![]() ![]() The material from these outer layer then forms an accretion disk around the pulsar, which creates a “hot spot” that radiates brightly in the X-ray specturum and where temperatures can reach into the millions of degrees. This occurs after the pulsar pulls off the outer layers of a star, turning it into a white dwarf. Typically, when a pulsars pairs with an ordinary star, the result is a binary system consisting of a pulsar and a white dwarf. The results of their study indicated that this pulsar has been speeding up for the past one million years, which is likely the result of a captured a companion that has since been restoring its rapid rotational velocity. Eventually, these stars lose their rotational energy and begin to slow down, but they can speed up again with the help of a companion.Īccording to a recent study, an international team of scientists witnessed this rare event when observing an ultra-slow pulsar located in the neighboring Andromeda Galaxy ( XB091D). What’s left is a “milliscond pulsar”, a super dense, highly-magnetized neutron star that spins rapidly and emit beams of electromagnetic radiation. When massive stars reach the end of their life cycle, they explode in a massive supernova and cast off most of their material.
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