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Laser driven launch vehicles for continuous access to space

Authors :
Rollins, C. J
Bailey, A
Gelb, A
Gauthier, M
Goldey, C
Lo, E
Resendes, D
Rosen, D
Weyl, G
Source :
NASA. Lewis Research Center, Vision-21: Space Travel for the Next Millennium.
Publication Year :
1990
Publisher :
United States: NASA Center for Aerospace Information (CASI), 1990.

Abstract

The availability of megawatt laser systems in the next century will make laser launch systems from ground to orbit feasible and useful. Systems studies indicate launch capabilities of 1 ton payload per gigawatt laser power. Recent research in ground to orbit laser propulsion has emphasized laser supported detonation wave thrusters driven by repetitively pulsed infrared lasers. In this propulsion concept each laser repetition cycle consists of two pulses. A lower energy first pulse is used to vaporize a small amount of solid propellant and then after a brief expansion period, a second and higher energy laser pulse is used to drive a detonation wave through the expanded vapor. The results are reported of numerical studies comparing the detonation wave properties of various candidate propellants, and the simulation of thruster performance under realistic conditions. Experimental measurements designed to test the theoretical predictions are also presented. Measurements are discussed of radiance and opacity in absorption waves, and mass loss and momentum transfer. These data are interpreted in terms of specific impulse and energy conversion efficiency.

Details

Language :
English
Database :
NASA Technical Reports
Journal :
NASA. Lewis Research Center, Vision-21: Space Travel for the Next Millennium
Publication Type :
Report
Accession number :
edsnas.19910012839
Document Type :
Report