Washington, March 7: Mars has become a beacon of interest for astronomers, scientists and every one of us. NASA scientists have proposed a bold plan that could give Mars its atmosphere back and make the red planet habitable for future generations of human colonists.NASA suggests that there could be a way to naturally give Mars its thick atmosphere back and it doesn't require nuking the Red Planet into submission, as Elon Musk once proposed. By launching a giant magnetic shield into space to protect Mars from solar winds, the space agency says we could restore the Red Planet's atmosphere and terra from the Martian environment so that liquid water flows on the surface once again. Mars may seem like a cold, arid wasteland these days, but the Red Planet is thought to have once had a thick atmosphere that could have maintained deep oceans filled with liquid water, and a warmer, potentially habitable climate.
Instead, the space agency thinks a powerful-enough magnetic shield launched into space could serve as a replacement for Mars's own lost magnetosphere, giving the planet a chance to naturally restore its own atmosphere. As the atmosphere becomes thicker, the team estimates Mars's climate would become around 4 degrees Celsius (7.2 degrees Fahrenheit) warmer, which would be enough to melt carbon dioxide ice over the Red Planet's northern polar cap. If this happened, the carbon in the atmosphere would help to trap heat like it does on Earth, triggering a greenhouse effect that could melt Mars's water ice, giving the Red Planet back its liquid water in the form of flowing rivers and oceans.
In new findings presented at the Planetary Science Vision 2050 Workshop, NASA's Planetary Science Division director, Jim Green, said launching an "artificial magnetosphere" into space between Mars and the Sun could hypothetically shield the Red Planet in the extended magnetotail that trails behind the protective field.
"This situation then eliminates many of the solar wind erosion processes that occur with the planet's ionosphere and upper atmosphere allowing the Martian atmosphere to grow in pressure and temperature over time," the researchers explain.
While the team acknowledges that the concept might sound "fanciful", they point to existing miniature magnetosphere research being conducted to protect astronauts and spacecraft from cosmic radiation and think that the same technology on a larger scale could be used to shield Mars.
"It may be feasible that we can get up to these higher field strengths that are necessary to provide that shielding," Green said. “We need to be able then to also modify that direction of the magnetic field so that it always pushes the solar wind away."
In the team's simulations, if the solar wind were counteracted by the magnetic shield, Mars's atmospheric losses would stop, and the atmosphere would regain as much as half the atmospheric pressure of Earth in a matter of years.
"This is not terraforming as you may think of it where we actually artificially change the climate, but we let nature do it, and we do that based on the physics we know today," Green said. If the concept does prove workable, there's no telling just how much it would alter the prospects of colonizing Mars in the future. "Much like Earth, an enhanced atmosphere would allow larger landed mass of equipment to the surface, shield against most cosmic and solar particle radiation, extend the ability for oxygen extraction, and provide 'open air' greenhouses to exist for plant production, just to name a few," the researchers explain. "If this can be achieved in a lifetime, the colonization of Mars would not be far away."