Theory of reflectance and emittance spectroscopy pdf

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theory of reflectance and emittance spectroscopy pdf

Theory of Reflectance and Emittance Spectroscopy (Topics in Remote Sensing) - PDF Free Download

I encourage any students who read this early in their careers to work through the equations even if they look intimidating, as Hapke does a great job of articulating his logic. For those already familiar with the first edition of this text, it is still a worthwhile read. It centralizes Hapke's pioneering early work with the developments in the almost 20 years since the first edition was published, and the reorganization of chapters and sections results in a more natural, accessible flow. Bruce Hapke is Professor Emeritus of Geology and Planetary Science at the University of Pittsburgh, where he continues to study various bodies of the solar system. He was principal investigator for the analysis of lunar samples and was associated with several other NASA missions, to Mercury, Mars, Saturn and the outer solar system. He has an asteroid Hapke and a mineral Hapkeite named in his honour. Acknowledgements; 1.
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Light Absorption, Reflection, and Transmission

Theory of Reflectance and Emittance Spectroscopy (Topics in Remote Sensing)

International Journal of Thermophysics. The trend towards miniaturization of patterning features in integrated circuits IC has made traditional batch furnaces inadequate for many processes. Rapid thermal processing RTP of silicon wafers has become more popular in recent years for IC manufacturing. Light-pipe radiation thermometry is the method of choice for real-time temperature monitoring in RTP. However, the radiation environment can greatly affect the signal reaching the radiometer.

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The python code for the fitting is provided in the Additional files 1 , 2 and 3. Environmental scientists are currently assessing the ability of hyper-spectral remote sensing to detect, identify, and analyze natural components, including minerals, rocks, vegetation and soil. This paper discusses the use of a nonlinear reflectance model to distinguish multicomponent particulate mixtures. Analysis of the data presented in this paper shows that, although the identity of the components can often be found from diagnostic wavelengths of absorption bands, the quantitative abundance determination requires knowledge of the complex refractive indices and average particle scattering albedo, phase function and size. The present study developed a method for spectrally unmixing halite and gypsum combinations.

I encourage any students who read this early in their careers to work through the equations even if they look intimidating, as Hapke does a great job of articulating his logic. For those already familiar with the first edition of this text, it is still a worthwhile read. It centralizes Hapke's pioneering early work with the developments in the almost 20 years since the first edition was published, and the reorganization of chapters and sections results in a more natural, accessible flow. Toggle navigation. New to eBooks.

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