In 2023, a subatomic particle called a neutrino crashed into Earth with such a high amount of energy that it should have been ...

Gigantic black holes lurk at the center of virtually every galaxy, including ours, but we've lacked a precise picture of what ...

"It is amazing to see that we are gradually moving towards combining these breakthrough observations across multiple ...

Astronomers have traced the origin point of a jet of material that is thousands of light-years long emanating from the supermassive black hole M87* ...

Recent James Webb Space Telescope data confirms a decade-old theory that the universe's earliest supermassive black holes ...

"It is exciting to think that Little Red Dots may represent the first direct observational evidence of the birth of the most ...

"It is exciting to think that Little Red Dots may represent the first direct observational evidence of the birth of the most ...

But now a new study published in Nature suggests a solution to the Little Red Dots mystery. Scientists think young ...

New models explain how small black holes in the early universe beat the clock and grew into massive objects within millions ...

As gas falls toward a black hole, it heats up and shines. If the glow becomes intense enough, it can push incoming gas away. Astronomers call this balancing point the Eddington limit, and for decades ...

A newly identified quasar shows sustained growth beyond the Eddington limit, prompting new examination of accretion physics, radiation trapping and jet activity in early supermassive black holes.

In 2023, a subatomic particle called a neutrino crashed into Earth with such a high amount of energy that it should have been impossible. In fact, there are no known sources anywhere in the universe ...