Spacecraft used to forecast solar storm 15 hours before it hit Earth
The Solar Orbiter spacecraft sometimes lies directly between the sun and Earth, making it ideally placed to analyse powerful solar storms that could damage electronic systems on our planet
By Alex Wilkins
1 September 2025
Solar storms pose a threat to electronic systems on Earth
Solar Dynamics Observatory, NASA.
We may one day be able to forecast powerful solar storms capable of devastating Earth’s electronics more than half a day in advance, following a successful test of the approach using the Solar Orbiter spacecraft.
The sun occasionally releases powerful blasts of plasma called coronal mass ejections (CMEs), which can generate strong magnetic fields that might damage electronics on Earth. However, while we have satellites and telescopes watching for signs of a CME, we can’t accurately predict which ejections pose a threat, because this depends on the magnetic field inside the CMEs themselves.
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Among our most reliable tools for measuring these magnetic fields are satellites in gravitationally stable orbits around Earth called Lagrange points. These satellites are located hundreds of thousands of kilometres from Earth – but they are still positioned only about 1 per cent of the distance between our planet and the sun, which helps explain why they can only give warning of how powerful a CME might be less than an hour before it hits.
Now, Emma Davies at the Austrian Space Weather Office in Graz and her colleagues have found a way to provide an earlier warning using the European Space Agency’s Solar Orbiter, which orbits our star between 30 and 90 per cent of the distance between the sun and Earth. “Solar Orbiter is a science mission, it’s not really designed for this purpose,” says Davies. “This is just a bonus that we’ve been able to use it for a fortuitous alignment when a CME comes along.”
On 17 and 23 March this year, Solar Orbiter was passing between Earth and the sun when two pairs of CMEs began racing towards our planet. Davies and her team used the spacecraft’s measurements of the magnetic field and solar wind speed to model each CME’s internal magnetic structures, which they could then use to predict the strength of the geomagnetic storm that each CME would produce. The entire process took fewer than 5 minutes and allowed the researchers to predict the strength of the storms 7 and 15 hours, respectively, before they reached Earth.
