domingo, 9 de septiembre de 2018

The Legacy of NASA’s Dawn, Near End of Mission | NASA

The Legacy of NASA’s Dawn, Near End of Mission | NASA



Artist's rendering shows NASA's Dawn spacecraft

The Legacy of NASA’s Dawn, 

Near End of Mission

Revealing Solar System Time Capsules, Breaking Engineering Barriers
NASA’s Dawn mission is drawing to a close after 11 years of breaking new ground in planetary science, gathering breathtaking imagery, and performing unprecedented feats of spacecraft engineering.
Dawn’s mission was extended several times as it explored Ceres and Vesta, which when combined, make up 45 percent of the mass of the main asteroid belt. Now, the spacecraft is about to run out of a key fuel, hydrazine. When that happens, most likely between September and October, Dawn will lose its ability to communicate with Earth. It will remain in a silent orbit around Ceres for decades.
“Although it will be sad to see Dawn’s departure from our mission family, we are intensely proud of its many accomplishments,” said Lori Glaze, acting director of the Planetary Science Division at Headquarters in Washington. “Not only did this spacecraft unlock scientific secrets at these two small but significant worlds, it was also the first spacecraft to visit and orbit bodies at two extraterrestrial destinations during its mission. Dawn’s science and engineering achievements will echo throughout history.”
NASA’s Dawn spacecraft turned science fiction into science fact by using ion propulsion to explore the two largest bodies in the main asteroid belt, Vesta and Ceres. The mission will end this fall, when the spacecraft runs out of hydrazine, which keeps it oriented and in communication with Earth.
Dawn launched from Cape Canaveral Air Force Station in September 2007, strapped on a Delta II-Heavy rocket. From 2011 to 2012, the spacecraft swept over Vesta, capturing images of craters, canyons and even mountains of this planet-like world.
Then in 2015, Dawn’s cameras spotted a cryovolcano and mysterious bright spots on Ceres, which scientists later found might be salt deposits produced by the exposure of briny liquid from Ceres’ interior.
“Dawn’s legacy is that it explored two of the last uncharted worlds in the inner Solar System,” said Marc Rayman of NASA’s Jet Propulsion Laboratory, Pasadena California, who serves as Dawn’s mission director and chief engineer. “Dawn has shown us alien worlds that, for two centuries, were just pinpoints of light amidst the stars. And it has produced these richly detailed, intimate portraits and revealed exotic, mysterious landscapes unlike anything we’ve ever seen.”
Engineering Feats
Dawn is the only spacecraft to orbit a body in the asteroid belt. And it is the only spacecraft to orbit two extraterrestrial destinations. These feats were possible thanks to ion propulsion, a tremendously efficient propulsion system familiar to science-fiction fans and space enthusiasts. Dawn pushed the limits of the system’s capabilities and stamina, showing how useful it is for other missions that aim to visit multiple destinations.
Pushed by ion propulsion, Dawn reached Vesta in 2011 and investigated it from surface to core during 14 months in orbit. In 2012, engineers maneuvered Dawn out of orbit, and steered it though the asteroid belt for more than two years before inserting it into orbit around the dwarf planet Ceres, where it has been collecting data since 2015.
The mission targeted Ceres and Vesta because they function as time capsules, intact survivors of the earliest part of our history.
“Vesta and Ceres have each told their story of how and where they formed, and how they evolved -- a fiery magmatic history that led to rocky Vesta and a cooler, water-rich history that resulted in the ancient ocean world Ceres,” said Carol Raymond of JPL, principal investigator of the Dawn mission. “These treasure troves of information will continue to help us understand other bodies in the Solar System far into the future.”
Spectacular Ceres
On Ceres’s surface, scientists found the chemistry of an ancient ocean. “What we found was completely mind-blowing. Ceres’ history is just splayed all over its surface,” Raymond said.
Some of the bright spots turned out to be brilliant, salty deposits, made mainly of sodium carbonate that made its way to the surface in a slushy brine from within or below the crust.
The findings reinforce the idea that dwarf planets, not just icy moons like Enceladus and Europa, could have hosted oceans during their history -- and potentially still do. Analyses from Dawn data suggest there still may be liquid under Ceres’ surface and that some regions were geologically active relatively recently, feeding from a deep reservoir.
One of Dawn’s biggest reveals on Ceres lay in the region of Ernutet Crater. Organic molecules were found in abundance. Organics are among the building blocks of life, though Dawn’s data can’t determine if Ceres’ organics were formed from biological processes.
“There is growing evidence that the organics in Ernutet came from Ceres’ interior, in which case they could have existed for some time in the early, interior ocean,” said Julie Castillo-Rogez, Dawn’s project scientist and deputy principal investigator at JPL. 
Vibrant Vesta
At Vesta, Dawn mapped the craters of this planet-like world and revealed that its northern hemisphere had experienced more large impacts than expected, suggesting there were more large objects in the asteroid belt early on than scientists thought.
In 1996, the Hubble space telescope relayed images of a mountain at the center of an enormous Vesta basin now called Rheasilvia. Dawn’s mapping showed it to be twice the height of Mt. Everest, and it revealed canyons that rival the Grand Canyon in size.
Dawn also confirmed Vesta as the source of a very common family of meteorites.
Nearing the End
Dawn has continued to gather high-resolution images, gamma ray and neutron spectra, infrared spectra and gravity data at Ceres. Nearly once a day, it will swoop over Ceres about 22 miles (35 kilometers) from its surface -- only about three times the altitude of a passenger jet -- gathering valuable data until it expends the last of the hydrazine that feeds thrusters controlling its orientation.
Because Ceres has conditions of interest to scientists who study chemistry that leads to the development of life, NASA follows strict planetary protection protocols for the disposal of the Dawn spacecraft. Unlike Cassini, which deliberately plunged into Saturn’s atmosphere to protect the system from contamination -- Dawn will remain in orbit around Ceres, which has no atmosphere.
Engineers designed Dawn’s final orbit to ensure it will not crash for at least 20 years -- and likely decades longer.
Rayman, who led the team that flew Dawn throughout the mission and into its final orbit, likes to think of Dawn’s end this way: as “an inert, celestial monument to human creativity and ingenuity.”
More on Dawn’s mission legacy is here: https://dawn.jpl.nasa.gov/mission/toolkit/
The Dawn mission is managed by JPL for NASA's Science Mission Directorate in Washington. Dawn is a project of the directorate's Discovery Program, managed by NASA's Marshall Space Flight Center in Huntsville, Alabama. JPL is responsible for overall Dawn mission science. Northrop Grumman in Dulles, Virginia, designed and built the spacecraft. The German Aerospace Center, Max Planck Institute for Solar System Research, Italian Space Agency and Italian National Astrophysical Institute are international partners on the mission team.
For a complete list of mission participants, visit:
More information about Dawn is available at the following sites:
Dwayne Brown / JoAnna Wendel​
Headquarters, Washington
202-358-1726 / 202-358-1003
dwayne.c.brown@nasa.gov / joanna.r.wendel@nasa.gov
Gretchen McCartney
Jet Propulsion Laboratory, Pasadena, Calif.
818-393-6215
gretchen.p.mccartney@jpl.nasa.gov
2018-210                                                               
Last Updated: Sept. 7, 2018
Editor: Tony Greicius

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