Our planet is constantly being bombarded by cosmic particles. However, at times the stream of particles is particularly strong when a solar storm sweeps past. Solar storms are made up of high-energy particles unleashed from the sun by explosions on the star’s surface.
For the past 70 years, researchers have studied these solar storms by direct instrumental observations, which has led to an understanding of how they can pose a risk to the electrical grid, various communication systems, satellites and air traffic. Two examples of severe solar storms in modern times that caused extensive power cuts took place in Quebec, Canada (1989) and Malmö, Sweden (2003).
Now, an increasing amount of research indicates that solar storms can be even more powerful than measurements have shown so far via direct observations.
The researchers behind the new, international study led by researchers from Lund University have used drilled samples of ice, or ice cores, to find clues about previous solar storms. The cores come from Greenland and contain ice formed over the past about 100,000 years. The material contains evidence of a very powerful solar storm that occurred in 660 BCE.
“If that solar storm had occurred today, it could have had severe effects on our high-tech society,” says Raimund Muscheler, professor of geology at Lund University.
The new study means that a third known case of a massive solar storm dating back in time has been discovered via indirect observations in nature’s own archive. Raimund Muscheler also took part in research that confirmed the existence of two other massive solar storms, using both ice cores and the annual growth rings of old trees. These storms took place in 775 and 994 CE.
Raimund Muscheler points out that, even though these massive solar storms are rare, the new discovery shows that they are a naturally recurring effect of solar activity.
“That’s why we must increase society’s protection again solar storms,” he says.
Today’s risk assessment is largely based on direct observations made over the past 70 years, but Raimund Muscheler suggests that there is a need for a reassessment in view of the three massive solar storms that have now been discovered. He argues that there is a need for greater awareness of the possibility of very strong solar storms and the vulnerability of our society.
“Our research suggests that the risks are currently underestimated. We need to be better prepared,” concludes Raimund Muscheler.
- Paschal O’Hare, Florian Mekhaldi, Florian Adolphi, Grant Raisbeck, Ala Aldahan, Emma Anderberg, Jürg Beer, Marcus Christl, Simon Fahrni, Hans-Arno Synal, Junghun Park, Göran Possnert, John Southon, Edouard Bard, Raimund Muscheler. Multiradionuclide evidence for an extreme solar proton event around 2,610 B.P. (∼660 BC). Proceedings of the National Academy of Sciences, 2019; 201815725 DOI: 10.1073/pnas.1815725116