An international team of researchers used multi-wavelength observations of active galactic nuclei to study how black holes ...

And kept them all in synch with powerful atomic clocks. They call the effort the Event Horizon Telescope. This series of telescopes, combined, has about the same capabilities as a telescope as ...

In a groundbreaking achievement, the Event Horizon Telescope (EHT) Collaboration has conducted the highest-resolution ...

In a new book release, two scientists combine forces to explain the discoveries, developments and theories made in the realm ...

Despite the bounce and subsequent expansion, nothing can leave the event horizon, so it expands into a new region of ...

On left, this composite simulated image shows how M87* is seen by the Event Horizon Telescope at 86 GHz (red), 230 GHz (green), and 345 GHz (blue). On right, 345 GHz is seen in dark blue ...

Could our galaxy actually be inside a black hole? New research seems to suggest this possibility. NASA's James Webb Telescope ...

An international team of researchers used multi-wavelength observations of active galactic nuclei to study how black holes launch relativistic jets. The sixteen sources were observed with the Event ...

The image to the left, which was captured by the Event Horizon Telescope, represents the shadow of the supermassive black hole at the center of the galaxy M87, including the ring of light around it.

The $10 billion telescope, which began observing the cosmos in the Summer ... It presents the idea that the "Schwarzchild radius," better known as the "event horizon," (the boundary from within which ...

Although the Event Horizon Telescope, a global network of radio observatories, can distinguish Sagittarius A*’s dark shadow against a ring of microwave radiation, individual telescopes ...