Magnetic fields revolve around the M87 supermassive black hole


Background: Event Horizon made history on April 10, 2019 after the telescope was released The first image of a black hole. The bright orange circle, located 53 million light-years away, was illustrated by eight radio observers across four separate continents. Their combined resolution was able to penetrate the center of the M887 perfectly, and the supermassive black hole revolved around the event horizon by super-hot gas and dust (not any point of return, where the gravity of the black hole) revolves around such a powerful light or substance. Can’t live from).

What’s new here: A A pair of new studies Published in the Astrophysical Journal, Astronomers went back to the archive of information that leads to the first image and analyzes the movement of polarized light around the object. Light waves usually sway back and forth in many different directions os but these waves can be polarized by magnetic fields and that oscillation is limited to a single linear plane. This light effectively marks the lines of the black hole’s magnetic field, creating a sharper vision than the obscure donut displayed in 2019.

Why it’s important: How magnetic fields form substances around the movement and vortices of black holes, which can affect food habits and the evolution of black holes. By studying how these magnetic fields work and change over time, scientists will better understand how the elite element behaves around black holes and how it is affected, which inevitably helps us to understand how supermassive black holes are formed and how they grow. Can.



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