杏吧原创

Giant magnet makes Milky Way black hole a slow eater

A newly discovered pulsar has allowed a magnet surrounding the supermassive black hole at the centre of our galaxy to be measured
The pulsar that slows down our black hole's munching
The pulsar that slows down our black hole鈥檚 munching
(Image: Ralph Eatough/MPIfR (artists impression))

The supermassive black hole at our galaxy鈥檚 centre enjoys a slow dinner, thanks to a giant magnet.

The Milky Way鈥檚 black hole, Sagittarius A*, is clearly sucking in hot gas because doing so makes it burp out radio waves that we can detect. But jets of matter streaming outwards slow down its gas consumption. 鈥淭he black hole is not feeding to its full potential,鈥 says at the Max Planck Institute for Radio Astronomy in Bonn, Germany.

The jets could be the result of a magnetic field produced by charged ions swirling around in the gas but it wasn鈥檛 clear whether the field was strong enough. To find out, Eatough and colleagues turned to a nearby spinning star, called a pulsar

This particular pulsar was discovered earlier in the year, just 0.3 light years away from the black hole. Eatough鈥檚 team realised that the strong bursts of radio waves emitted by the pulsar would be rotated by the black hole鈥檚 magnetic field, and so could be used to measure the strength of the field.

Einstein test

The rotations suggested that, at the event horizon, the field is hundreds of times stronger than Earth鈥檚 magnetic field, and strong enough to produce the jets that slow the hole鈥檚 chomping.

Finding other pulsars nearer to the black hole could teach us even more, says Eatough. These would feel its gravitational pull strongly enough to put Einstein鈥檚 most famous theory to the test.

Although Einstein鈥檚 theory of general relativity is hugely successful at explaining the effects of gravity, it seems incompatible with quantum mechanics 鈥 so physicists are interested in testing it with ever more precision. Measuring the influence of the Milky Way black hole鈥檚 gravitational pull on the timing of close-orbiting pulsars could do the trick.

鈥淏ecause the black hole at the centre of the galaxy is the biggest nearby, this should provide one of the best tests of general relativity in the galaxy,鈥 says Eatough.

Journal reference: Nature,

Topics: Cosmology