HiRISE Camera Will Take First Close-Up Pictures of Mars Sept. 29

"It's exciting because it's the first time we'll see Mars while the spacecraft is orbiting at about 300 kilometers (roughly 190 miles) above the planet's surface," HiRISE principal investigator and UA Professor Alfred S. McEwen said.

The HiRISE camera is the most powerful telescopic camera ever sent to another planet. The camera took its first impressive test images of Mars when it was as far as 2,500 kilometers (roughly 1,600 miles) away from the planet last March, just before MRO began "aerobraking." Aerobraking involved sending the bus-sized spacecraft through Mars' upper atmosphere 426 times between early April and Aug. 30. The technique successfully lowered MRO close to its final science orbit. This maneuver would have required an extra 600 kilograms (1,300 pounds) of fuel if thrusters had been used.

The spacecraft fired six thrusters to reach final science orbit on Sept. 11. The orbit crosses near Mars' north and south poles at altitudes ranging from 250 kilometers (155 miles) to 316 kilometers (196 miles) above the surface.

The HiRISE team has been working at top speed to prepare for the low-orbit images they'll get between Sept. 29 and Oct. 6.

"What makes these next test images exciting for our team is that this time, our effective resolution (sharpness) will be 10 times better," said HiRISE Operations Center (HiROC) manager Eric Eliason. "We're going to see some tremendous detail."

The Sept. 29 - Oct. 6 observing opportunity will be the first time that MRO will use the onboard targeting algorithm and procedures that point the spacecraft at their desired targets. The check-out is designed to test all the observing modes so that there is a smooth start to the primary science phase in November.

"The north polar cap and the Phoenix Mission landing region are our big priority targets for the early science phase, and so we've included them on our targeting check-out," McEwen said.

The NASA Scout-class Phoenix Mission is an international lander mission led by UA's Peter Smith. It is slated for launch in August 2007 for a May 2008 touchdown in Mars' north polar region.

"HiRISE's best chance for photographing candidate Phoenix mission landing sites is in October and November because the sun is getting lower as northern Mars moves into fall," McEwen said. Fogs and hazes will likely degrade viewing by early 2007, he added.

Other imaging targets include about 40 other locations which sample a wide variety of landscapes. The HiRISE team plans to get its first image on Sept. 29 of Ius Chasma, a complex floor that is part of Valles Marineris, a giant canyon system far larger than Arizona's Grand Canyon.

Engineers will turn off the HiRISE camera for a solar conjunction that starts the second week of October. Solar conjunction is when the sun is aligned between Earth and Mars. It will obstruct communications with the spacecraft for about three weeks.

NASA's Mars Reconnaissance Orbiter, launched August 12, 2005, will provide more science data than all previous Mars missions combined. Among its many objectives is a search for evidence that water persisted on the surface of Mars for a long period of time. Other Mars missions have shown that water flowed across the surface in Mars' history. But whether water was ever around long enough to provide a habitat for life remains a mystery.

The HiRISE team uses ISIS-3 software developed and maintained by the U.S.G.S.-Flagstaff for processing its images at HiROC. HiROC is located in the C. P. Sonett Space Sciences Building, 1541 E. University Blvd, on the UA campus.

Source: University of Arizona

Mars Reconnaissance Orbiter Reveals Rock Fracture Plumbing on Mars
(PhysOrg.com) -- NASA's Mars Reconnaissance Orbiter has revealed hundreds of small fractures exposed on the Martian surface that billions of years ago directed flows of water through underground Martian sandstone.
Mars rover Opportunity sets out on its greatest journey yet
(PhysOrg.com) -- The Mars rover Opportunity, which has just crawled out of the 800-meter-wide (875 yards) Victoria Crater is setting out on the longest journey of its life. It will take the rover roughly two years of driving at its top speed -- up to 100 meters (109 yards) a day -- to reach its new target, a crater 20 times the size of Victoria that the Mars Exploration Rover team has unofficially dubbed "Endeavour."
Mars Rover Opportunity To Head Toward Bigger Crater
(PhysOrg.com) -- NASA's Mars Rover Opportunity is setting its sights on a crater more than 20 times larger than its home for the past two years.
Orbiter's HiRISE Camera Saw Phoenix Heat Shield in Freefall on Landing Day
Scientists running the High Resolution Imaging Science Experiment, known as HiRISE, on NASA's Mars Reconnaissance Orbiter have processed more details in an amazing image their camera captured as the Phoenix spacecraft descended through Mars' atmosphere during its landing on May 25, 2008.
NASA Mars Lander Prepares to Move Arm
NASA's Phoenix Lander is ready to begin moving its robotic arm, first unlatching its wrist and then flexing its elbow. Mission scientists are eager to move Phoenix's robotic arm, for that arm will deliver samples of icy terrain to their instruments made to study this unexplored Martian environment.
Camera on Mars Orbiter Snaps Phoenix During Landing
A telescopic camera in orbit around Mars caught a view of NASA's Phoenix Mars Lander suspended from its parachute during the lander's successful arrival at Mars Sunday evening, May 25.
NASA Phoenix Mission Ready For Mars Landing
NASA's Phoenix Mars Lander is preparing to end its long journey and begin a three-month mission to taste and sniff fistfuls of Martian soil and buried ice. The lander is scheduled to touch down on the Red Planet May 25.
Rocky Mesas of Nilosyrtis Mensae, Mars
Mesas in the Nilosyrtis Mensae region of Mars appear in enhanced color in this image from the High Resolution Imaging Science Experiment (HiRISE) camera on NASA's Mars Reconnaissance Orbiter (MRO).

HiRISE Camera Will Take First Close-Up Pictures of Mars Sept. 29

Related stories:

News discussion: