Influence of a Black Hole's Spin: First Evidence of Precession in Ultraluminous Accretion Disks Oct. 7, 2024 — Researchers conducted innovative simulations ... of merging black hole pairs ...

More precisely, the team behind the simulation discovered that binary black hole pairs formed in dense star clusters first align their spins before coming together and merging. The discovery could ...

New approach could aid “multimessenger” astronomy by quickly locating sources of gravitational waves emitted during these ...

That includes stars being shredded as they pass too close to a black hole, intense emissions from ... This data sonification transforms a vast simulation of a cosmic survey from NASA's upcoming ...

They use the data to identify growing supermassive black holes, answer fundamental questions about galaxy ... calibrating and scientifically monitoring the near-infrared camera NISP, performing ...

They use the data to identify growing supermassive black holes, answer fundamental questions ... the near-infrared camera NISP, performing simulations, and conducting technical analyses such ...

These simulations assume a Lambda cold dark matter cosmogony ... to calculate the gravitational waves signals from the intrinsic parameters of the merging black holes. The eagle models predict ∼2 ...

One of the most powerful objects in the universe is a radio quasar—a spinning black hole spraying out highly energetic ...

When two galaxies collide and merge, gas is funneled into the central region of that merger. Some of that gas ends up getting close to the newly merged black hole and forms the accretion disk.

While he offers several explanations for what could cause the universe to rotate, he focuses mainly on the hypothesis that it is inside a gigantic black hole. Because black holes naturally rotate ...