Atmospheric Modeling Using PcModWin©/MODTRAN®

Intro -- Copyright -- Preface -- Comments by Spectral Sciences, Inc. -- Chapter 1 MODTRAN® Modeling Capability -- 1.1 Introduction -- 1.2 A Short History -- 1.3 New User Interface -- 1.4 General Calculation Details -- 1.5 Definition of Transmittance and Radiance Models -- 1.5.1 VSWIR modeling -- 1.5...
Ausführliche Beschreibung

Intro -- Copyright -- Preface -- Comments by Spectral Sciences, Inc. -- Chapter 1 MODTRAN® Modeling Capability -- 1.1 Introduction -- 1.2 A Short History -- 1.3 New User Interface -- 1.4 General Calculation Details -- 1.5 Definition of Transmittance and Radiance Models -- 1.5.1 VSWIR modeling -- 1.5.2 MWIR-LWIR modeling -- 1.5.3 Maritime remote-sensing modeling -- 1.6 Spherical Refractive Geometry -- 1.6.1 General problem -- 1.6.2 Uniform path -- 1.6.3 MODTRAN geometry: slant path -- 1.7 Selecting Atmospheric Properties -- 1.7.1 More on aerosol characterization -- 1.7.2 Available aerosol models -- 1.7.3 Clouds -- 1.7.4 Fog -- 1.7.5 Aerosol angular scattering functions -- 1.8 The NOVAM Aerosol Model -- 1.9 DISORT Option -- 1.10 LBL Radiative Transfer Option -- References -- Chapter 2 Background Material -- 2.1 Introduction -- 2.2 Radiometric Parameters -- 2.2.1 Radiant flux (radiant power) -- 2.2.2 Radiant intensity -- 2.2.3 Radiance -- 2.2.4 Radiant flux density (irradiance and radiant exitance) -- 2.2.5 Bidirectional reflectance distribution function -- 2.2.6 Directional hemispheric reflectance -- 2.2.7 Specular surfaces -- 2.2.8 Lambertian surfaces and albedo -- 2.3 Blackbody Radiation Sources -- 2.4 Mie Scattering Theory -- 2.5 Atmospheric Transmittance and Scattering -- 2.6 Essential Concepts in Radiative Transfer -- 2.6.1 First-order RTE solution -- 2.6.2 Radiative transfer equation for a single, homogeneousparticulate layer -- 2.6.3 Radiative transfer equation for multiple, homogeneousparticulate layers -- References -- Chapter 3 Getting Started: Transmittance Calculations -- 3.1 Introduction -- 3.2 Light Transmission in the Atmosphere -- 3.2.1 Molecular absorption -- 3.2.2 Molecular scattering -- 3.2.3 Aerosol extinction -- 3.2.4 Atmospheric transmission -- 3.3 Effects of Wavenumber Resolution on Atmospheric Transmittance Representation. Ausführliche Beschreibung