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Astronomy’s astonishing revelation: A star’s final act of ejection

Astronomers have made a surprising revelation concerning a dying star that unexpectedly expelled an amount of mass equivalent to that of our Sun just prior to undergoing a supernova event. This unexpected observation has the potential to provide new insights into the final stages of life for massive stars.

The supernova, designated as SN 2023ixf, was initially detected in May 2023 by amateur astronomers. Subsequent observations conducted by professional astronomers unveiled that the star had released a significant mass in the years leading up to its eventual explosion.

Dr. Andrew Howell, the lead author from Las Cumbres Observatory, expressed the significance of this discovery, stating, “This is a notable and unforeseen finding. We have never witnessed a star shedding such a substantial amount of mass so close to its demise before.”



Astronomers posit that the expulsion of mass might have been instigated by a potent stellar wind. Stellar winds are streams of charged particles that emanate from a star’s surface, with more massive stars generating more powerful stellar winds than their smaller counterparts.

Additionally, it is conceivable that a companion star could have played a role in triggering the mass ejection. If SN 2023ixf had a companion star, the gravitational interplay between the two stars might have induced the mass release.

While astronomers are still striving to comprehend the underlying causes of SN 2023ixf’s mass expulsion just before its supernova event, they are optimistic that this discovery will contribute to a more comprehensive understanding of the concluding stages of massive stars’ lifecycles.

Dr. Howell emphasized the pivotal role of massive stars in the progression of galaxies, remarking, “Massive stars have a significant impact on galaxy evolution. They produce crucial heavy elements necessary for the formation of planets and stars. By gaining insights into the demise of massive stars, we can enhance our comprehension of the evolution of galaxies.”



The findings pertaining to SN 2023ixf were documented in the journal Nature on October 4, 2023.