Shuttle lidar resonance fluorescence investigations. 1: Analysis of Na and K measurements
Abstract
Optical radar systems (lidar) have a number of advantages compared to passive techniques with respect to applications involving the measurement of alkali atoms (Na and K) in the atmosphere. By using Shuttle-borne optical radar systems, analytical capabilities can be extended to cover wider geographic areas. One of the objectives of the present investigation is to assess the performance and application of a recently defined Shuttle optical radar system for the measurements of sodium and potassium in the 80-110-km region. A second objective is related to a study of the effects of high-intensity laser beams on the optical radar measurements, giving particular attention to the saturation in the atomic absorption of laser photons. A numerical simulation is conducted of the measurements of magnesium ions (Mg/+/) over the 80-500-km altitude range using recently defined Shuttle optical radar system parameters to study the performance of such a system.
- Publication:
-
Applied Optics
- Pub Date:
- July 1982
- DOI:
- Bibcode:
- 1982ApOpt..21.2365Y
- Keywords:
-
- Atmospheric Composition;
- Optical Radar;
- Potassium;
- Resonance Fluorescence;
- Sodium;
- Atmospheric Radiation;
- Backscattering;
- Calibrating;
- Error Analysis;
- Lasers;
- Magnesium;
- Simulation;
- Space Transportation System;
- Spacecraft Instrumentation;
- LIDAR;
- SODIUM;
- POTASSIUM;
- REMOTE SENSING;
- FLUORESCENCE