AbstractHigh energy pulses of a CO2 laser are focused in a parabolic mirror yielding to a laser-supported detonation. The generated thrust acting on the reflector as a bell nozzle is studied in multiple pulse free flight experiments with respect to axial, lateral and angular momentum coupling. The employment of an ignition pin on the reflector's axis of symmetry lowering the ignition threshold by several orders of magnitude is found to provide for a reproducible detonation process. The axial momentum coupling of each pulse is analyzed with respect to initial lateral offset and tilt during the flight. High speed analyses of recorded flights indicate that lateral momentum components occur re-centering the thruster on the beam. Thrust vector steering can be realized by tilt of the ignition pin inside the thruster, thus shifting the detonation. A design model of a laser-driven rocket including a remotely accessible steering gear was developed and tested successfully.
Stabilization and steering of a parabolic laser thermal thruster with an ignition device
Acta Astronautica ; 65 , 11-12 ; 1599-1615
2009-04-11
17 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
FPGA , field programmable gated array , FWHM , full width at half maximum , LiPo , Lithium polymere , LSD , laser-supported detonation , LTD , lightcraft technology demonstrator , POM , polyoxymethylene (Delrin™) , Laser propulsion , Lightcraft , Parabolic thruster , Beam riding , Steering , Impulse coupling
Stabilization and steering of a parabolic laser thermal thruster with an ignition device
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