AAS Nova

Double-Star Discovery Suggests There’s a New Nearby Supernova Progenitor

By on Features
Share:
DEM L 190 supernova remnant
This image from the Hubble Space Telescope shows DEM L 190, the remnant of a massive star that expired in a core-collapse supernova. New research suggests that the closest star system that will someday result in a core-collapse supernova is just 228 light-years away — but you'll have to wait millions of years to view the explosion. [ESA/Hubble & NASA, S. Kulkarni, Y. Chu; CC BY 4.0]

New data suggest that the second-brightest star in the constellation Sagittarius is not one star but two. The two stars will someday merge to form a single star with a mass of 12 solar masses, and at just 228 light-years away, the resulting star will be the nearest core-collapse supernova progenitor to Earth.

One Star of Two?

The star Sigma Sagittarii, formally named Nunki by the International Astronomical Union, has been under scrutiny for decades. Various studies published in the last half-century have found Nunki to be either two stars in a tight binary system or a single star, depending on the methods and instruments used.

Paranal Observatory

Three of the Very Large Telescope Interferometer’s 1.8-meter Auxiliary Telescopes, which can be maneuvered into different positions. [Y. Beletsky (LCO)/ESO; CC BY 4.0]

Now, a team led by independent researcher Idel Waisberg has performed an interferometric investigation of the star, aiming to discern its single or binary status. The team used the GRAVITY instrument on the Very Large Telescope Interferometer (VLTI) at Paranal Observatory in Chile.

The VLTI encompasses eight telescopes, including four 8.2-meter telescopes that are fixed in place and four 1.8-meter telescopes that can travel between different stations, changing the resolving power of the interferometer. For this search, Waisberg and collaborators positioned the smaller telescopes so that the greatest distance between them was 130 meters, achieving a resolution of just 3.5 milliarcseconds.

Future Site of a Supernova

The VLTI data clearly show that Nunki is a close binary star system. The two stars have nearly the same mass — 6.5 and 6.3 solar masses — and are separated by just 0.60 au, orbiting one another every 50 days. Stellar isochrone modeling suggests that the stars are roughly 30 million years old.

illustration of a star filling its Roche lobe

Diagram of a binary star system in which one star has filled its Roche lobe. The blue shaded areas indicate the stars, while the black lines outline the two stars’ Roche lobes. [Philip D. Hall; CC BY 4.0]

Though the new data have shown that Nunki is in fact two stars, further analysis showed that this configuration is only temporary. As the two stars evolve, the more massive of the two will be the first to expand into a red giant. In 20 million years, the growing star will spill out of its Roche lobe — the volume in which gas is gravitationally bound to that star — and donate gas to its smaller companion. Unstable mass transfer will eventually lead the stars to merge, forming a single star of about 12 solar masses.

At 12 solar masses, Nunki will be massive enough to undergo core collapse, and at just 228 light-years away, it is the nearest core-collapse supernova progenitor system to Earth. Be sure to mark your calendar for tens of millions of years in the future — such a close supernova promises to be spectacular!

Citation

“Hidden Companions to Intermediate-Mass Stars. XXVI. Uncovering Nunki = Sigma Sagittarii as a 6.5 M + 6.3 M, 0.60 au Binary,” Idel Waisberg et al 2025 Res. Notes AAS 9 71. doi:10.3847/2515-5172/adc739