Laser Remote Sensing: Fundamentals and Applications
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.
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Electromagnetic Theory of Radiation
Quantum Physics and Radiation Processes
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aeroticulate airborne altitude angle assume atmospheric attenuation coefficient backscattering backscattering coefficient band cavity chlorophyll component concentration constituents corresponding curve detection detector dial measurements dial system differential absorption differential-absorption distribution dye laser electromagnetic electron emission energy evaluated excited factor field of view filter frequency function g-switched infrared integration irradiance laser action laser beam laser fluorosensor laser pulse laser radiation laser remote sensing laser-induced fluorescence lidar equation lidar system linewidth measurements medium Megie mode molecular molecules monitoring nitrogen number density observed operating optical depth oscillator output ozone parameter photocathode photomultiplier photon polarized pollution population inversion presented as Fig propagation quantum number radiation field radiative radius Raman scattering range ratio Rayleigh Rayleigh scattering receiver optics represents resonance retroreflector return signal rotational saturation sodium sodium layer species spectral spectral radiance spectrum spontaneous emission technique telescope temperature tion transition tunable vibrational wave wavelength
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Spectroscopic Measurement: An Introduction to the Fundamentals
Mark A. Linne
Limited preview - 2002