UH astronomers discover biggest explosion since the Big Bang

An unlucky massive star approaches a supermassive black hole.

A glowing disk of gas forms around the black hole, driving the explosive energy of an ENT.

Over a year later, the black hole quiets and the ENT fades from view.

Link to photos (details below): https://go.hawaii.edu/rG7

***VO script below for consideration***

A team at the University of Hawaiʻi’s Institute for Astronomy (IfA) has uncovered a dazzling new kind of cosmic explosion, more energetic than anything seen before. The team named these rare events “extreme nuclear transients” (ENTs), which occur when massive stars—at least three times the mass of our Sun—are shredded by supermassive black holes.  The team's findings were recently published in Science Advances.

"We’ve observed stars getting ripped apart as tidal disruption events for over a decade, but these ENTs are different beasts, reaching brightnesses nearly 10 times greater than what we typically see," said Jason Hinkle, who led the study as the final piece of his doctoral research at IfA. “Not only are ENTs far brighter than normal tidal disruption events, but they remain luminous for years, far surpassing the energy output of even the brightest known supernova explosions.”

ENTs are millions of times rarer than supernovae. But their extreme brightness means they can be seen even in extremely distant galaxies, giving scientists a new way to study black holes in the early universe.

Discovery through data

One of the ENTs studied in this work, named Gaia18cdj, released 25 times more energy than the most powerful supernova on record. In just one year, it radiated energy equal to the lifetime output of 100 Suns. Most supernovae, in comparison, produce only one Sun’s lifetime output over a similar timescale.

Hinkle first spotted the strange flares while combing through publicly available data from the Gaia space telescope. Unlike more common  cosmic explosions that fade over several weeks, ENTs glow steadily for years.

"Gaia observations don’t tell you what a transient is, just that something changed in how bright it appears to us," said Hinkle. "But when I saw these smooth, long-lived flares from the centers of distant galaxies, I knew we were looking at something unusual."

Rare cosmic events

Hinkle used years of observations from UH’s Asteroid Terrestrial-impact Last Alert System with telescopes on Haleakalā and Mauna Loa, the W. M. Keck Observatory on Maunakea, and other telescopes on and orbiting the Earth to characterize these events. Researchers confirmed these weren’t supernovae or normal black hole activity. Instead, ENTs appear to be caused by a smoother, more drawn-out process, stars multiple times as massive as our Sun being slowly consumed by black holes.

"ENTs provide a valuable new tool for studying massive black holes in distant galaxies,” said Benjamin Shappee, an associate professor at IfA who co-authored the study. “Because they're so bright, we can see them across vast cosmic distances—and in astronomy, looking far away means looking back in time. By observing these prolonged flares, we gain insights into black hole growth when the universe was half its current age and galaxies were busy places—forming stars and feeding their supermassive black holes 10 times more vigorously than they do today."

More ENTs

Astronomers hope to spot many more ENTs, with each offering a glimpse into the powerful forces shaping galaxies across cosmic time. Future observatories such as the Vera C. Rubin Observatory and NASA’s Roman Space Telescope could uncover many more of these spectacular events, revolutionizing our understanding of black hole activity in the distant, early universe.

"These ENTs don’t just mark the dramatic end of a massive star’s life. They illuminate the processes responsible for growing the largest black holes in the universe," said Hinkle.

Link to photos (details below): https://go.hawaii.edu/rG7

B-ROLL: 

Photos 1-6: Illustrations of massive star slowly shredded by supermassive black hole. 

VO SCRIPT

INTRO 

UH astronomers have spotted a new kind of cosmic explosion-one so powerful, they’re calling it the largest since the Big Bang. And tonight, for the first time, we’re seeing how it works.

TAKE VO (suggest butting photos in chronological order)
Check out this series of illustrations of a massive star slowly shredded by a supermassive black hole. 

The debris spirals in, forming a glowing disk and unleashing what astronomers are now calling an “extreme nuclear transient.” These rare explosions shine brighter than entire galaxies and last for nearly a year. 

Research from the discovery was published today in the Science Advances journal. UH astronomers say these events offer a powerful new window into how the largest black holes grow in the universe.