A study of the thermal and optical characteristics of radiometric channels for Earth radiation budget applications
Abstract
An improved dynamic electrothermal model for the Earth Radiation Budget Experiment (ERBE) total, nonscanning channels is formulated. This model is then used to accurately simulate two types of dynamic solar observation: the solar calibration and the so-called pitchover maneuver. Using a second model, the nonscanner active cavity radiometer (ACR) thermal noise is studied. This study reveals that radiative emission and scattering by the surrounding parts of the nonscanner cavity are acceptably small. The dynamic electrothermal model is also used to compute ACR instrument transfer function. Accurate in-flight measurement of this transfer function is shown to depend on the energy distribution over the frequency spectrum of the radiation input function. A new array-type field of view limiter, whose geometry controls the input function, is proposed for in-flight calibration of an ACR and other types of radiometers. The point spread function (PSF) of the ERBE and the Clouds and Earth's Radiant Energy System (CERES) scanning radiometers is computed. The PSF is useful in characterizing the channel optics. It also has potential for recovering the distribution of the radiative flux from Earth by deconvolution.
- Publication:
-
Final Report Virginia Polytechnic Inst. and State Univ
- Pub Date:
- December 1991
- Bibcode:
- 1991vpi..rept.....M
- Keywords:
-
- Atmospheric Radiation;
- Dynamic Models;
- Earth Radiation Budget;
- Earth Radiation Budget Experiment;
- Optical Properties;
- Radiometers;
- Transfer Functions;
- Calibrating;
- Cavities;
- Energy Budgets;
- Frequency Distribution;
- In-Flight Monitoring;
- Radiant Flux Density;
- Scattering;
- Thermal Noise;
- Geophysics