Astronomers discover enormous planet in extreme, massive star system

By Georgina Torbet Published April 28, 2022

Astronomers have discovered a planet some previously thought to be impossible, orbiting an enormous and extremely hot star system. The planet, which orbits the two-star system b Centauri, is challenging assumptions about where planets can form.

Artist’s impression showing a close up of the planet b Centauri b. — This artist’s impression shows a close-up of the planet b Centauri b, which orbits a binary system with mass at least six times that of the Sun. This is the most massive and hottest planet-hosting star system found to date. The planet is ten times as massive as Jupiter and orbits the two-star system at 100 times the distance Jupiter orbits the Sun. ESO/L. Calçada

Located in the constellation of Centaurus, 325 light-years away, the b Centauri system consists of two stars with a combined mass at least six times that of our sun. Massive stars tend to also be very hot, as this system is, with its main star being three times hotter than the sun.

Recommended Videos

This combination of massive and very hot stars does not lend itself to planet formation, and until now no planets had been discovered orbiting a star more than three times the mass of the sun. But in the case of b Centauri, there is a planet orbiting at around 100 times the distance of Jupiter from the sun which was detected using the European Southern Observatory’s Very Large Telescope.

“Finding a planet around b Centauri was very exciting since it completely changes the picture about massive stars as planet hosts,” said Markus Janson, an astronomer at Stockholm University, Sweden, in a statement. “B-type stars are generally considered as quite destructive and dangerous environments, so it was believed that it should be exceedingly difficult to form large planets around them.”

As befits a body orbiting a massive star, the planet itself is massive too. It is estimated to be 10 times the mass of Jupiter, which makes it one of the most massive exoplanets detected to date. Astronomers speculate that the planet was able to survive the high temperatures and harsh radiation given off by the stars because it orbits so far away from them.

The whole system is an intriguing contrast to our solar system and most known exoplanets. “The planet in b Centauri is an alien world in an environment that is completely different from what we experience here on Earth and in our Solar System,” said co-author Gayathri Viswanath, a Ph.D. student at Stockholm University.

“It’s a harsh environment, dominated by extreme radiation, where everything is on a gigantic scale: The stars are bigger, the planet is bigger, the distances are bigger.”

Topics

Georgina Torbet

Space Writer

Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…

Space

Well-known star turns out to be not one star, but twins

This artist’s concept shows two young stars nearing the end of their formation. Encircling the stars are disks of leftover gas and dust from which planets may form. Jets of gas shoot away from the stars’ north and south poles.

This artist’s concept shows two young stars nearing the end of their formation. Encircling the stars are disks of leftover gas and dust from which planets may form. Jets of gas shoot away from the stars’ north and south poles. U.S. NSF/NSF NRAO/B. Saxton

There are some regions and objects that become favorite targets for astronomers -- often because they are nearby (and so easier to observe) and because they are a well-known example of an object like a stellar nursery or a black hole. But occasionally, even these well-known objects turn out to be hiding surprises. This was the case recently, when observations from the James Webb Space Telescope revealed that a particular star, WL 20S, in the frequently observed WL20 region, turned out not to be a single star at all, but actually a pair.

Space

James Webb discovers the most distant galaxy ever observed

JADES (NIRCam Image with Pullout). The NIRCam data was used to determine which galaxies to study further with spectroscopic observations. One such galaxy, JADES-GS-z14-0 (shown in the pullout), was determined to be at a redshift of 14.32 (+0.08/-0.20), making it the current record-holder for the most distant known galaxy. This corresponds to a time less than 300 million years after the big bang.

JADES (NIRCam Image with Pullout). The NIRCam data was used to determine which galaxies to study further with spectroscopic observations. One such galaxy, JADES-GS-z14-0 (shown in the pullout), was determined to be at a redshift of 14.32 (+0.08/-0.20), making it the current record-holder for the most distant known galaxy. This corresponds to a time less than 300 million years after the big bang. Credit: NASA, ESA, CSA, STScI, B. Robertson (UC Santa Cruz), B. Johnson (CfA), S. Tacchella (Cambridge), P. Cargile (CfA). NASA

Researchers using the James Webb Space Telescope have discovered the most distant known galaxy to date, one that is so far away that it existed just a few hundred million years after the Big Bang. Since Webb began its science operations in 2022, astronomers have used it to look for very distant, very ancient galaxies and have been surprised by what they found. Not only have they found many of these distant galaxies, but the galaxies are also brighter and more massive than they expected -- suggesting that galaxies evolved into large sizes faster than anyone imagined.

Space

Exoplanet catalog details over 100 worlds beyond our solar system

TOI-1798, a system that is home to two planets. The inner planet is a strange Super-Earth so close to its star, one year on this alien world lasts only half an Earth day.

TOI-1798 is a system that is home to two planets. The inner planet is a strange Super-Earth so close to its star that one year on this alien world lasts only half an Earth day. W. M. Keck Observatory/Adam Makarenko

A new catalog of exoplanets from two telescopes shows the incredible variety of planets that exist beyond our solar system. The catalog, using data from NASA's TESS (Transiting Exoplanet Survey Satellite) space telescope and the ground-based W. M. Keck Observatory, shows 126 planets, along with the radius, mass, density and temperature of each.