A rapidly spinning supermassive black hole at the centre of NGC 1365. Relativity describes how gravity affects the structure of space-time, and nowhere is space-time more distorted than in the immediate vicinity of a black hole.īibliographic information: G. ![]() Studying a supermassive black hole also allows theorists to test Einstein’s general theory of relativity in extreme conditions. Since its spin is so close to the maximum possible, the black hole in NGC 1365 must have grown through ‘ordered accretion’ rather than multiple random events. Similarly, if the black hole grew randomly by pulling in matter from all directions, its spin would be low. But if you kick at the beginning of each downswing, you go higher and higher as you add angular momentum. If you kick at random times while you swing, you’ll never get very high. Spin results from a transfer of angular momentum, like playing on a children’s swing. It grew over billions of years by accreting stars and gas, and by merging with other black holes. “The black hole’s spin is a memory, a record, of the past history of the galaxy as a whole.”Īccording to the team, the supermassive black hole in NGC 1365 spins so fast that its surface is traveling at nearly the speed of light.Īlthough the black hole is currently as massive as several million Suns, it wasn’t born that big. Most importantly, the black hole’s spin gives clues to its past and by extension the evolution of its host galaxy. By learning those two numbers, you learn everything there is to know about the black hole. ![]() The first is physical – only two numbers define a black hole: mass and spin. “This is the first time anyone has accurately measured the spin of a supermassive black hole,” said Dr Guido Risaliti of the Harvard-Smithsonian Center for Astrophysics and INAF – Arcetri Observatory, lead author of a paper published in the journal Nature.Īstronomers want to know the black hole’s spin for several reasons. Since a spinning black hole distorts space, the disk material can get closer to the black hole before being sucked in. This Innermost Stable Circular Orbit – the disk’s point of no return – depends on the black hole’s spin. The team measured X-rays from the center of NGC 1365 to determine where the inner edge of the accretion disk was located. Inspiraling matter collects into an accretion disk, where friction heats it and causes it to emit X-rays. Any material crossing the event horizon is pulled into the black hole. The edge of this spinning hole is called the event horizon. This image shows a supermassive black hole surrounded by a hot accretion disk, while some inspiraling material is funneled into a wispy blue jet (NASA / JPL-Caltech)Ī black hole’s gravity is so strong that, as the black hole spins, it drags the surrounding space along.
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