Michael Houts wants astronauts to ride a nuclear reactor to Mars. He is convinced that small amounts of uranium-235 — which has an energy density one million times greater than that of liquid fuels — could power rockets efficiently, using the heat of fission to accelerate small stores of lightweight hydrogen propellant. But although Houts, the nuclear-research manager at NASA’s Marshall Space Flight Center in Huntsville, Alabama, has an unwavering belief in the potential of space-based nuclear power and propulsion, the funding to develop that technology has been inconsistent. This year, he is leading a nuclear-propulsion project with a budget of US$3 million — minuscule in comparison with the $1.3 billion that NASA will spend on space-technology research and development in the 2012 fiscal year. “The funding at times has gone to zero,” says Houts. “You lose the teams and the momentum.”
Fission would be far preferable to the presently used chemical rocket propulsion, but would only be useful for inner solar system travel. For outer solar system travel and beyond, we will need something far more powerful and efficient. To read more, click here.
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