results show that the silicon nitride technology has a competitive performance for realizing high-speed optical processing of telecom signals." --
| Author | : Mário Fernando Santos Ferreira |
| Publisher | : CRC Press |
| Total Pages | : 142 |
| Release | : 2020-06-09 |
| Genre | : |
| ISBN | : 9780367492267 |
This book provides an updated description of the most relevant types of highly nonlinear fibers. It also describes some of their actual applications for nonlinear optical signal processing. Multiple types of highly nonlinear fibers are considered, such as silica-based conventional highly nonlinear fibers, tapered fibers, photonic crystal fibers, and fibers made of highly nonlinear materials, namely lead-silicate, tellurite, bismuth oxide, and chalcogenide glasses. Several nonlinear phenomena occurring on such highly nonlinear fibers are described and used to realize different functions in the area of all-optical signal processing. Describes several nonlinear phenomena occurring on optical fibers, namely nonlinear phase modulation, parametric and stimulated scattering processes, optical solitons, and supercontinuum generation. Discusses different types of highly nonlinear fibers, namely silica-based conventional highly nonlinear fibers, tapered fibers, and photonic crystal fibers. Examines fibers made of highly nonlinear materials, namely lead-silicate, tellurite, bismuth oxide, and chalcogenide glasses. Describes the application of several nonlinear phenomena occurring on highly nonlinear fibers to realize different functions in the area of all-optical signal processing, namely optical amplification, multiwavelength sources, pulse generation, optical regeneration, wavelength conversion, and optical switching. Mário F. S. Ferreira received his PhD degree in 1992 in physics from the University of Aveiro, Portugal, where he is now a professor in the Physics Department. Between 1990 and 1991, he was at the University of Essex, UK, performing experimental work on external cavity semiconductor lasers and nonlinear optical fiber amplifiers. His research interests have been concerned with the modeling and characterization of multisection semiconductor lasers, quantum well lasers, optical fiber amplifiers and lasers, soliton propagation, nanophotonics, optical sensors, polarization, and nonlinear effects in optical fibers. He has written more than 400 scientific journal and conference publications and several books in the area of mathematical physics, optics, and photonics. He has served as chair and committee member of multiple international conferences, as well as guest editor and advisory board member of several international journals.
| Author | : Miyu Takahashi |
| Publisher | : |
| Total Pages | : 0 |
| Release | : 2008 |
| Genre | : Nonlinear optics |
| ISBN | : 9781604566680 |
Nonlinear optics(NLO) is the branch of optics that describes the behaviour of light in non-linear media, that is, media in which the dielectric polarisation P responds nonlinearly to the electric field E of the light. This non-linearity is Typically only observed at very high light intensities such as those provided by pulsed lasers. Non-linear optics is of considerable research interest since it includes: Free space and guided wave non-linear optics; Weak (second and third order etc. effects) and strong (non-perturbative)nonlinearities: Fast (electronic fs timescale) and slow (thermal ms timescale) nonlinearities; Novel non-linear materials; Numerical simulation of nonlinear optical propagation; Applications of non-linear optics in fields such as signal processing, optical communications, holographic memory and soliton phenomena. This Advanced book provides the latest research from around the globe in this fast-moving field.
