Posted on 11/20/2017 1:18:57 PM PST by LibWhacker
NASA
Earth is most fortunate to have vast webs of magnetic fields surrounding it. Without them, much of our atmosphere would have been gradually torn away by powerful solar winds long ago, making it unlikely that anything like us would be here.
Scientists know that Mars once supported prominent magnetic fields as well, most likely in the early period of its history when the planet was consequently warmer and much wetter. Very little of them is left, and the planet is frigid and desiccated. These understandings lead to an interesting question: If Mars had a functioning magnetosphere to protect it from those solar winds, could it once again develop a thicker atmosphere, warmer climate, and liquid surface water?
James Green, director of NASAs Planetary Science Division, thinks it could. And perhaps with our help, such changes could occur within a human, rather than an astronomical, time frame.
In a talk at the NASA Planetary Science Vision 2050 Workshop at the agencys headquarters, Green presented simulations, models, and early thinking about how a Martian magnetic field might be re-constituted and how the climate on Mars could then become more friendly for human exploration and, perhaps, communities.
It consisted of creating a magnetic shield to protect the planet from those high-energy solar particles. The shield structure would consist of a large dipolea closed electric circuit powerful enough to generate an artificial magnetic field. Simulations showed that a shield of this sort would leave Mars in the relatively protected magnetotail of the magnetic field created by the object. A potential result: an end to large-scale stripping of the Martian atmosphere by the solar wind, and a significant change in climate.
The solar system is ours, lets take it, Green told the workshop. And that, of course, includes Mars. But for humans to be able to explore Mars, together with us doing science, we need a better environment.James Green
Is this terraforming, the process by which humans make Mars more suitable for human habitation? Thats an intriguing but controversial idea that has been around for decades, and Green was wary of embracing it fully.
My understanding of terraforming is the deliberate addition, by humans, of directly adding gases to the atmosphere on a planetary scale, he wrote in an email. I may be splitting hairs here, but nothing is introduced to the atmosphere in my simulations that Mars doesnt create itself. In effect, this concept simply accelerates a natural process that would most likely occur over a much longer period of time.
What he is referring to here is that many experts believe Mars will be a lot warmer in the future, and will have a much thicker atmosphere, whatever humans do. On its own, however, the process will take a very long time.
A relatively small change in atmospheric pressure can stop an astronauts blood from boiling.
To explain further, first a little Mars history.
More than 3.5 billion years ago, Mars had a much thicker atmosphere that kept the surface temperatures moderate enough to allow for substantial amounts of surface water to flow, pool, and perhaps even form an ocean. (And who knows, maybe even for life to begin.) But since the magnetic field of Mars fell apart after its iron inner core was somehow undone, about 90 percent of the Martian atmosphere was stripped away by charged particles in that solar wind, which can reach speeds of 250 to 750 kilometers per second.
Mars, of course, is frigid and dry now, but Green said the dynamics of the solar system point to a time when the planet will warm up again. He said that scientists expect the gradually increasing heat of the sun will warm the planet sufficiently to release the covering of frozen carbon dioxide at the north pole, will start water ice to flow, and will in time create something of a greenhouse atmosphere. But the process is expected to take some 700 million years.
The key to my idea is that we now know that Mars lost its magnetic field long ago, the solar wind has been stripping off the atmosphere (in particular the oxygen) ever since, and the solar wind is in some kind of equilibrium with the outgassing at Mars, Green said. (Outgassing is the release of gaseous compounds from beneath the planets surface.) If we significantly reduce the stripping, a new, higher pressure atmosphere will evolve over time. The increase in pressure causes an increase in temperature. We have not calculated exactly what the new equilibrium will be and how long it will take.
The reason why is that Green and his colleagues found that they needed to add some additional physics to the atmospheric model, dynamics that will become more important and clear over time. But he is confident those physics will be developed. He also said that the European Space Agencys Trace Gas Orbiter now circling Mars should be able to identify molecules and compounds that could play a significant role in a changing Mars atmosphere.
So based on those new magnetic field models and projections about the future climate of Mars, when might it be sufficiently changed to become significantly more human friendly?
In the simulation, the magnetic field is about 1.6 times strong than that of Earth.
Well, a relatively small change in atmospheric pressure can stop an astronauts blood from boiling, and so protective suits and clothes would be simpler to design. But the average daily range in temperature on Mars now is 170 degrees Fahrenheit, and it will take some substantial atmospheric modification to make that more congenial.
Greens workshop focused on what might be possible in the mid-21st century, so he hopes for some progress in this arena by then.NASA/JPL-Caltech/MSSS
One of many intriguing aspects of the paper is its part in an NASA effort to link fundamental models together for everything from predicting global climate to space weather on Mars. The modeling of a potential artificial magnetosphere for Mars relied, for instance, on work done by NASA heliophysicsthe quite advanced study of our own sun.
Chuanfei Dong, an expert on space weather at Mars, is a co-author on the paper and did much of the modeling work. He is now a postdoc at Princeton University, where he is supported by NASA. He used the Block-Adaptive-Tree Solar-Wind Roe-Type Upwind Scheme (BATS-R-US) model to test the potential shielding effect of an artificial magnetosphere, and found that it was substantial when the magnetic field created was sufficiently strong. Substantial enough, in fact, to greatly limit the loss of Martian atmosphere due to the solar wind. As he explained, the artificial dipole magnetic field has to rotate to prevent the dayside reconnection, which in turn prevents the nightside reconnection as well.
If the artificial magnetic field does not block the solar winds properly, Mars could lose more of its atmosphere. Thats why the planet needs to be safely within the magnetotail of the artificial magnetosphere.
In their paper, the authors acknowledge that the plan for an artificial Martian magnetosphere may sound fanciful, but they say that emerging research is starting to show that a miniature magnetsphere can be used to protect humans and spacecraft. In the future, they say, it is quite possible that an inflatable structure can generate a magnetic dipole field at a level of perhaps 1 or 2 Tesla (a unit that measures the strength of a magnetic field) as an active shield against the solar wind. In the simulation, the magnetic field is about 1.6 times strong than that of Earth.
As a summary of what Green and others are thinking, here is the results section of the short paper:
It has been determined that an average change in the temperature of Mars of about 4 degrees C will provide enough temperature to melt the CO2 veneer over the northern polar cap.
The resulting enhancement in the atmosphere of this CO2, a greenhouse gas, will begin the process of melting the water that is trapped in the northern polar cap of Mars. It has been estimated that nearly 1/7th of the ancient ocean of Mars is trapped in the frozen polar cap. Mars may once again become a more Earth-like habitable environment.
The results of these simulations will be reviewed (with) a projection of how long it may take for Mars to become an exciting new planet to study and to live on.
Just a passing reference in the article that would seem, on the surface, to be utterly ridiculous. An entire planet's iron core was "somehow undone"? What exactly might that geophysical or chemical process might be? Did the strong force just up and decide to retire?
Quaid, start the Reactor!
It’s a shame Mars is so small compared with Earth and Venus.
I think the standard view is that Mars’ core cooled down and largely solidified, thus cutting off its magnetic field (which could then no longer protect the planet’s atmosphere from the solar wind and cosmic rays). Hasn’t happened on Earth yet, because Earth is quite a bit larger and its core is still molten.
Who does the guy from NASA think “we” is?
One word that says so much....
Whatever you do, please don’t let Muslims go to Mars. Keep it peaceful.
Didn’t they address this issue in the movie Total Recall already (including the funny faces you make when you run out of air)?
It’s amazing to me though that an artificial magnetic field at L1 could protect the planet 600 thousand miles away!
We = humans. He’s talking about humans.
A$$holes. The process by which Mars lost its atmosphere has not stopped. It is still there. The gases that you plan to put on Mars’ surface will go the way of the previous gases. This should be obvious.
So, pump oxygen/carbon dioxide/nitrogen onto Mars’ surface. Watch it go into space. Wheeeee!
Enough of this crap. The reason why they want to put humans on another planet is to start civilization all over again, this time WITHOUT RELIGION (except for *slam, which will be given privileged status.)
I enjoy sci-fy articles and creative ideas. But they are funny to us now with technology we currently have.
First, we only need to create a magnetic field to surround Mars that is stronger than Earth’s. And we cannot use Mars’ iron core for this because it’s already dead. We can use inflatable bags that will stay in a synchronous orbit between the sun and Mars at a specific distance from the red planet. Sounds easy.
What in the world is stopping us? LOL.
You must not have read the article.
Not much. We have satellites hovering at Earth's L1 right now.
I’ve read that it’s radioactive decay that keeps earth’s core hot.
Ah—the humans all united with one agenda and one goal—those humans.... :-(
Space stations are the answer. I’ll take a good’ol death star any day over mars.
Even simpler, just melt the core of Mars so that it becomes molten again!
What would be the mass of a real death star? All metal the size of a small moon? Would it create it's own gravity. Where would we get all the metal that would be needed? It it came from earth, would that affect the mass of our own planet, gravity, rotation, etc.? I've had these questions since I saw Star Wars for the first time. LOL
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