Astronomers discover Black โHole Growing at Rate Challenging Known physics
A newly discovered black hole, designatedโฃ RACS J0320-35, โคisโข growingโฃ at a rate thatโค defies established theoreticalโ limits, according to research published in The Astrophysical Journal Letters on โฃSeptember 8, 2025. The black hole is accreting mass 300 to 3,000 โฃtimes that of โourโ sun each year, significantly exceeding โthe Eddington limit – the theoretical maximum rateโ at which a black hole canโข grow based on โคthe balance between radiation pressureโ and gravitational pull.
“It is very surprising to see this blackโค hole โขgrowing quickly,” โขsaid Luca Ighina,โ lead author of the study and researcher at the Harvard-Smithsonian Centre for Astrophysics.
Black holesโ form fromโข the collapse of massive stars, increasing in size by merging wihtโ other black holes and consuming โขsurrounding matter. When material isโข pulled towards a black hole at near-light โspeed, it can create โคa brightโข ring of light โor release energy โฃin powerful bursts, forming quasars – some of the brightest objects โin โthe universe, exceeding theโฃ size of entire galaxies.
Astronomers observed RACS J0320-35โข byโค analyzing itsโฃ X-ray emissions across different wavelengths, comparing the data with infrared and optical observations to โฃestimate its mass and growth rate. the findings โsuggest this black hole’s rapid growth challenges current cosmological models.
Researchers hypothesize thatโฃ RACS J0320-35 may have originated from the collapse of a massive star,โข less than 100โฃ times theโ mass of our sun. The revelation, alongsideโ other observations โof super-Eddington black holes in the earlyโข universe, suggestsโฃ these objects may โhave been more common โin the universe’s early โstages than previously thought.
“How doesโ the universe create the frist generation of black holes? This remains one โof the โbiggest โquestions in astrophysics, and one of these โobjects helps us find the answer,” said Thomas Connor, โa colleague of Ighina’s at โthe Harvard-Smithsonian Astrophysics Center. โขFurther โฃresearch is planned to understand the origins and rapid growth of these โขearly black holes.