Mars spacecraft safe after fortuitous comet encounter

The HiRISE camera on NASA's Mars Reconnaissance Orbiter took these images of comet Siding Spring, the first resolved images of a long-period comet's nucleus. HiRISE took the pictures nine minutes apart at a range of 138,000 kilometers (86,000 miles) from the comet, yielding a scale of about 138 meters (150 yards) per pixel. Credit: NASA/JPL-Caltech/University of Arizona
The HiRISE camera on NASA’s Mars Reconnaissance Orbiter took these images of comet Siding Spring, the first resolved images of a long-period comet’s nucleus. HiRISE took the pictures nine minutes apart at a range of 138,000 km (86,000 miles) from the comet, yielding a scale of about 138 meters (150 yards) per pixel. Credit: NASA/JPL-Caltech/University of Arizona

A fleet of robotic spacecraft orbiting Mars got a front row seat to space history Sunday and lived to tell about it, giving scientists their first close-up look at a comet fresh from a cloud of primordial mini-worlds at the outer reaches of the solar system.

All five orbiters operating at Mars radioed Earth after Sunday’s flyby of comet C/2013 A1 — also known as Siding Spring — within 87,000 miles of the red planet, a near-miss in cosmic terms.

NASA’s Odyssey spacecraft, Mars Reconnaissance Orbiter, and the newly-arrived MAVEN probe designed to study the Martian atmosphere used the opportunity to take images and gather data on the comet and its effects on the red planet.

Carrying a telescopic high-resolution camera, MRO got the best view of Siding Spring, capturing the first resolved images of a long-period comet plunging into the inner solar system.

MRO’s HiRISE camera, managed by scientists at the University of Arizona, took a picture of Siding Spring from a distance of 138,000 kilometers, or about 86,000 miles.

It turns out the comet’s nucleus, or rocky-ice core, may be smaller than predicted.

Telescopic observers had estimated the comet’s nucleus to be about a kilometer, or 3,300 feet, in diameter. HiRISE’s imagery shows the nucleus is less than half that size.

The camera’s narrow field-of-view, designed to look down at Martian terrain, had to be perfectly aimed at the comet, requiring precise pointing of the spacecraft by engineers at MRO’s control center at Lockheed Martin in Denver.

Kelly Fast, a program scientist in NASA’s planetary science division, said MRO was equipped to look at the comet’s shape, rotation, brightness, and the composition of its coma, a fuzzy ball of dust and gas released from the nucleus by the warming rays of the sun.

Scientists say Siding Spring is making its first pass close to the sun after spending billions of years locked in the frozen frontier of the solar system — a region known as the Oort Cloud at the farthest reaches of the sun’s gravitational influence a light-year away.

“The comet was placed there after it formed, we think, in the first million or few million years of the beginnings of our solar system, so it’s a body that’s older than the Earth,” said Carey Lisse, a senior astrophysicist at the Johns Hopkins University Applied Physics Laboratory. “Imagine a body that’s about the size of a small Appalachian mountain or Downtown D.C. It’s made roughly half of rocky dust and half of volatile ices like water, carbon dioxide and carbon monoxide.”

Comet Siding Spring was a remnant left over from the early solar system, where dust and rock accreted to form the planets. Like other objects in the Oort Cloud encircling the sun, Siding Spring was ejected from the inner solar system by the slingshot-like effect of gravity when it came close to one of the budding planets.

Researchers used the Pancam on NASA's Mars Exploration Rover Opportunity to capture this view of comet C/2013 A1 Siding Spring as it flew near Mars on Oct. 19, 2014. Credit: NASA/JPL-Caltech/Cornell Univ./ASU/TAMU
Researchers used the Pancam on NASA’s Mars Exploration Rover Opportunity to capture this view of comet C/2013 A1 Siding Spring as it flew near Mars on Oct. 19, 2014. Credit: NASA/JPL-Caltech/Cornell Univ./ASU/TAMU

Although the comet was thousands of miles away, officials worried that particles from Siding Spring’s nebulous 300,000-mile-long tail could damage or destroy the orbiters as the comet whizzed past at a relative velocity of 126,000 mph, even though engineers deemed the risk low.

Ground controllers commanded the spacecraft to change their orbits to duck behind Mars at the time of greatest risk from ice and dust in the comet’s coma.

NASA said Odyssey, MRO and MAVEN were healthy after Sunday’s flyby.

Odyssey’s instruments were expected to study the comet’s coma and tail and take imagery in visible and infrared wavelengths, according to Fast.

MAVEN’s suite of particle detectors and atmospheric sensors were supposed to look for signs of heating or expansion of the Martian upper atmosphere caused by the comet. The orbiter’s ultraviolet imaging spectrometer was also expected to take images of Siding Spring and map its composition.

The European Space Agency’s Mars Express spacecraft, which has circled Mars since 2003, also survived the comet encounter, and India’s Mars Orbiter Mission was reported in good shape Monday, officials said.

According to an ESA blog on the Mars Express mission, the craft will downlink data from the comet flyby this week, including observations of the Martian atmosphere, ionosphere and images of Siding Spring itself.

NASA’s Curiosity and Opportunity rovers on the Martian surface were not in peril, but the robots were programmed to try to take pictures of Siding Spring.

NASA released an image from Opportunity’s panoramic camera Monday showing Siding Spring hanging in the Martian sky.

“It’s excitingly fortunate that this comet came so close to Mars to give us a chance to study it with the instruments we’re using to study Mars,” said Mark Lemmon, an Opportunity science team member Mark Lemmon from Texas A&M University, who coordinated the camera pointing. “The views from Mars rovers, in particular, give us a human perspective, because they are about as sensitive to light as our eyes would be.”

Find out more about Comet Siding Spring’s close encounter with Mars in our October issue. Available to order/download online.¬† Save off the shop price and subscribe to Astronomy Now.