Neutron Stars
Overview
Neutron stars are the remnants of stars that began their lives with a mass between eight and 20 times that of the sun. They form after a giant star exhausts the fuel in its core, which sustains nuclear reactions that prevent it from caving in under its own gravity. Without this support, the Earth-sized core collapses, and electrons collide into protons, creating a sphere of neutrons about 20 kilometers (12.5 miles) wide. Neutron production also creates neutrinos—the most abundant matter particles in the universe—which blast away the layers surrounding the core in a powerful supernova.
The existence of neutron stars and the core-collapse supernova mechanism were predicted by Walter Baade and Fritz Zwicky in 1934, two years after the discovery of the neutron. Thirty-three years later, Jocelyn Bell Burnell first observed a neutron star from its pulsing radio signals. These are generated by the magnetic fields of pulsars—neutron stars that rotate up to hundreds of times per second—and sweep across space like a lighthouse beam. The signals have since served as probes to detect exoplanets—including the first two—and test general relativity.
Despite a density equivalent to the mass of Mount Everest in the volume of a sugar cube, neutron stars avoid gravity crushing them completely using a type of quantum pressure called neutron degeneracy. However, if two neutron stars combine, they can overcome this pressure and create a black hole in a kilonova explosion, which forges many of the universe's heavy elements, including gold, platinum, and uranium.
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