NASA's ESCAPADE to Study Space Weather Earth-Mars

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Mars is not what it used to be. Once warm, watery, and blanketed by a thick atmosphere, today the Red Planet is cold, dry, and draped by a thin atmospheric veil.

The main culprit is a relentless stream of particles from the Sun, known as the solar wind. Over billions of years, the solar wind has stripped away much of the Martian atmosphere, causing the planet to cool and its surface water to evaporate.

Now, NASA's ESCAPADE (Escape and Plasma Acceleration and Dynamics Explorers) mission, which launched on Nov. 13, 2025, has turned on the science instruments that will investigate how this happened and how the Sun continues to influence the Red Planet. The science instruments, which are all operating as of Feb. 25, also will study space weather in new ways near Earth and on the way to Mars.

At Mars, ESCAPADE's findings could also help NASA protect future explorers from the harsh Martian conditions.

"The pioneering ESCAPADE duo will not only investigate the Sun's role in transforming Mars into an uninhabitable planet, but also will help inform the development of space weather protocols for solar events directed at Mars during future human missions to the Red Planet," said Joe Westlake, heliophysics division director at NASA Headquarters in Washington. "By joining the heliophysics fleet of missions across the solar system, ESCAPADE will be another weather station making humans and technology in space safer and more successful."

First of its kind

With its twin spacecraft, ESCAPADE is the first science mission to coordinate two orbiters around Mars, gaining a perspective we've never had before. Together, the ESCAPADE twins will measure short-term changes in the magnetized environment around Mars, called the magnetosphere, and uncover real-time processes driving the planet's atmospheric escape.

"Having two spacecraft is going to help us understand cause and effect - how the solar wind, when it comes to Mars, interacts with the magnetic field," said Michele Cash, ESCAPADE program scientist at NASA Headquarters.

The ESCAPADE orbiters build on earlier Mars missions that have studied Mars' atmosphere, but with just one spacecraft.

"The ESCAPADE mission is a game changer," said Rob Lillis, the mission's principal investigator at the University of California, Berkeley. "It gives us what you might call a stereo perspective - two different vantage points simultaneously."

Once ESCAPADE reaches Mars, its twin spacecraft will follow each other in the same orbit, passing over the same areas at different times to uncover when and where changes are happening.

"When we have two spacecraft crossing those regions in quick succession, we can monitor how those regions vary on timescales as short as two minutes," Lillis said. "This will allow us to make measurements we could never make before."

After six months, the two spacecraft will shift into different orbits, with one traveling farther from Mars and the other staying closer to it. Planned to last for five months, this second formation aims to study the solar wind and Martian magnetosphere simultaneously, allowing scientists to investigate how Mars responds to the solar wind in real time.

"Prior spacecraft could either be in the upstream solar wind, or they could be close to the planet measuring its magnetosphere," Lillis said, "but ESCAPADE allows us to be in two places at once and to simultaneously measure the cause and the effect."

Preparing for human exploration

When people set foot on Mars, they will not be as well protected from solar radiation as their family and friends on Earth.

Earth can withstand the solar wind's ceaseless onslaught because it has a hardy magnetic field that shields us from the Sun's energetic particles. However, Mars' once robust magnetic field has weakened over time. Today it's a patchwork of localized magnetism in the planet's crust along with an ever-changing magnetic field generated by the solar wind's interaction with charged particles in Mars' upper atmosphere.

This "hybrid" magnetosphere provides little protection against the atmosphere-stripping force of the solar wind. This, plus Mars' thin atmosphere, allows the Sun's energetic particles to easily reach the Martian surface, endangering future human explorers there.

"Before we send humans to Mars, we need to understand what type of environment these astronauts are going to encounter," Cash said.