76-cm-diameter thruster with subscale grids tested to a 13,000-V beam voltage.
A high-voltage ion optics design was chosen for an assumed outer planet or interstellar precursor mission that would require a long-life, high-power, high-specific-impulse krypton ion engine. Such an engine could support energetic space missions to the outer planets or beyond. Detailed performance and lifetime analyses and several inexpensive subscale grid tests were conducted at the NASA Glenn Research Center and at the Colorado State University under a NASA Glenn grant. A subscale grid set of the selected geometry (shown in the photograph) was tested at voltages up to 13,000 V. This yielded a krypton ion beam current that would, when scaled to a full-size 50-cm diameter, produce an ion beam with a power of 30 kW at a specific impulse over 14,000 sec. The operational ion beam focusing limits, as a function of ion current per hole, were found to impose requirements of high uniformity on the discharge chamber plasma density. A full-size set of two-grid, 50-cm-diameter titanium ion optics has been fabricated and awaits testing.
Glenn contact: Vincent Rawlin, 216-977-7462, Vincent.K.Rawlin@grc.nasa.gov
Authors: Vincent K. Rawlin, George J. Williams, and Paul Wilbur
Headquarters program office: OAT (Colorado State University work funded under Grant NAG3-1801)
Programs/Projects: Backup for solar sail propulsion for
OSS deep space missions
Last updated: June 2002
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