The area borders the plains of Acidalia Planitia and the highlands of Arabia Terra. The name originally referred to the albedo feature (distinctively coloured area) that was visible from earthbound telescopes. Original article on part of the Cydonia region, taken by the Viking 1 orbiter and released by NASA/ JPL on July 25, 1976Ĭydonia ( / s ɪ ˈ d oʊ n i ə/, / s aɪ ˈ d oʊ n i ə/) is a region on the planet Mars that has attracted both scientific and popular interest. Once the rover is on the Martian surface, controllers will activate the solar-powered robot and command it to drive off of the Russian landing platform to begin its six-month primary mission.įollow us, Facebook and Google+. NASA remains a junior partner in ExoMars, having committed only to helping the mission with communications support through an Electra relay radio and by furnishing parts for an instrument on the rover that will analyze soil for organic constituents. "We stand ready to lend our expertise and help in any way we can to help ESA get to the surface of Mars," Green said. NASA's contributions will be subject to arms trade restrictions, which classify some space technologies as military munitions. Green said ESA has invited NASA experts to participate in design reviews and give advice to Europe, which itself has never achieved a successful landing on Mars.
It will be led by Russia."ĮSA also plans to tap into NASA's expertise in landing on Mars, said Jim Green, head of NASA's planetary science division and acting director of the agency's Mars robotic exploration program. "There is a lot of experience that will be gained in 2016 to mitigate the risks for 2018, in spite of the fact the descent module will not be led by Europe. "We will have a rather strong cooperation with Russia," Giorgio said. Giorgio said ESA's contributions to the landing system increase his confidence the mission will succeed. It will be based on landing legs, but the key sensors, as well as parts of algorithms for guidance, navigation and control, the radars and that kind of stuff will come from us."Įurope is also developing a parachute for the rover, while Russia will fabricate the lander's metal structure and heat shield, supply the descent module's braking rockets and build the separation systems required to open the system's aerodynamic shell before landing, according to Jorge Vago, ESA's ExoMars project scientist. "The final landing system is not based on airbags. The Russians "will have their own descent module, but the shape is not much different from the one before, in 2016," Giorgio said. "During the discussion, we told we are not going to fly our rover on a brand new system," Giorgio said.Īccording to Giorgio, Russia's rover landing design will incorporate elements of Europe's entry, descent and landing demonstrator, an immobile craft riding as a piggyback module on the 2016 orbiter. In addition to the rover, ESA is responsible for the 2018 mission's carrier module and significant components of the descent system that will guide the rover through the Martian atmosphere to a gentle touchdown. "That is why they are coming with us," joked Vincenzo Giorgio, vice president of exploration and science at Thales Alenia Space, prime contractor for ESA's ExoMars missions, speaking about the Russians. The country's last two attempted Mars missions never got beyond Earth orbit.
Since achieving the first soft landing on Mars in 1971, Russia has never repeated the feat. Roscosmos, the Russian space agency, will launch both ExoMars missions on Proton rockets from the Baikonur Cosmodrome in Kazakhstan, and Russia also took over NASA's role in building the rover's all-important entry, descent and landing craft.īut Mars has not been kind to Russia historically. With NASA's retreat from the program, European officials turned to Russia.
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NASA had promised to provide two Atlas 5 rockets to launch the European-built orbiter and rover, plus a "sky crane" landing system based on technology used on the Curiosity rover mission.