Neutron Stars Collide, Forging Heavy Elements in a Cosmic Inferno

Astrophysicists have, for the first time, measured the temperature of elementary particles in the radioactive afterglow of a neutron star collision, which led to the formation of a black hole. This breakthrough enables scientists to examine microscopic physical properties within these powerful cosmic events. The findings also reveal how single observations capture an object’s presence […]

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Astrophysicists have, for the first time, measured the temperature of elementary particles in the radioactive afterglow of a neutron star collision, which led to the formation of a black hole. This breakthrough enables scientists to examine microscopic physical properties within these powerful cosmic events. The findings also reveal how single observations capture an object’s presence…

Astrophysicists have, for the first time, measured the temperature of elementary particles in the radioactive afterglow of a neutron star collision, which led to the formation of a black hole. This breakthrough enables scientists to examine microscopic physical properties within these powerful cosmic events. The findings also reveal how single observations capture an object’s presence…