NASA reveals images of ‘never before seen’ titanic eruption of supergiant star Betelgeuse. One of the brightest stars in our sky just gave an almighty titanic “sneeze” – ejecting mass ...

The images are thanks to a team from France’s Université Côte d’Azur, who snapped high-resolution photographs of Betelgeuse between December 2018 and December 2020.

The European Southern Observatory (ESO) “Picture of the Week,” published on Monday, provides a visual explanation for Betelgeuse’s suspicious dimming. The images show two sets of data for ...

The Hubble Space Telescope has captured a never-before-seen phenomenon following a titanic ejection of Betelgeuse’s surface calculated at 400 billion times the mass of a solar flare.

Four images from the Very Large Telescope of the red supergiant Betelgeuse (from left to right: Jan. 2019, Dec. 2019, Jan. 2020, March 2020) showing not only that it dimmed, but also that only ...

Studying Betelgeuse’s growing pains and death throes can tell us about our own origins. But while this picture of Betelgeuse holds together, it is still speculative, Guinan cautions.

Stars like Betelgeuse can live in excess of 10 million years—a very brief period to astronomers, but a very long time to anyone else." Read more Can you guess which of these images were made by AI ...

Stars are the warm beating hearts of planetary systems. Our planet’s entire ecosystem is built on energy from the Sun. Photons enter the atmosphere and interact with plants, which convert that ...

Betelgeuse, the bright, yellow star at the top of the picture, dimmed considerably in 2020 (as seen in second image) and has since brightened by 50%.

The Hubble Space Telescope has captured a never-before-seen phenomenon following a titanic ejection of Betelgeuse’s surface calculated at 400 billion times the mass of a solar flare.

The Hubble Space Telescope has captured a never-before-seen phenomenon following a titanic ejection of Betelgeuse’s surface calculated at 400 billion times the mass of a solar flare.

The Hubble Space Telescope has captured a never-before-seen phenomenon following a titanic ejection of Betelgeuse’s surface calculated at 400 billion times the mass of a solar flare.