Massive neutron stars have such enormous pressure in their cores that neutrons residing there lose their integrity and become a new type of matter.
![Neutron stars may be hiding quark matter in their cores](https://www.advancedsciencenews.com/wp-content/uploads/2024/01/sun-581299_1280.jpg)
Massive neutron stars have such enormous pressure in their cores that neutrons residing there lose their integrity and become a new type of matter.
Astronomers have observed neutron stars that emit more energy than is theoretically possible, and now an explanation might be in the works.
Comparing algorithms used to model spinning neutron stars, scientists hope to better understand the physics of the elementary particles that make them up.
Scientists have observed a peculiar object emitting radio waves once every 20 minutes, and it may be a new kind of neutron star.
More confirmation needed to see if recently discovered object is a quark star.
Astronomers are discovering that the rate of star formation in the universe is dropping, and they want to know why.
Physicists have reported the observation of a tetraneutron, a subatomic particle consisting of just four neutrons.
During the tumultuous mergers of black holes, smaller black holes called morsels could produce detectable Hawking radiation.
ESA greenlights LISA, a space-based observatory poised to detect gravitational waves across space and time.
Physicists working on LIGO have surpassed the quantum limit to enhance gravitational wave detectors and revolutionize astrophysical observations.