NASA’s troubled Mars sample-return program may have a new lifeline, in the form of a proposal from private space company Rocket Lab to help save the mission.
When the Perseverance rover landed on Mars in 2021, the plan was to follow up with a mission in the early 2030s that would retrieve the canisters containing samples of Martian dirt, rocks and atmosphere collected by the rover, and bring them to Earth for detailed study. The hope is that the samples will be able to tell researchers about conditions on Mars billions of years ago, and possibly whether the planet has ever supported life.
However, while Perseverance has been happily trundling along on the surface of Mars collecting samples from and around an ancient river delta in Jezero Crater, NASA’s plans for a sample-return mission, in conjunction with the European Space Agency, have hit some snags.
Deemed to have had “unrealistic budget and schedule expectations from the beginning,” by an Independent Review Board, the costs of NASA’s Mars sample-return plans have spiraled from $7 billion to $11 billion, which would be more than the James Webb Space Telescope, which itself went massively over budget. With cuts to NASA’s budget resulting in the early 2030s timeline being shunted back to 2040, a situation that the planetary science community and NASA consider unacceptable, NASA began looking for a new solution.
Related: Perseverance rover’s Mars samples must be brought back to Earth, scientists stress
So, in April, the agency asked for help, soliciting ideas from anyone who might have a faster, better and cheaper way of retrieving those precious samples. NASA ended up awarding contracts to 10 proposals, funding 90-day studies into their designs — and now California-based Rocket Lab has been selected to take its proposal further.
NASA’s original sample-return plan was highly ambitious, involving three separate spacecraft. First, a lander would touch down within 200 feet (60 meters) of Perseverance in Jezero Crater. The lander would deploy two helicopters, similar in design to NASA’s successful Ingenuity Mars helicopter, which would fly over to the rover, extract the samples and fly them back to the lander. The lander would then use a robotic arm to load the sample canisters into the Mars Ascent Vehicle, a two-stage rocket that would fly to Mars with the lander. Once loaded up, the rocket would be catapulted 16 feet (4.5 m) above the lander before igniting its engine so as not to damage the lander….
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