A laser‐based rangefinder with high temporal resolution, synchronized with a laser burst, is employed for fast on‐site analysis of pulsed free flights. Additional high speed recordings from two different angles of view allow for full 3D‐reconstruction of the trajectory and calibration of the rangefinder data. This reveals the whole dynamics of the flyer including the lateral and angular impulse coupling components as well as information on the detonation process. The employment of an ignition pin enhances the reproducibility of the momentum coupling due to a more reliable plasma ignition during the flight. The impact of initial lateral offset is studied and shows beam‐riding properties of the parabolic craft within a small range. Back‐driving forces are derived and compared with the theoretical model. The flight stability is evaluated with respect to the minimization and compensation of the lateral and angular momentum in a hovering experiment. Stable laser acceleration ranges up to 3 m altitude. Ballistic free flights close to the laboratory ceiling at 7.8 m are reported.
High Speed Analysis Of Free Flights With A Parabolic Thruster
BEAMED ENERGY PROPULSION: 6th International Symposium ; 2009 ; Scottsdale (Arizona)
AIP Conference Proceedings ; 1230 , 1 ; 77-88
2010-05-06
12 pages
Conference paper
Electronic Resource
English
High Speed Analysis of Free Flights with a Parabolic Thruster
British Library Conference Proceedings | 2010
|Are aircraft parabolic flights really parabolic?
Online Contents | 2013
|Toroidal Plasma Thruster for Deep Space Flights
AIAA | 2003
|Free-Flying Robot Tested on Parabolic Flights: Kinematic Control
Online Contents | 2005
|Some results from parabolic flights
Elsevier | 1986
|