Nonlinear Optical Technology: From The Beginning
Author: Elsa M. Garmire (Author)
Publisher finelybook 出版社: Wiley
Edition 版次: 1st
Publication Date 出版日期: 2024-04-23
Language 语言: English
Print Length 页数: 512 pages
ISBN-10: 1119508355
ISBN-13: 9781119508359
Book Description
NONLINEAR OPTICAL TECHNOLOGY
Comprehensive resources describing today’s Nonlinear Optics (NLO) technology, its applications, and concepts behind the technology
Taking shape at the unique interdisciplinary engineering school at Dartmouth College, Nonlinear Optical Technology explores the importance of NLO in terms of how it permeates a vast number of applications such as fiber optics, biomedicine, sensors (especially Internet of Things), microscopy, spectroscopy, and machining, under the assumption engineers of all stripes may end up working in technical areas impacted by Nonlinear Optics (NLO) and would benefit from learning about the field.
Each section follows a set format, beginning by describing some exciting new technology made possible by NLO. This part is followed by a description of the background information necessary for students to understand the basic NLO concepts for that application. The author occasionally includes personal experiences as a pioneer in this field where it provides additional understanding and motivation. Each section ends with a description of other developments in technology that use the same NLO concept.
Bringing together disparate topics in NLO under a straight-forward rubric based on applications, Nonlinear Optical Technology includes information on:
- Extending lasers (with NLO technology), covering new colors (harmonic generation, stimulated raman, and stimulated brillouin) and pulsed lasers (saturable absorption and ultra-high harmonic generation)
- Information technology, covering telecommunications (fiber optics NLO and photonic NLO) and data storage (NLO in nanostructures and photonic crystals)
- Sensors, covering distributed sensing (brillouin scattering in fibers) and localized sensors (NLO in photonics)
- Materials interaction, covering machining (nonlinear absorption), spectroscopy (four-wave mixing), and microscopy (two-photon absorption)
Serving as a comprehensive standalone resource on the subject for engineers and students without requiring pre-knowledge of advanced concepts, Nonlinear Optical Technology is an essential resource for those in fields that intersect with NLO applications and integration, as well as anyone who wishes to self-teach NLO concepts in general.
From the Back Cover
Comprehensive resources describing today’s Nonlinear Optics (NLO) technology, its applications, and concepts behind the technology
Taking shape at the unique interdisciplinary engineering school at Dartmouth College, Nonlinear Optical Technology explores the importance of NLO in terms of how it permeates a vast number of applications such as fiber optics, biomedicine, sensors (especially Internet of Things), microscopy, spectroscopy, and machining, under the assumption engineers of all stripes may end up working in technical areas impacted by Nonlinear Optics (NLO) and would benefit from learning about the field.
Each section follows a set format, beginning by describing some exciting new technology made possible by NLO. This part is followed by a description of the background information necessary for students to understand the basic NLO concepts for that application. The author occasionally includes personal experiences as a pioneer in this field where it provides additional understanding and motivation. Each section ends with a description of other developments in technology that use the same NLO concept.
Bringing together disparate topics in NLO under a straight-forward rubric based on applications, Nonlinear Optical Technology includes information on:
- Extending lasers (with NLO technology), covering new colors (harmonic generation, stimulated raman, and stimulated brillouin) and pulsed lasers (saturable absorption and ultra-high harmonic generation)
- Information technology, covering telecommunications (fiber optics NLO and photonic NLO) and data storage (NLO in nanostructures and photonic crystals)
- Sensors, covering distributed sensing (brillouin scattering in fibers) and localized sensors (NLO in photonics)
- Materials interaction, covering machining (nonlinear absorption), spectroscopy (four-wave mixing), and microscopy (two-photon absorption)
Serving as a comprehensive standalone resource on the subject for engineers and students without requiring pre-knowledge of advanced concepts, Nonlinear Optical Technology is an essential resource for those in fields that intersect with NLO applications and integration, as well as anyone who wishes to self-teach NLO concepts in general.
About the Author
Elsa M. Garmire, PhD, is a Fellow of IEEE, the Optical Society, the American Physical Society, and the Society of Women Engineers. She was elected to the National Academy of Engineering and the National Academy of Inventors. From 1995 to 2016, she taught interdisciplinary engineering courses as Sydney Junkins Professor at the Thayer School of Engineering at Dartmouth College. She has served on multiple National Research Council Committees and specialized in Nonlinear Optics (NLO) at MIT.