The study of neutron stars and black holes is a fascinating area of astrophysics that explores some of the most extreme conditions in the universe. Neutron stars are incredibly dense remnants of ...

There is a lot of complicated but beautiful physics in understanding how this explosion takes place,” says Purdue University ...

The first detections of continuous gravitational waves will open a new window on the universe and provide unique information on neutron stars, the densest objects short of black holes. These ...

a space-based observatory that detects and measures X-ray emissions from black holes, neutron stars, galactic clusters, and other extreme cosmic sources. They noticed that X-rays from the black ...

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Thorne-Żytkow objects that we haven't yet seen. There is, however, more to learn about these stars and the cosmos.

16). An X-ray observatory used to study neutron stars is “back in the black” and a cosmic ray detector is ready for possible future upgrades after two astronauts completed a spacewalk outside ...

Gamma-Ray Bursts (GRBs): Extremely powerful explosions in distant galaxies that emit vast amounts of energy, mainly as gamma rays. Hypernovae (Massive Star Explosions): Ultra-powerful stellar ...

Astronomers have observed over a thousand of them to date; some come from sources that repeatedly emit FRBs, while others ...

That’s why all detections so far have been collisions between black holes or neutron stars. Those events are akin to throwing a pebble in a pond, but there are vibrations all the time.