Skip to comments.Russia's Dark Horse Plan to Get to Mars
Posted on 05/23/2009 5:05:38 AM PDT by LibWhacker
The Fobos-Grunt mission might pave the way for humanity's first permanent space baseon Phobos, Mars' bizarre moon.
Mars has been nothing but bad luck for the Russians. They have launched 20 probes to the planet since 1960, and all either failed or suffered from severe technical problems. But soonas early as this OctoberRussia will attempt to reverse its fortunes with one of the most ambitious unmanned space missions ever.
Instead of aiming straight for Mars, the Russians are going after Phobos, the larger of its two little satellites and one of the oddest objects around. Their probe, called Fobos-Grunt (Phobos soil in Russian), will not only land on Phobos but also scoop up some samples of the surface and send them to Earth. Understanding Phobos could tell us a lot about the early history of the solar system. It may give us clues to the formation of Earths moon and the moons of the other planets, and the role played by asteroid impacts in shaping the terrestrial [rocky] planets, says Alexander Zakharov of the Moscow-based Space Research Institute and chief scientist for Fobos-Grunt. Even more important, this mission could lay the groundwork for an innovative strategy for exploringand even colonizingMars itself.
Phobos is very different from our moon. It is a potato-shaped rock measuring only 12 miles by 17 miles, nearly as dark as coal, and dominated by a six-mile-wide crater called Stickney, evidence of a collision that nearly shattered the puny satellite. Phobos circles just 3,721 miles above the Martian surface (Earths moon averages a distance of 239,000 miles) and completes an orbit in 7 hours and 39 minutes, making a Phobos month on Mars less than one-third of a Martian day. In fact, Phobos circles so close to Mars that tidal forces are slowly causing its orbit to decay. Within the next few tens of millions of years it will crash into the planet; we are catching it at the tail end of its 4.5-billion-year life.
The same proximity to Mars that will one day doom Phobos makes it an extremely attractive staging post for human explorers. One side of Phobos always faces Mars, and on that hemisphere the planet dominates the sky. This makes Phobos a good place for monitoring most of the Martian surface. Moreover, any manned outpost on Phobos would be well shielded from space radiationprotected on one side by Mars and on the other by the satellites own bulk. From Phobos humans could explore the planets surface remotely using robots, eliminating the agonizing 10- to 20-minute delay that the operators of NASAs Mars rovers currently have to endure. Phobos would also be a natural staging area for manned excursions to Mars.
Before we start drawing up plans for outposts on Phobos, though, we need a much better grasp of what kind of place it is. Right now scientists do not even know exactly what Phobos is made of. It appears similar to a group of asteroids known as carbonaceous chondrites. These primitive objects contain amino acids, the building blocks of life, and appear to be nearly unchanged fragments of the material from which the solar system formed. Scientists have speculated that a rain of carbonaceous chondrites may have seeded early Earth with the raw material for biology here. Phoboss distinctive composition has led some scientists to suspect that it (along with Deimos, Marss other miniature satellite) might be a captured asteroid. But that is far from a foregone conclusion.
Phobos is a funny object, says David Beatty, chief scientist of the NASA Mars Exploration Directorate. Its kind of a mystery why Phobos is there and where it came from. RKA, the Russian space agency, hopes to get some answers by having Fobos-Grunt gather samples of Phoboss battered surface. Back on Earth, detailed analysis will identify their precise composition and age. (A suite of onboard instruments will also do some analysis on Phobos.) From this we should get new insights into the history of Phobos and a broader snapshot of what our solar system was like in its formative days.
In this mission, Fobos-Grunt will get a huge assist from the laws of orbital mechanics. Owing to the counterintuitive rules of space navigation, it takes remarkably little energy to get to Phobos from Earth. In fact, the energy required to travel between two spots in the solar system has virtually nothing to do with the distance between them. What really matters is a quantity called delta-v, the amount that a spaceships velocity must change to shift from one trajectory to another. Delta-v depends on how strong the gravitational fields are at your departure and arrival points; how much energy you need to swing farther out from (or in toward) the sun; and how much assistance you can get from atmospheric brakingthat is, skimming through a planets atmosphere to help slow down.
The total delta-v required for a mission to land on Phobos and come back is startlingly lowonly about 80 percent that of a round trip to the surface of Earths moon. (That is in part because of Phoboss feeble gravity; a well-aimed pitch could launch a softball off its surface.) It is actually easier to send a probe or cargo to Phobos than to the moon. The comparison for a manned flight is more complicated, since a crew would need much more food and air for the six-month journey to Phobos than for the three-day trip to our moon. But the huge additional delta-v needed to get down to the Mars surface and back up into orbit again means it would be vastly cheaper and easier to maintain an outpost on Phobos than on the Martian surface.
If the mission is successful, Fobos-Grunt will be the first probe to explore the Earth-Phobos-Earth space highway. The one-ton probe will enter orbit around Mars in August or September 2010 (assuming Russias schedule does not slip) and begin studying Phobos remotely. Once the mission scientists have selected a good landing spot, the spacecraft will touch down on the satellites surface sometime in March or April 2011. Then Fobos-Grunt will extend a robot arm and start collecting samples of regolithsurface soil and rocksfor return to Earth. The main body of the probe will serve as a launchpad for the small return module and remain permanently on Phobos. When the 233-pound return module reaches Earth in June or July 2012, it will drop off a soccer-ball-size capsule containing a thumb-size canister of precious Phobos soil; finally, the canister will make a hard landing in a remote region of Kazakhstan.
Planetary scientists hope that analysis of Phoboss regolith will shed light on the nature of the satellites deep interior because of the turnover between the surface and the interior over the eons. Phoboss density is very low, about two-thirds that of ordinary basalt. This could mean that it is similar to water-rich objects in the outer edge of the asteroid belt, or it could mean that Phobos is a rubble pile, with many empty cavities between rock fragments. The single most important issue to address on Phobos regarding the future human exploration of Mars is the question of water, says Pascal Lee, chairman of the Mars Institute, a research organization. Does Phobos contain any water, and if so, in what amount, form, and location? Answers to these questions will help determine how we will travel to Mars.
Owing to the rules of space navigation, it takes remarkably little energy to get from Phobos to Earth.
Phoboss exterior poses some riddles of its own. Its most striking visual structures (aside from the giant Stickney crater) are sets of crater chains that line up across the surface. Deimos does not have anything like them, nor do any of the half-dozen regular asteroids imaged by space probes so far. One theory is that the craters are old steam vents, relics of an ancient catastrophe that cracked Phoboss crust and heated its interior, sending steam blasting outward. This would be good news for future human visits to Mars, as vents would mark the location of water-bearing minerals, perhaps even buried deposits of water ice. Another, less enticing possibility is that the holes are crevices opened by tidal forces or by impacts that caused the entire moon to flex.
A third theory holds that the crater chains are tied to ancient impacts on Mars. Some meteor strikes in Marss past were powerful enough to propel pieces of the planets crust at speeds greater than escape velocity, some 3.1 miles per second. We know this because scientists have found meteorites on Earth that clearly originated on Mars; these pieces evidently drifted around the solar system before landing here. If some fragments of the Martian surface reached Earth, many more of them should have hit Phobos on the way out. The swarms of rocks sent flying by a major impact on Mars might have created the crater chains seen on Phobos. In fact, by some estimates, up to 10 percent of the satellites surface might consist of material that originated on Mars.
Seen in this light, Russias Fobos-Grunt strategy looks rather clever. Despite its low profile, Phobos may turn out to be one of the most intriguing places in the solar system. And, located in a sweet spot of accessibility, it is a natural outpost for future space exploration, whether with people or with probes. If there is a key stepping-stone from Earth to Mars, this odd, intriguing space rock could be it.
I bet Russia never completes this mission.
Learned in grade school that Phobos and Deimos are Greek for “fear” and “panic”. This was due to the (mistaken) notion that they circle Mars in opposite directions.
Reminds me of a joke early in the space race: while the U.S. and Soviets were aiming for the moon, France was concentrating on getting to Mars first. Reason?
“Because, if there is intelligent life on Mars, it will speak FRENCH, but of course!”
Man is not going to visit Mars for at least two centuries. Folks don’t appreciate the difficulties of doing that. It makes the moon look like a walk in the park.
Can you imagine what their space ship isgoing to look like? Probably like the Tin Man’s hat.
Considering that Obama has slashed the NASA budget I believe you.
On the other hand, if someone says there’s gold there, we might see another gold rush...
I doubt the Russians can pull this off. Very interesting article, though.
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