Synopses & Reviews
While there have been many books dealing with the instrumental and mathematical processing aspects of Fourier Transform Spectroscopy there remains a need for a text which examines the technique as a remote-sensing tool. Remote Sensing by Fourier Transform Spectrometry fills that gap to offer students and professionals in a variety of fields a comprehensive reference on the application of FTS to their research needs. Remote Sensing by Fourier Transform Spectrometry serves as an introduction to the specification, design, and implementation of Fourier Transform Spectrometers (FTS), especially those intended for atmospheric or astronomical remote sensing. Beginning with an overview of the phenomenon of two beam interference, the book introduces the reader to some of the terminology and units characteristic of this specialty. The book goes on to investigate the performance of the Michelson Interferometer as a Fourier Transform Spectrometer. A solid introduction to the chemistry and physics of remote sensing, including a simplified development of the theory of radiative transfer, is also provided. A detailed section of real Fourier Transform Spectrometers begins with a discussion of the estimation of signal-to-noise ratio using radiometric models, including the impact of pointing jitter or signal fluctuation on an FTS-generated spectrum. An analysis of the theory and practice of interferogram sampling is followed by a section on how certain modifications to the simple Michelson Interferometer can provide optical configurations more suited to the stresses of remote sensing. The final portion of this section describes potential problem areas in the implementation of an FTS, such as phase errors, channeling, and linearity. Remote Sensing by Fourier Transform Spectrometry then offers the reader case studies of five very different remote-sensing FTS systems (including one example from infrared astronomy), followed by a chapter on the diverse environments in which remote sensors must workenvironments such as telescopes, aircraft, balloons, and space. Written by a pioneer in the use of FTS and supplemented with numerous tables, graphs, and figures that aid learning, Remote Sensing by Fourier Transform Spectrometry is a state-of-the-art handbook that students and professionals in geophysics, astrophysics, and related fields will turn to again and again when applying FTS to their research.
Synopsis
Activation Spectrometry in Chemical Analysis Susan J. Parry In clear, easy-to-read language, Activation Spectrometry in Chemical Analysis provides a straightforward review of just what activation analysis can do, describing the technique as it is currently applied to biomedical, environmental, geological, and industrial analytical problems. The book outlines the specifics of the procedures that have proven critical to the techniques success and describes the current status of activation spectrometry in a concise, three-part format: principles, techniques, and applications. Written for undergraduates and postgraduates in universities, research institutes, government, or industry, the book provides the first definitive look at the day-to-day and key uses of the method that is at once challenging and intriguing, yet simple to grasp. 1991 (0 471-63844-7) 264 pp. Principles and Practice of Spectroscopic Calibration Howard Mark Clearly linking theory with applications, this unique guide to spectroscopic calibration advances an approach that is understandable, free of the usual uncertainties, and simple to execute. The book details the practical aspects of generating a calibration equation, as well as the basics of recognizing and dealing with different types of problems affecting calibration. Most of the procedures are applicable to such sophisticated and popular approaches as Principal Component Calibration (PCA), Partial Least Squares Calibration (PLS), and Fourier Transform Calibration. 1991 (0 471-54614-3) 192 pp. Analytical Raman Spectroscopy Edited by Jeanette G. Grasselli and Bernard J. Bulkin Analytical Raman Spectroscopy charts, through a series of contributed articles, the spectacular versatility of the method and its applications in semiconductor characterization, synthetic organic polymer analysis, organic and petrochemical analysis, heterogeneous catalysts, and biological studies. Chapters feature an outline structure which systematically details the critical aspects of each subject discussed. The book provides a unique look at the fields fundamental operational techniques, instrumentation, and up-to-the-minute advances: components of modern Raman spectrometers; Raman spectroscopy of inorganic species in solution; quantitative analysis by Raman spectroscopy; and much more. 1991 (0 471-51955-3) 480 pp.
Description
Includes bibliographical references (p. 145-147) and index.
About the Author
About the author REINHARD BEER, PhD, currently holds several positions at the California Institute of Technology's Jet Propulsion Laboratory. He serves as Senior Research Scientist in the Earth and Space Sciences Division, Supervisor of the Tropospheric Science Group, and Manager of the Atmospheric and Oceanographic Sciences Section. Dr. Beer received his PhD in physics from the University of Manchester. He has contributed chapters to several publications including Laser Remote Chemical Analysis (Wiley, 1988) and is a member of several professional organizations including the Optical Society of America and the International Astronomical Union.
Table of Contents
The Basic Principles of Fourier Transform Spectrometry.
The Ideal Fourier Transform Spectrometer.
The Physics and Chemistry of Remote Sensing.
Real Fourier Transform Spectrometers.
Case Studies of Remote Sensing Fourier Transform Spectrometers.
Remote Sensing Environments.
General Observations and Conclusions.
Appendix.
Bibliography and References.
Index.