NASA's primary research program for developing these technologies is Prometheus Nuclear Systems and Technology. Named for the ancient Greek god of fire and craft, Prometheus has two initial objectives:

1. To develop nuclear-powered propulsion systems

2. To build Prometheus 1, a spacecraft that could conduct far-reaching, long-lasting exploration missions

Prometheus 1 would launch using conventional chemical rockets. But once in Earth's orbit, a nuclear electric propulsion system would propel it through space.

Nuclear electric propulsion is over 10 times more efficient than chemical rockets and produces 20 times more power than the generators used on space probes such as Voyager and Cassini or solar-powered systems like Deep Space 1.

Coupled with traditional rocket launchers, nuclear electric propulsion would allow spacecraft to travel farther and faster and to perform in-flight course changes and precise maneuvers.

It would also carry heavier, power-hungry equipment, including precise cameras, sophisticated scientific instruments, high-speed computers and advanced communication systems.

"A nuclear electric propulsion system could propel and power at least ten times as much payload science as other systems," said Research Engineer Steve Oleson of the NASA Glenn Research Center. "It could allow a spacecraft to beam more information back to Earth."

As a result, scientists could closely study the surfaces of the outer planets and their moons as well as the surfaces and interiors of comets.

In a nuclear electric propulsion system, a nuclear reactor produces heat, a power-conversion system converts the heat to electricity, and an ion thruster uses the electricity to propel the spacecraft.

Artist's rendering of a Prometheus spacecraft in flight. Credit: NASA.

Deep Space 1, which launched in 1998, was the first spacecraft to use an ion thruster as its primary propulsion system. But that thruster, developed at the Glenn Research Center, drew its electricity from solar panels.

"Solar power is efficient and lasting, but it cannot stop a spacecraft at targets in the outer solar system that are past Mars," Oleson said. "The best way to study a planet is to land on it or travel in its orbit, and the only way we can do that in the outer solar system is with nuclear propulsion."

Scientists and engineers from the NASA Glenn Research Center and the Jet Propulsion Laboratory have worked for more than two years to build a high-power ion thruster that will help NASA realize the Vision for Space Exploration.

Dubbed Herakles, the new ion thruster is based on the Deep Space 1 system, but it will use electricity from a reactor to produce plasma from xenon - the same gas found in photo flash bulbs.

Ions from the plasma will be extracted and then accelerated at extremely high speeds. In space, as the xenon ion beam rushes from the thruster, it will propel the spacecraft in the opposite direction.

Although Herakles' thrust is as gentle as the force of 10 U.S. quarters in your hand, the speed of the spacecraft will constantly increase as it travels. That means Prometheus 1 could eventually reach speeds greater than 200,000 mph - 10 times faster than the speed of Space Shuttles.

The new ion thruster is designed to last seven to 10 years in space and is about 15 times more efficient than the Space Shuttle Main Engines.

"The more efficient the engine, the less fuel the spacecraft has to carry," said Dr. John Foster, NASA Glenn research engineer.

"That leaves more room for scientific instruments and allows the craft to perform multiple missions on just one tank of fuel."

Herakles and other components of Prometheus 1 are scheduled for advanced flight development in 2006. The spacecraft's first mission would be a long-duration robotic trip to the Moon.

But ultimately, Prometheus Nuclear Systems and Technology could help us explore the outer planets to search for signs of life and clues to the origin of the solar system.

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