Tag Archives: Betelgeuses

Astronomers Discover Celestial ‘Wake’ Linked to Betelgeuse’s Companion Star

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Recent multi-year observations from the NASA/ESA Hubble Space Telescope, along with data from the Fred Lawrence Whipple and Roque de los Muchachos Observatories, have unveiled how a faint companion star, identified as Siwalha, has carved a path through the vast atmosphere of Betelgeuse. These findings illuminate long-standing mysteries regarding stellar evolution and advance our understanding of large-scale stellar dynamics.

Artist’s concept depicting the red supergiant star Betelgeuse alongside its orbiting companion. Image credit: NASA/ESA/Elizabeth Wheatley, STScI/Andrea Dupree, CfA.

Betelgeuse, an impressive 8-million-year-old red supergiant star, is prominently situated on the shoulder of the Orion constellation, approximately 724 light-years away from Earth.

With a radius roughly 1,400 times that of the Sun, Betelgeuse stands as one of the largest known stars in the universe.

Commonly referred to as Alpha Orionis or Alpha Ori, Betelgeuse is not just renowned for its size but also for its brightness, radiating more light than 100,000 suns combined.

As Betelgeuse nears the end of its life cycle, its impending explosion is expected to be so luminous that it will be visible in daylight for several weeks.

Astronomers have been meticulously monitoring variations in Betelgeuse’s brightness and surface characteristics for decades to uncover the underlying causes of its behavior.

Interest peaked in 2020 when Betelgeuse seemed to exhibit unusual “sneezing” behavior, suddenly dimming unexpectedly.

Two key periods of fluctuations have intrigued scientists: a short 400-day cycle, likely linked to the star’s own pulsations, and a longer 2,100-day period that remains more elusive.

Researchers have theorized various explanations for these fluctuations, including large convective cells, dust clouds, magnetic activities, and the possible presence of hidden companion stars.

A recent comprehensive study suggests that the longer secondary period is best explained by a low-mass companion star that orbits deep within Betelgeuse’s atmosphere. While some scientists reported possible detections, solid evidence was previously lacking—until now.

For the first time, astronomers have gathered compelling evidence that a companion star is indeed influencing the supergiant star’s atmosphere.

Data changes in the spectra of stars—colors of light emitted by different elements—and shifts in the gas’s speed and direction in the outer atmosphere confirm the presence of denser material and wake effects.

This peculiar signature appears soon after the companion star transits in front of Betelgeuse approximately every six years, further endorsing the theoretical model.

Dr. Andrea Dupree, an astronomer at Harvard University & Smithsonian Center for Astrophysics, commented, “It’s akin to a boat sailing through water; the companion star induces a ripple in Betelgeuse’s atmosphere that is directly observable in the data.”

“For the first time, we are witnessing definitive signs of this wake or gas signature, validating that Betelgeuse does indeed harbor a hidden companion that influences its observable characteristics and behavior.”

The team’s research paper will soon be published in the Astrophysical Journal.

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Andrea K. Dupree et al. 2026. Betelgeuse: Expanding trail of the companion star detected. APJ in press. arXiv: 2601.00470

Source: www.sci.news

Astronomers Capture Direct Image of Betelgeuse’s Stellar Companion

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Utilizing the speckle imager Alopeke from the Gemini North Telescope, part of the NSF’s International Gemini Observatory, astronomers captured direct images of Betelgeuse.

Betelgeuse (right) and its remarkable companions (left). Image credits: International Gemini Observatory/Noirlab/NSF/Aura/M. Zamani, Noirlab of NSF.

Betelgeuse is an 8-million-year-old red supergiant located about 724 light years away on the shoulder of the Orion constellation.

It ranks among the largest known stars, with a radius approximately 1,400 times greater than that of the Sun.

Also referred to as Alpha Orionis or Alpha Ori, Betelgeuse is one of the brightest stars in the sky, radiating more light than 100,000 suns.

The star is nearing the end of its life cycle, and when it eventually explodes, the event will shine brightly, becoming visible for weeks even during daylight.

Betelgeuse experiences a major variability period of roughly 400 days, accompanied by a longer secondary period of about six years.

In 2019 and 2020, a significant drop in Betelgeuse’s brightness occurred, known as the “big dimming” event.

This led to speculation about an imminent supernova explosion, but astronomers later found that a large cloud of dust ejected during the dimming was the true cause.

Although the “big dim” mystery has been resolved, it rekindled interest in studying the red supergiant, prompting new analyses of existing archival data.

One analysis suggested that the presence of companion stars might be responsible for Betelgeuse’s six-year brightness fluctuations.

However, searches conducted by the NASA/ESA Hubble Space Telescope and the NASA Chandra X-ray Observatory did not detect these companions.

Dr. Steve Howell and his colleagues at NASA’s Ames Research Center investigated potential companions of Betelgeuse, referred to as Alpha Ori B or The Betelbuddy, using the Speckle Imager ‘Alopeke at the Gemini North Telescope.

“Speckle Imaging is an astronomical technique that employs very short exposure times to mitigate image distortion caused by Earth’s atmosphere,” they explained.

“This method allows for high resolution, and when combined with the light-gathering power of Gemini North’s 8.1m mirror, it enables the direct detection of faint companions of Betelgeuse.”

Analyzing the light from the companion stars allowed astronomers to identify their characteristics.

The companions appear to be A or B-type main-sequence stars, approximately six magnitudes fainter than Betelgeuse, with an estimated mass of around 1.5 solar masses.

The companion is situated relatively close to Betelgeuse, at about four times the distance between the Earth and the Sun.

This discovery marks the first detection of a close stellar companion orbiting a supergiant star.

Even more remarkably, the companions are within the extensive outer atmosphere of Betelgeuse, demonstrating the exceptional resolution capabilities of “Alopeke.”

“The speckle capabilities provided by the International Gemini Observatory prove to be a vital tool for astronomers across a wide range of applications,” stated Dr. Martin, NSF Program Director at the International Gemini Observatory.

“Providing solutions to the Betelgeuse mystery, which has persisted for centuries, is an exciting achievement.”

Survey results will appear today in the Astrophysical Journal Letters.

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Steve Howell et al. 2025. Possibility of direct imaging discovery of the stellar companion to Betelgeuse. apjl in press; doi: 10.3847/2041-8213/adeaaf

Source: www.sci.news