Atmospheric Lidar Fundamentals

Atmospheric Lidar Fundamentals
Author: Chiao-Yao She
Publisher:
Total Pages:
Release: 2022
Genre: SCIENCE
ISBN: 9781108968713

"Since the comprehensive textbook entitled Laser Remote Sensing: Fundamentals and Applications, written by R. M. Measures, was published byWiley-Interscience in 1984 [1.1], there have been tremendous advances both in laser technology - especially in the realm of spectral purity and high power - and in information/ digital technology. These advances in the past three-plus decades have transformed narrowband lidars from being demonstrations of remote sensing concepts to working instruments capable of probing the atmosphere on regular and quasi-continuous bases. Nevertheless, until 2005 there was no substantial textbook development about atmospheric lidars to keep up with these advances. At that time, two extensive collections of book chapters, written by experts and researchers specializing in different aspects and types of lidars, were published. They are Laser Remote Sensing, published by CRC Press with Takashi Fujii and Tetsuo Fukuchi [1.2] as editors, and Lidar: Range-Resolved Optical Remote Sensing of the Atmosphere, published by Springer with Claus Weitkamp [1.3] as the editor. These books brought up to date all important advances and practices in lidar research. The book chapters in these collections, though already more than a decade old at the time of this writing, contain sufficient information for beginners to learn and to initiate a chosen type of lidar for their remote sensing and research needs. When coupled with manufacturers' websites that now provide up-to-date information on the availability of lidar hardware, these resources represent sufficient information for state-of-the-art system development"--

Atmospheric Lidar Fundamentals

Atmospheric Lidar Fundamentals
Author: Chiao-Yao She
Publisher: Cambridge University Press
Total Pages: 342
Release: 2022-03-03
Genre: Science
ISBN: 1009003232

Lidar is a remote sensing technique that employs laser beams to produce a high-resolution, four-dimensional probe, with important applications in atmospheric science. Suitable as a detailed reference or an advanced textbook for interdisciplinary courses, this book discusses the underlying principles of light-scattering theory and describes widely used lidar systems in current research, exploring how they can be employed effectively for atmospheric profiling. This self-contained text provides a solid grounding in the essential physics of light-matter interactions and the fundamentals of atmospheric lidars through a discussion of the principles that govern light-matter interactions and an exploration of both historical and recent scientific developments in lidar technology. This is an essential resource for physicists, optical engineers and other researchers in atmospheric science and remote sensing.

Laser Remote Sensing

Laser Remote Sensing
Author: Raymond M. Measures
Publisher: Wiley-Interscience
Total Pages: 544
Release: 1984
Genre: Science
ISBN:

Presents a concise, self-contained monograph on laser remote sensing and its applications. Discusses the ways in which lasers can be used to remotely measure the atmosphere and the hydrosphere. Provides an historical perspective and reviews the basic physics needed.

Lidar Engineering

Lidar Engineering
Author: Gary G. Gimmestad
Publisher: Cambridge University Press
Total Pages: 368
Release: 2023-01-31
Genre: Technology & Engineering
ISBN: 1009333550

Explore the spectrum of lidar engineering in this one-of-a-kind introduction. For the first time, this multidisciplinary resource covers all the scientific and engineering aspects of atmospheric lidar – including atmospheric science, spectroscopy, lasers and eye safety, classical optics and electro-optics, electrical and mechanical engineering, and software algorithms – in a single comprehensive and authoritative book. Discover up-to-date material not included in any other book, including simple treatments of the lidar crossover range and depolarization in lidar signals, an improved explanation of lidar data inversion algorithms, digital signal processing applications in lidar, and statistical limitations of lidar signal-to-noise ratios. This is an ideal standalone text for students seeking a thorough grounding in lidar, whether through a taught course or self-study.

Proceedings of the 30th International Laser Radar Conference

Proceedings of the 30th International Laser Radar Conference
Author: John T. Sullivan
Publisher: Springer Nature
Total Pages: 825
Release: 2023-12-26
Genre: Science
ISBN: 3031378180

This volume presents papers from the biennial International Laser Radar Conference (ILRC), the world’s leading event in the field of atmospheric research using lidar. With growing environmental concerns to address such as air quality deterioration, stratospheric ozone depletion, extreme weather events, and changing climate, the lidar technique has never been as critical as it is today to monitor, alert, and help solve current and emerging problems of this century. The 30th occurrence of the ILRC unveils many of the newest results and discoveries in atmospheric science and laser remote sensing technology. The 30th ILRC conference program included all contemporary ILRC themes, leveraging on both the past events’ legacy and the latest advances in lidar technologies and scientific discoveries, with participation by young scientists particularly encouraged. This proceedings volume includes a compilation of cutting-edge research on the following themes: new lidar techniques and methodologies; measurement of clouds and aerosol properties; atmospheric temperature, wind, turbulence, and waves; atmospheric boundary layer processes and their role in air quality and climate; greenhouse gases, tracers, and transport in the free troposphere and above; the upper mesosphere and lower thermosphere; synergistic use of multiple instruments and techniques, networks and campaigns; model validation and data assimilation using lidar measurements; space-borne lidar missions, instruments and science; ocean lidar instrumentation, techniques, and retrievals; and past, present and future synergy of heterodyne and direct detection lidar applications. In addition, special sessions celebrated 50 years of lidar atmospheric observations since the first ILRC, comprising review talks followed by a plenary discussion on anticipated future directions.

Fundamentals of Atmospheric Radiation

Fundamentals of Atmospheric Radiation
Author: Craig F. Bohren
Publisher: John Wiley & Sons
Total Pages: 490
Release: 2006-08-21
Genre: Science
ISBN: 3527608370

Meeting the need for teaching material suitable for students of atmospheric science and courses on atmospheric radiation, this textbook covers the fundamentals of emission, absorption, and scattering of electromagnetic radiation from ultraviolet to infrared and beyond. Much of the contents applies to planetary atmosphere, with graded discussions providing a thorough treatment of subjects, including single scattering by particles at different levels of complexity. The discussion of the simple multiple scattering theory introduces concepts in more advanced theories, such that the more complicated two-stream theory allows readers to progress beyond the pile-of-plates theory. The authors are physicists teaching at the largest meteorology department in the US at Penn State. The problems given in the text come from students, colleagues, and correspondents, and the figures designed especially for this book facilitate comprehension. Ideal for advanced undergraduate and graduate students of atmospheric science. * Free solutions manual available for lecturers at www.wiley-vch.de/supplements/

Optical Waves and Laser Beams in the Irregular Atmosphere

Optical Waves and Laser Beams in the Irregular Atmosphere
Author: Nathan Blaunstein
Publisher: CRC Press
Total Pages: 314
Release: 2017-09-22
Genre: Computers
ISBN: 1351402676

The book introduces optical wave propagation in the irregular turbulent atmosphere and the relations to laser beam and LIDAR applications for both optical communication and imaging. It examines atmosphere fundamentals, structure, and content. It explains specific situations occurring in the irregular atmosphere and for specific natural phenomena that affect optical ray and laser beam propagation. It emphasizes how to use LIDAR to investigate atmospheric phenomena and predict primary parameters of the irregular turbulent atmosphere and suggests what kinds of optical devices to operate in different atmospheric situations to minimize the deleterious effects of natural atmospheric phenomena.

Elastic Lidar

Elastic Lidar
Author: Vladimir A. Kovalev
Publisher: John Wiley & Sons
Total Pages: 640
Release: 2004-04-27
Genre: Technology & Engineering
ISBN: 9780471201717

* Focuses only on elastic lidars and directly related topics. * Evaluates all of the major inversion and analysis methods. * Covers an emerging field that is generating a lot of interest.

Encyclopedia of Optical Engineering: Las-Pho, pages 1025-2048

Encyclopedia of Optical Engineering: Las-Pho, pages 1025-2048
Author: Ronald G. Driggers
Publisher: CRC Press
Total Pages: 1130
Release: 2003
Genre: Science
ISBN: 9780824742515

Compiled by 330 of the most widely respected names in the electro-optical sciences, the Encyclopedia is destined to serve as the premiere guide in the field with nearly 2000 figures, 560 photographs, 260 tables, and 3800 equations. From astronomy to x-ray optics, this reference contains more than 230 vivid entries examining the most intriguing technological advances and perspectives from distinguished professionals around the globe. The contributors have selected topics of utmost importance in areas including digital image enhancement, biological modeling, biomedical spectroscopy, and ocean optics, providing thorough coverage of recent applications in this continually expanding field.

Direct-detection LADAR Systems

Direct-detection LADAR Systems
Author: Richard D. Richmond
Publisher: SPIE-International Society for Optical Engineering
Total Pages: 0
Release: 2010
Genre: Optical radar
ISBN: 9780819480729

This text is designed to introduce engineers-in-training to the basic concepts and operation of 3D imaging LADAR systems. The book covers laser range equations; sources of noise in LADAR signals; LADAR waveforms; the effects of wavefront propagation on LADAR beams through optical systems and atmospheric turbulence; algorithms for detecting, ranging, and tracking targets; and comprehensive system simulation. Computer code for accomplishing the many examples appearing throughout the text is provided. Exercises appear at the end of each chapter, allowing students to apply concepts studied throughout the text to fundamental problems encountered by LADAR engineers. Also included is a CD-ROM with the MATLAB code from the examples.