What question did this study set out to answer?

The central aim is to understand the disappearance of a massive star and its relation to black hole formation.

February 14, 2026

Disappearance of a massive star in the Andromeda Galaxy due to formation of a black hole

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The central aim is to understand the disappearance of a massive star and its relation to black hole formation.
Observed M31-2014-DS1, a hydrogen-depleted supergiant in the Andromeda Galaxy.
Monitored brightness changes in mid-infrared and optical light from 2014 to 2022.
Interpreted observations in the context of failed supernovae and black hole formation.
M31-2014-DS1 brightened in mid-infrared in 2014 and faded significantly from 2017 to 2022.
Fading was greater than 10^4 in optical light, leading to the star becoming undetectable.
Evidence suggests that this star and a previous event in NGC 6946 are indicative of stellar-mass black holes forming from failed supernovae.

Resumen

When a massive star reaches the end of its lifetime, its core collapses and releases neutrinos that drive a shock into the outer layers (the stellar envelope). A sufficiently strong shock ejects the envelope, producing a supernova. If the shock fails to eject it, the envelope is predicted to fall back onto the collapsing core, producing a stellar-mass black hole (BH) and causing the star to disappear. We report observations of M31-2014-DS1, a hydrogen-depleted supergiant in the Andromeda Galaxy. In 2014, it brightened in the mid-infrared, then from 2017 to 2022, it faded by factors of ≳ 10 4 in optical light (becoming undetectable) and ≳ 10 in total light. We interpret these observations, and those of a previous event in NGC 6946, as evidence for failed supernovae forming stellar-mass BHs.

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Disappearance of a massive star in the Andromeda Galaxy due to formation of a black hole

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