This red giant star has starspots larger than the entire sun

Astronomers modeled sunspot activity on a nearby red giant star to learn about its chaotic interior.

A yellow orb on a dark background with large reddish spots.
An artist's visualization of some of the spots on red giant XX Trianguli. 
(Image credit: Viktor Varga & Ádám Radványi (Moholy-Nagy University of Art and Design, Budapest))

Sunspots, which are temporarily darkened areas on the surface of the sun, are the result of intense magnetic fields generated through the movement of materials within the sun. In other words, they can tell us indirectly about what's happening within our home star. And importantly, these spots aren't unique to the sun — astronomers have observed this behaviour in a number of stellar bodies in our galactic vicinity. Those are more generally known as starspots, and can tell us about the interiors of their respective stars, too.

Starspots in general can last from days to months, and can migrate across the surface of their star. Tracking the behaviour of sunspots on the sun is important because increased sunspot activity is associated with the increased emission of charged particles from the sun — and this activity can have drastic consequences for our technology on Earth.

Thankfully, our sun's sunspot activity occurs along an approximate 11-year cycle, giving us some indication of when to expect this solar weather. Recently, however, astronomers have been keeping track of starspot activity on a red giant star called XX Trianguli, and the irregular behaviour of its starspots suggests its interior may have much more chaotic dynamics than our own star's

Conor Feehly is a New Zealand-based science writer. He has earned a master's in science communication from the University of Otago, Dunedin. His writing has appeared in Cosmos Magazine, Discover Magazine and ScienceAlert. His writing largely covers topics relating to neuroscience and psychology, although he also enjoys writing about a number of scientific subjects ranging from astrophysics to archaeology.