Notably, these two types of stars have different origins: a neutron star is formed when a massive star undergoes a supernova explosion, while a white dwarf emerges when a star with a low to medium ...

An curved arrow pointing right. When two neutron stars merge, they collapse in supernova explosions that are the brightest in the entire universe. Produced by Jenner Deal Follow BI Video ...

When massive stars explode as supernovae, they can leave behind neutron stars. Other than black holes, these are the densest ...

Neutron stars can have a resounding impact around the universe. Scientists recently announced the first detection of gravitational waves created by two neutron stars smashing into each other.

Neutron stars are the dense remnants of massive stars, more than eight times as massive as our sun, born at the end of their lives in a brilliant supernova explosion. These incredibly dense ...

Figure 1 - Configuration of the dipolar magnetic field lines within the neutron star's crust immediately after its formation, a few tens of seconds after the supernova explosion. Credit: Igoshev et al ...

More massive stars than the Sun have a very different life cycle and follow the right hand path in the diagram above: \({Nebula}\rightarrow{protostar}\rightarrow{main~sequence~star}\rightarrow{red ...

In some cases, the core of these big stars collapses. "It's basically a giant atomic bomb that's called a supernova." The dense core that is left over is known as a neutron star. These are much ...

However, this discovery does show that, in some cases at least, two sibling neutron stars can merge when one is created without what astronomers call a classic supernova. Of course, this massive ...

Kilonovas occur when binary neutron stars spiral ... around in the debris of ancient star explosions. Fields, who declared that we live in a “supernova graveyard” during a recent presentation ...

More massive stars than the Sun have a very different life cycle and follow the right hand path in the diagram above: \(\begin{equation} \begin{aligned} Nebula \rightarrow protostar \rightarrow ...