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NASA's Mars Sample Return mission is in trouble—but it's a vital step to sending humans to the red planet

NASA's Mars Sample Return mission is in trouble—but it's a vital step to sending humans to the red planet
Credit: NASA/JPL-Caltech

NASA recently asked the scientific community to help come up with innovative ideas for ways to carry out its Mars Sample Return (MSR) mission. This was in response to a report by an independent board that deemed that its US$11 billion (£8.7 billion) price tag was too expensive and its 2040 timeline too far in the future.

In brief, the ambitious plan was to collect rock samples cached inside containers by NASA's Perseverance rover and deliver them to laboratories on Earth. Perseverance has been exploring Mars' Jezero Crater, thought to have once hosted an ancient lake, since 2021. The mission would deliver the samples by sending a lander that carries a rocket (NASA's Sample Retrieval Lander) down to the surface of Mars.

Perseverance would then deliver the cached to the lander, with small drone helicopters delivered on the lander as a back up. Perseverance's samples would then be launched into Mars' orbit using the lander's rocket. A spacecraft already in Martian orbit, the Earth Return Orbiter, would then intercept these samples and deliver them to Earth.

Seeing deadlines get pushed into the future isn't new. It has happened with NASA's plans to return to the moon and Europe's ExoMars mission to find life on the red planet. While it is good to be realistic about timelines, the landscape of space exploration has changed over the last two decades, as organizations like NASA experience large scale financial strain and job losses.

State superpowers are no longer sending people to the moon with huge budgets as they did in the Apollo era. So innovation and efficiency are vital for making space exploration financially possible.

Private companies are taking up a larger market share of space in the west. This is a watershed moment for space exploration and a wake-up call to pursue innovation that reins in spending. The alternative is to risk abandoning the final frontier.

A dry run for astronauts

Mars sample return has the potential to be scientifically groundbreaking in several ways. Rocks collected from Jezero Crater, specifically an outcrop called Bunsen's Peak, has been found to be made up of minerals deposited in water.

On Earth, minerals deposited through water are good at trapping biological material, such as microorganisms. They can also give an indication of climate conditions at the time the rock formed.

There are limits to the science that can be carried out with scientific instruments that are also light enough to be loaded onto a rover. The ability to analyze samples of Martian rock in a lab on Earth could yield profound insights into the possibilities for life in space.

But there is an even more fundamental reason as to why Mars sample return is so important. It's a stepping stone to putting humans on Mars. NASA's program of human space exploration explicitly aims to put humans on Mars.

NASA's Mars Sample Return mission is in trouble—but it's a vital step to sending humans to the red planet
Perseverance has been collecting cores from scientifically interesting rocks for their eventual return to Earth. Credit: NASA/JPL-Caltech/ASU/MSSS

If you can't bring back a rock sample, how will you ever bring back an astronaut? The safe storage and return of goods by launching from another planet back to Earth, in an economically viable way, are all necessary for a human Mars mission.

Missions in space are dangerous, with astronauts unable to rely on mission control over 100 million miles away. Any attempt to put boots on Mars must be done in a phased manner in order to reduce risk.

A number of space agencies around the world are exploring the potential missions to deliver samples of material from Mars or its moons, including China and Japan. Part of the reason for this interest is as a proof-of-concept for human landings—albeit a scaled-down one.

Innovation and miniaturization

Despite the importance of the mission, NASA still needs to cut the Mars sample return budget from US$11 billion to US$8 billion in order to fulfill it. While a revised plan aims to streamline the mission architecture to make it less complex, as NASA's call for ideas suggests, innovation from academia will need to be brought in at a design level.

There are many examples where engineers are already coming up with innovations to space exploration hardware that could deliver such efficiencies. For example, smaller, lighter rovers that are still able to withstand the harsh environments on other planetary bodies could cut costs and deliver other benefits.

An unconventional chassis based on the way that sandfish move around on shorelines could help rovers overcome large obstacles with less wheels, slimming down its weight and size.

Weight could also be saved on rovers by exploring innovative drilling and sampling methods. Prototype solutions with internal mechanisms that support lighter drills and expanded sample storage should be a priority for designers. These might not help the current Mars sample return , which will use a rover already on Mars, but it could bring down the cost of future sampling missions.

NASA asking the scientific community to come up with new ways to carry out Mars sample return is a recognition that things cannot go on as they are. Space exploration needs to embrace innovation, and a first step for that is engaging with academia.

To consolidate and accelerate transitional research, transferring knowledge from original inventors in the lab to the field will be vital to the field's longevity and depends on closer, sustainable relationships with academics and research groups looking at space.

Private companies entering the space race—and new space powers like India, China, Saudi Arabia and the UAE—have shown that they are willing to look beyond the designs which have worked up until now, embracing innovation to improve cost efficiency.

Unless legacy organizations begin to seriously consider how innovation and can make space exploration cheaper, they will have to ask themselves hard questions in future if they want to continue participating in cutting-edge space exploration.

Provided by The Conversation

This article is republished from The Conversation under a Creative Commons license. Read the original article.The Conversation

Citation: NASA's Mars Sample Return mission is in trouble—but it's a vital step to sending humans to the red planet (2024, April 30) retrieved 21 June 2024 from
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