Meteorological effects on laser propagation for power transmission
Abstract
An examination of possible laser operating parameters for power transmission to earth from solar power satellites is presented, with particular attention paid to assuring optimal delivery at midlatitudes. The degradation of beam efficiency due to molecular scattering, molecular absorption, aerosol scattering, and aerosol absorption during beam propagation through the atmosphere can be alleviated by judicious choice of wavelength windows, elevating the receptor sites, using a vertical propagation path, or by hole boring, i.e., vaporizing the aerosol particles in the beam path. Analyses are given for the beam propagation through fog, haze, clouds, and snow using various transitions. Only weapons-quality lasers are seen as being capable of boring through clouds and aerosols, employing a CW beam with superimposed pulses at high power densities. It is concluded that further short wavelength transmission experiments be performed to demonstrate transmission feasibility with the CW/pulsed mode of beam propagation.
- Publication:
-
Space and Solar Power Review
- Pub Date:
- 1982
- Bibcode:
- 1982SSPRv...3....9B
- Keywords:
-
- Atmospheric Attenuation;
- Atmospheric Effects;
- Laser Power Beaming;
- Meteorological Parameters;
- Satellite Power Transmission;
- Transmission Efficiency;
- Aerosols;
- Atmospheric Windows;
- Boreholes;
- Cloud Cover;
- Molecular Absorption;
- Rain;
- Lasers and Masers