Astronomers have made a fascinating discovery while observing starspots on the surface of a giant star, revealing new clues about the dynamics of stellar atmospheres.
Astronomers from the Leibniz Institute for Astrophysics in Potsdam, the University of Potsdam and the Konkoly Observatory have made an intriguing discovery. Using an innovative technique, they observed giant spots in the surface of the star XX Trianguli, located 640 light years away in the constellation Triangulum.
This star, a bright K0 giant, is part of a binary system. Studies have revealed that its starspots are chaotic and unpredictable, unlike the sunspots observed on the Sun.
“Starspots behave similarly to solar spots, but on a much larger scale,” explains Professor Klaus Strassmeier, lead author of the study. The team used a technique called Doppler imaging, which is capable of mapping the stellar surface by inverting spectral line profiles.
- Why scientists say finding alien life is now 'just a matter of time'
- Toyota invests R$61 billion in the “City of the Future” at the foot of Mount Fuji and is looking for residents to test new revolutionary technologies in a project that promises to change the world!
- US scientists create strongest ever armor material with 100 trillion bonds
- Bracell Uses Cutting-Edge Technology to Fight Wildfires and Protect the Environment
A “Painted” Star
XX Trianguli is no ordinary star. With a mass only 10% greater than that of the Sun, it has a radius ten times greater and a temperature of 4630 K. Its rotation period of 24 days is synchronized with the orbital period of the binary system.
Previously, scientists discovered that the star had a gigantic sunspot, with an area 10.000 times larger than the largest group of sunspots ever recorded on the Sun. This dimension is equivalent to ten times the diameter of the solar disk.
Now, astronomers have gone further, capturing 99 detailed images of the star's surface. These images revealed significant changes in the photocenter, the point that represents the star's "center of light."
What are Starspots?
As with the Sun, the spots on XX Trianguli are dark areas on the star's surface, caused by lower temperatures compared to the surrounding regions. These spots can alter the star's brightness, slightly shifting the center of light perceived by observers.
In the case of XX Trianguli, the displacement of the photocenter reached 24 microarcseconds, about 10% of the visible radius of the star. This demonstrates the magnitude of the phenomenon.
However, unlike the Sun, XX Trianguli's sunspots do not follow a regular cycle. Instead, they form in a seemingly chaotic manner, indicating that the star's internal dynamo is disordered and non-periodic.
Impact on the Search for Exoplanets
The discovery also has important implications for astronomy. The variations in the photocenter caused by the spots could mimic or hide the small movements caused by orbiting exoplanets. This poses a significant challenge for detecting new planets.
“These variations add an intrinsic limitation to the astrometric techniques used in the search for exoplanets,” says Strassmeier.
Importance of Discovery
This research highlights the complexity of stellar dynamics and shows how advanced techniques such as Doppler imaging can reveal fascinating details of distant stars. In addition, the data collected can help to better understand the internal processes of these celestial giants and refine methods for observing exoplanets.
The results were published in the journal Nature Communications., marking another significant advance in the exploration of the universe.