Mars vs. Comet in 2014
Scientists Prepare for Red Planet Sky Show
A close encounter between Mars and Comet C/2013 A1 (Siding Spring) in 2014 is creating both opportunity and anxiety in scientific circles. Scientists are in the early stages of assembling a comet-watching campaign that uses a spacecraft currently orbiting the Red Planet, as well as rovers on the Martian surface.
Scientists are also investigating what techniques could be used to prevent cometary debris from hitting Mars-orbiting spacecraft as the comet and planet converge.
The Mars-bound comet was discovered by Rob McNaught on Jan. 3 at Siding Spring Observatory in Australia. Scientists estimate that this comet arrived from our solar system’s distant Oort cloud and has been on a more than 1-million-year journey. The comet could contain volatile gases that short-period comets often lack due to their frequent returns to the sun’s neighborhood.
Scientists expect the comet’s closest approach to Mars to occur on Oct. 19, 2014, at about 11:45 a.m. PDT (18:45 GTM).
At that time, the comet will be on the sunward side of Mars.
The comet and its tail should be a stunning sight in the predawn Martian sky just before the closest approach, as well as in the post-dusk sky just after the closest approach.
Will the comet hit Mars?
The close encounter will give scientists the opportunity to make observations, said Richard Zurek, chief scientist for the Jet Propulsion Laboratory’s (JPL) Mars Program Office and project scientist for NASA’s Mars Reconnaissance Orbiter (MRO).
“Given the present uncertainties of the comet’s path and size, it is difficult to do any detailed planning now, but that will change by the end of the year, with continued observations of the comet,” Zurek told SPACE.com.
New observations of Siding Spring have allowed NASA’s Near-Earth Object (NEO) Office at the JPL to refine the comet’s orbit.
The latest orbital plot places the comet’s closest approach to Mars a little farther out than previously estimated — at about 73,000 miles (117,000 kilometers) from the surface of the Red Planet.
Therefore, the chance that the comet will hit Mars has diminished to about 1 in 8,000, JPL NEO experts said.
Future observations of the comet are expected to refine the orbit predictions further.
Safety measures on Mars
There is a slight possibility that the comet could graze ― or even hit ― Mars, Zurek said. “If that is not ruled out by future observations of the comet, we will have to start thinking about what precautions we should take,” he said.
Those safety measures would include positioning the orbiters so that they are on the other side of Mars at the time of comet impact.
“We are not worrying about that right now, since the probability is very low and likely to be ruled out in the next few months by continued monitoring of the comet’s progress,” Zurek said.
Even tiny comet dust particles traveling with a relative velocity of 56 km per second (just over 125,200 mph, or 201,600 km/h) could sandblast Mars-orbiting spacecraft. The satellites could potentially be ordered to turn away or feather their solar panels to mitigate the possible dust impacts.
Comet ISON campaign: a rehearsal
Siding Spring isn’t the only comet that will approach Mars within the next two years. Comet ISON, discovered in September 2012, will streak through the inner solar system this October and could be one of the brightest comets ever seen.
However, according to Zurek, the distance between Siding Spring and Mars will be 100 times smaller than the distance between Comet ISON and Mars.
“That’s close enough that the orbiters — Mars Odyssey, MRO, and the European Space Agency’s Mars Express — at least could see structure in the coma, and tail and make estimates perhaps of particle size, etc.,” Zurek said. “ISON observations also would help us practice for Siding Spring’s much closer passage a year later.”
“We are certainly expecting to observe Siding Spring with HiRISE and other MRO instruments,” added Alfred McEwen, director of the Planetary Image Research Lab at the University of Arizona in Tucson and the principal investigator for MRO’s HiRISE.
“Potential hazards to the spacecraft and instruments will be analyzed,” McEwen told SPACE.com. But the probability that this will be a major hazard seems low — at least to me — but the trajectory and comet properties remain poorly known. We have plenty of time to study this and get ready.”
This article was written by Leonard David, SPACE.com’s Space Insider Columnist, provided by space.com