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Why the upcoming eclipse is still vital in the age of solar probes

Experiments will take advantage of the solar eclipse in August to learn more about the sun and Earth at a relatively low cost
The sun's corona
The sun鈥檚 corona in artificial colours that indicate the polarisation of the light, as measured by the Citizen CATE experiment
SwRI/Citizen CATE 2024/Ritesh Patel/Dan Seaton

Western Europe鈥檚 first total solar eclipse since 1999 will happen on 12 August and see eclipse chasers travel to eastern Greenland, western Iceland and northern Spain for totality, when the moon covers the sun鈥檚 disc and the usually hidden solar corona bursts into view. Solar and atmospheric scientists will be among them 鈥 and above them.

It is tempting to think total solar eclipses have been made obsolete for scientists by spacecraft. NASA鈥檚 Parker Solar Probe has flown through the sun鈥檚 corona, while the European Space Agency鈥檚 Solar Orbiter and study the sun from space. can even create artificial eclipses in orbit. So why do scientists still need to chase the moon鈥檚 shadow across Earth?

The answer is simple: total eclipses offer cheap and accessible opportunities to study both the sun and Earth. 鈥淩esearch groups that have novel ideas can go to an eclipse and take observations without having to bid for tens of millions of pounds鈥 worth of grants from NASA or the European Space Agency 鈥 the barrier to entry is much lower,鈥 says , a solar physicist at the Laboratory for Atmospheric and Space Physics in Boulder, Colorado.

One example is the , which will send teams from several US universities to Spain and Iceland to study atmospheric responses to the eclipse. Balloons released in Spain will reach an altitude of 27 to 37 kilometres, carrying 360-degree cameras, ozone instruments and radio experiments. Icelandic teams will launch balloons carrying radiosondes, devices that can monitor pressure, temperature, humidity and other atmospheric parameters. The idea is to measure the effects the eclipse has on the planetary boundary layer, the atmosphere鈥檚 lowest region where its behaviour is most heavily influenced by warm air rising from the ground.

NASA鈥檚 WB-57 high-altitude aircraft can measure polarised coronal light and will fly for the 2026 eclipse. Flying high avoids the problem of cloud cover obscuring the view, while also minimising atmospheric interference. 鈥淎t high altitude, you can observe infrared light that you can鈥檛 observe from the ground,鈥 says French.

During the 2024 total solar eclipse, 鈥 an experiment funded by the US National Science Foundation and NASA 鈥 used telescopes spread along the path of totality to create a 1-hour timelapse of the corona. This will be repeated during the 2026 eclipse, ahead of a plan to produce a timelapse of the corona with the larger experiment聽during the longer eclipse that will happen in August 2027. Totality in 2027 will last much longer because the new moon will be closer to Earth, and the path of totality is close to the equator, where Earth effectively bulges out towards the moon.

鈥淢ost of the scientific instruments at an eclipse are not just taking photographs, but collecting measurements of spectra,鈥 says French. Spectroscopy can reveal the speed, temperature and density of plasma in the corona. 鈥淲hen you observe specific spectra, this can give you information on the speed of plasma moving in the sun, and can tell you about the temperature and the density of plasma sloshing around the sun,鈥 he says.

Other eclipse scientists ask a fundamental question: what is the radius of the sun? Because the sun has no solid surface, its visible edge is difficult to define. Yet tiny differences can shift the predicted edge of the path of totality. The , a group of researchers scattered across the world, records flash spectra at the path鈥檚 edge to refine eclipse maps and calculate the sun鈥檚 actual radius.

The eclipse may also offer a rare chance to test whether aurora can be detected during totality. NASA scientist , founder of citizen science project , will use all-sky cameras to search for faint auroral glow. It is a long shot, but Iceland lies beneath the auroral oval, a region surrounding the geomagnetic North Pole within which the aurora can regularly be seen. Even a non-detection could help constrain whether eclipse darkness can reveal aurora.

Total solar eclipses are brief, vulnerable to clouds and geographically specific, but they open a rare observing window onto the sun鈥檚 inner corona 鈥 and let scientists try bold ideas without first building a spacecraft.

Discovery Tours: Eclipses

Explore our tours and cruises designed to help you make the most of experiencing awe-inspiring solar eclipses in handpicked locations around the world.

Topics: solar eclipse 2026