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Humans could safely travel to Mars if the mission is less than four years

By Georgina Torbet Published April 28, 2022

When it comes to sending people to Mars, one of the biggest barriers is the potential effects of the Martian environment on human health. There’s still a lot we don’t know about how living on Mars would affect the health of astronauts, with issues from the potentially toxic dust there to the deadly radiation which bombards the planet.

Now there’s some good news for would-be explorers: A team of researchers from the University of California, Los Angeles have been investigating one part of this puzzle — the amount of radiation that Martian visitors could be exposed to — and they’ve found that the radiation levels shouldn’t be unsafe as long as the mission lasts less than four years.

The surface of Mars. — NASA

We’re lucky here on Earth to have a magnetosphere that protects us from radiation, but if you travel outside of the envelope of our planet, as visitors to Mars would have to, then they’ll be exposed to radiation. And we’re still very much in the early stages of understanding what the effects of this could be.

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The sticky issue is that there are actually two different types of radiation to content with: Energetic particles from the sun and galactic cosmic rays. Somewhat counterintuitively, the authors say it would actually be best to send a mission to Mars during a solar maximum, when the sun is at its most active. That’s because the sun’s activity can deflect some of the more harmful particles coming from outside the solar system.

We do have shielding technology to protect both spaceships and astronauts from radiation, so the researchers modeled how much radiation astronauts would be exposed to on a round-trip to Mars using current shielding. They found that relatively thick shielding would help keep astronauts safe as long as the trip didn’t last more than four years in total, but that making the shielding too thick would actually be more dangerous as it would increase their exposure to secondary radiation.

“This study shows that while space radiation imposes strict limitations on how heavy the spacecraft can be and the time of launch, and it presents technological difficulties for human missions to Mars, such a mission is viable,” said Yuri Shprits, a UCLA research geophysicist and co-author of the paper.

The research is published in the journal Space Weather.

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Georgina Torbet

Space Writer

Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…

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How NASA is using AI on the Perseverance rover to study Mars rocks

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Space engineers have been using AI in rovers for some time now -- hence why today's Mars explorers are able to pick a safe landing site and to drive around a region autonomously. But something they haven't been able to do before now is to do science themselves, as most of that work is done by scientists on Earth who analyze data and point the rover toward targets they want to investigate.

Now, though, NASA's Perseverance rover is taking the first steps toward autonomous science investigation on Mars. The rover has been testing out an AI capability for the last three years, which allows it to search for and identify particular minerals in Mars rocks. The system works using the rover's PIXL instrument (Planetary Instrument for X-ray Lithochemistry), a spectrometer that uses light to analyze what rocks are made of. The software, called adaptive sampling, looks though PIXL's data and identifies minerals to be studied in more detail.

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Auroras and radiation from solar storms spotted on Mars

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The specks in this scene were caused by charged particles from a solar storm hitting a camera aboard NASA’s Curiosity Mars rover. Curiosity uses its navigation cameras to try and capture images of dust devils and wind gusts, like the one seen here. NASA/JPL-Caltech

The recent solar storms caused epic events here on Earth, where auroras were visible across much of the globe last month. These storms, caused by heightened activity from the sun, don't only affect our planet though -- they also affect Mars. NASA missions like the Curiosity rover have been observing the effects of solar storms there, where the very thin atmosphere creates a potentially dangerous radiation environment. If we ever want to send people to visit the red planet, we're going to need to learn more about this radiation and how it's affected by events like solar storms.

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Fly over the trenches of Mars in stunning video of Nili Fossae

Fly across Nili Fossae with Mars Express.

A video simulates a flyover of the Nili Fossae trenches on Mars. CREDIT ESA/DLR/FU Berlin & NASA/JPL-Caltech/MSSS ACKNOWLEDGEMENTS Data: ESA/DLR/FU Berlin/NASA/MSSS ; Data processing and animation: Björn Schreiner, Greg Michael, Image Processing Group (FU Berlin) ; Music: Björn Schreiner ; Created by Freie Universität Berlin Planetary Sciences and Remote Sensing 2024 (CC BY-SA 3.0 IGO)

A new video from the European Space Agency (ESA) shows a stunning flyover of Mars's Nili Fossae trenches that was constructed using data from the Mars Express mission. The dramatic landscapes of Mars include huge mountains like Olympus Mons, the largest mountain in the solar system, and deep canyons.