Fourier Transform Spectrometry

James-W Brault

,

Sumner-P Davis

,

Mark-C Abrams

Note moyenne 
James-W Brault et Sumner-P Davis - Fourier Transform Spectrometry.
Fourier transform spectroscopy has evolved into an analytic spectroscopic method with applications throughout the physical, chemical, and biological sciences.... Lire la suite
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Résumé

Fourier transform spectroscopy has evolved into an analytic spectroscopic method with applications throughout the physical, chemical, and biological sciences. As instruments have become automated and computerized, users have been able to focus on their experiments and not on the operation of their instruments. However, in many applications where source conditions are not ideal or the desired signal is weak, the success of an experiment can depend critically on understanding the instrument and the data-processing algorithms that extract the spectrum from the interferogram. Fourier Transform Spectrometry provides essential background in Fourier analysis, systematically develops the fundamental concepts governing the design and operation of Fourier transform spectrometers, and illustrates every concept pictorially. Methods for transforming the interferogram and phase correcting the resulting spectrum are presented, with a focus on understanding the capabilities and limitations of the algorithms. Techniques of computerized spectrum analysis are discussed in a way that enables spectroscopists to understand the numerical processing algorithms without becoming computer programmers. Methods for determining the accuracy of numerical algorithms are detailed and compared pictorially and quantitatively. Algorithms for line finding, fitting spectra to voigtian profiles, filtering, Fourier transforming, and spectrum synthesis are a basis for spectrum analysis tools from which complex signal-processing procedures can be constructed. This book is of immediate value to those who use Fourier transform spectrometers in their research or are considering their use. It gives the mathematical and physical background for understanding the operation of an ideal interferometer, illustrates those ideas with example interferograms obtained via ideal and nonideal interferometers, and shows how the maximum amount of information can be extracted from the interferograms. Finally, it shows how sampling and noise affect the spectrum.

Sommaire

    • Why Choose a Fourier Transform Spectrometer ? Theory of the Ideal Instrument
    • Fourier Analysis
    • Nonideal (Real-World) Interferograms
    • Working with Digital Spectra and Fourier Transforms
    • Phase Corrections and Their Significance
    • Effects of Noise in Its Various Forms
    • Line Positions, Line Profiles, and Fitting
    • Processing of Spectral Data
    • Discussions, Interventions, Digressions, and Obscurations

Caractéristiques

  • Date de parution
    25/06/2001
  • Editeur
  • ISBN
    0-12-042510-6
  • EAN
    9780120425105
  • Présentation
    Relié

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