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Proceedings Paper

NEO deflection by laser ablation: experimental results (Conference Presentation)

Paper Abstract

Asteroids impact Earth daily. Some, like the Chelyabinsk Meteor that exploded over Siberia in 2013, can cause massive disruption to human enterprise (~$33M in damages) and thousands of injuries. To mitigate this potentially disastrous threat, our group has posited a phased laser array which would be used to direct energy towards approaching asteroids or other dangerous near Earth objects (NEOs). The laser array would ablate the NEO’s surface, inducing mass ejection, that would then cause a reactant thrust on the NEO in the opposite direction of the laser. To verify this concept in a laboratory environment, this work quantitatively measured the thrust induced on basalt and other asteroid regolith simulant by a 350W laser array. By placing the sample target on a torsion balance and measuring its angle of deflection under ablation, it is possible to calculate the induced thrust per unit watt. This angular change is measured with a secondary laser that reflects off of the torsion balance into an optical position sensor. By comparing this paper’s experimental results with prior theoretical and computational work, we can surmise a theoretical relationship between NEO size and required laser power for future NEO deflection missions.   

Paper Details

Date Published: 19 September 2017
PDF
Proc. SPIE 10401, Astronomical Optics: Design, Manufacture, and Test of Space and Ground Systems, 1040103 (19 September 2017); doi: 10.1117/12.2273588
Show Author Affiliations
Jessie Su, Univ. of California, Santa Barbara (United States)
Nicholas Rupert, Univ. of California, Santa Barbara (United States)
Jonathan A. Madajian, Univ. of California, Santa Barbara (United States)
Travis R. Brashears, Univ. of California, Santa Barbara (United States)
Gary B. Hughes, California Polytechnic State Univ., San Luis Obispo (United States)
Philip M. Lubin, Univ. of California, Santa Barbara (United States)


Published in SPIE Proceedings Vol. 10401:
Astronomical Optics: Design, Manufacture, and Test of Space and Ground Systems
Tony B. Hull; Dae Wook Kim; Pascal Hallibert, Editor(s)

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