MarsDrive

The system Parker describes is predicated on the need to create a mammoth magnetic field of 20 teslas—some 600,000 times what one would find at the Earth's equator. Bamford is quick to caution that her team's results are preliminary, but she believes that an effective field could be much weaker, perhaps just one tesla.

The large-magnet approach, Bamford says, "is based on the assumption that you need to create a very large bubble," multiple kilometers across. "What we've been working on is the assumption that the bubble doesn't have to be that large—as small as 100 meters across," she says, "and you can get away with a much smaller magnet." This discrepancy owes in part to the fact that Bamford's team focused on solar energetic particles (those emitted from our sun) while Parker focused on cosmic-ray particles from exploding stars elsewhere in the universe.

"I was more concerned about the galactic cosmic rays, which are higher-energy, which takes therefore a stronger magnetic field," Parker says. His estimates hinge on the need to deflect particles some 20 times more energetic than those targeted by Bamford and her colleagues. The risks of those particles are not insignificant: cosmic rays would do enough damage over a year's journey through the solar system to break through a third of the DNA in an astronaut's body, according to a NASA estimate cited by Parker. (A round-trip to Mars, with current technology, would take at least that long.)

"There is still the unknown medical end of things that has not been properly investigated," Parker says, referring to the unknown effects of such long-term exposure to radiation. "And it is not obvious how to investigate it properly."

Bamford acknowledges that the magnetic field approach is not a magic bullet—more like an arrow in the quiver. Other strategies, she says, would have to be developed to minimize the risk to astronauts. But if a lightweight deflector of solar energetic particles could be developed, a trip to Mars might appear just that much less far-fetched.