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News Link • Space Travel and Exploration

More Efficient Space Engine Uses Carbon Nanotubes

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Ion-propulsion systems have propelled a handful of Earth-orbiting and interplanetary spacecraft over the past 50 years. Now researchers at Georgia Institute of Technology are developing more efficient ion thrusters that use carbon nanotubes for a vital component.

Efficient emitters: A micrograph of square arrays of carbon nanotubes on a one centimeter by one centimeter silicon wafer. The arrays are designed for use in an experimental cathode.
Credit: Georgia Institute of Technology

Ion propulsion works by accelerating electrically charged, or ionized, particles to propel a spacecraft. One of the most common ion engines, known as a "Hall Effect" thruster, ionizes gas using electrons trapped in a magnetic field. The resulting ions are then accelerated using the potential maintained between an anode and a cathode. But some of the emitted electrons must also be used to neutralize the ions in the plume emitted from the spacecraft, to prevent the spacecraft from becoming electrically charged. Existing Hall Effect thrusters must use about 10 percent of the spacecraft's xenon gas propellant to create the electrons needed to both run the engine and neutralize the ion beam.

The Georgia Tech researchers created a field emission cathode for the thruster using carbon nanotubes. In this type of cathode, electrons are emitted after they tunnel through a potential barrier. The carbon nanotube design is especially efficient because nanotubes are incredibly strong and electrically conductive. "By using carbon nanotubes, we can get all the electrons we need without using any propellant," says Mitchell Walker, principal investigator of the project and an assistant professor in the High-Power Electric Propulsion Laboratory at Georgia Tech. This means that 10 percent more of the ion thruster's propellant is available for the actual mission, extending a spacecraft's lifetime.

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