Title :
Space power by ground-based laser illumination
Author :
Landis, Geoffrey A.
Author_Institution :
Sverdrup Technol. Inc., Cleveland, OH, USA
Abstract :
Reducing energy storage requirements of space power systems by illuminating the photovoltaic arrays with a remotely located laser system is addressed. It is proposed that large lasers be located on cloud-free sites at one or more ground locations and that large lenses or mirrors with adaptive optical correction be used to reduce the beam spread due to diffraction or atmospheric turbulence. During the eclipse periods or lunar night, the lasers illuminate the solar arrays to a level sufficient to provide operating power. Two applications are discussed: illumination of geosynchronous orbit satellites and illumination of a moonbase power system. Issues for photovoltaic receivers for such a system are discussed.<>
Keywords :
adaptive optics; laser beam applications; photovoltaic power systems; space vehicle power plants; adaptive optical correction; atmospheric turbulence; beam spread; cloud-free sites; diffraction; eclipse; energy storage; geosynchronous orbit satellites; ground-based laser illumination; lenses; lunar night; mirrors; moonbase power system; photovoltaic arrays; photovoltaic receivers; remotely located laser; solar arrays; space power; Adaptive optics; Energy storage; Lenses; Lighting; Mirrors; Optical arrays; Optical receivers; Photovoltaic systems; Power lasers; Solar power generation;
Journal_Title :
Aerospace and Electronic Systems Magazine, IEEE
