Astronomers discover a rare black hole 'unlike any other'

Not too big and not too small! Astronomers discover a rare ‘missing linkblack hole in the Milky Way’s closest large galactic neighbour

  • Scientists say they’ve found an ‘intermediate-massblack hole ‘unlike any other
  • Intermediate-mass black holes have a mass up to 100,000 times that of our Sun
  • They’re bigger than stellar black holes but tinier than supermassive black holes
  • A rare ‘missing linkblack hole has been found in the Milky Way’s closest large galactic neighbour, 'n nuwe studie onthul.

    Astronomers say the black hole has an ‘intermediate-mass’, and is the rare third type of black hole that has only recently come to light.

    Described as ‘unlike any other’, the black hole was found in a star cluster called B023-G078 in the Andromeda galaxy.

    Otherwise known as Messier 31 or M31, Andromeda is the closest large spiral galaxy to our galaxy, the Milky Way.

    This newly-found black hole has a mass 100,000 times greater than our Sun, making it smaller than black holes found at the centre of galaxies (supermassive black holes), but bigger than black holes born when stars explode (stellar black holes).

    One theory is that intermediate-mass black holes could be the seeds from which supermassive black holes grow.

    The black hole was found hidden within B023-G078, an enormous star cluster in Andromeda with a solar mass of 6.2 miljoen. The left panel shows a wide-field image of M31 with the red box and inset showing the location and image of B023-G78 where the black hole was found

    The black hole was found hidden within B023-G078, an enormous star cluster in Andromeda with a solar mass of 6.2 miljoen. The left panel shows a wide-field image of M31 with the red box and inset showing the location and image of B023-G78 where the black hole was found

    Andromeda is the nearest major galaxy to our own Milky Way galaxy. The diffuse light from Andromeda is caused by the hundreds of billions of stars that compose it. The several distinct stars that surround Andromeda's image are actually stars in our Galaxy that are well in front of the background object

    Andromeda is the nearest major galaxy to our own Milky Way galaxy. The diffuse light from Andromeda is caused by the hundreds of billions of stars that compose it. The several distinct stars that surround Andromeda’s image are actually stars in our Galaxy that are well in front of the background object

    The three types of black hole

    Stellar: Five to several tens of solar masses

    Intermediate-mass: 100 aan 100,000 solar masses

    Supermassive: Millions to billions of solar masses

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    The new study, gepubliseer in The Astrophysical Journal, was based on data from the near-infrared integral-field spectrograph (NIFS) at the Gemini North telescope in Hawaii.

    Astronomers measure the mass of a black hole by tracing the motion of the gas and dust swirling around it.

    This can be done at many wavelengths, such as by measuring the positions of stars which orbit near a black hole at optical wavelengths.

    Study author Anil Seth, an associate professor of astronomy at the University of Utah, said the finding fills a gap between the very large and the very small black holes known to exist.

    ‘We have very good detections of the biggest, stellar-mass black holes up to 100 times the size of our sun and supermassive black holes at the centers of galaxies that are millions of times the size of our sun,’ hy het gesê.

    ‘But there aren’t any measurements of black between these – that’s a large gap. This discovery fills the gap.

    The study was based on data from the near-infrared integral-field spectrograph (NIFS, op die foto) at the Gemini North telescope in Hawaii

    The study was based on data from the near-infrared integral-field spectrograph (NIFS, op die foto) at the Gemini North telescope in Hawaii

    On the right side of this image shows the Gemini Observatorium on the top of the vulcano Mauna Kea. In the background is the Canada France Hawaii Telescope

    On the right side of this image shows the Gemini Observatorium on the top of the vulcano Mauna Kea. In the background is the Canada France Hawaii Telescope

    STAR CLUSTERS

    As the name suggests, star clusters are groups of hundreds to millions of stars that share a common origin, all gravitationally bound for as long as several billions of years.

    There are two types of star clusters – open and globular. Globular clusters are dense balls of about one million ancient stars, all bound by gravity. Open clusters are much younger and smaller than globular clusters.

    According to experts at Penn State University, open clusters are usually a few tens of millions or hundreds of millions of years old, while globular clusters are typically about 12 laat verlede jaar aan Reuters gesê 13 billion years old.

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    The black hole was found hidden within B023-G078, an enormous star cluster in Andromeda with a solar mass of 6.2 miljoen.

    Long thought to be a globular star cluster, the researchers argue that B023-G078 is instead a stripped nucleusa remnant of a small galaxy that fell into a bigger one and had its outer stars stripped away by gravitational forces.

    What’s left behind is a tiny, dense nucleus orbiting the bigger galaxy and at the centre of that nucleus, a black hole.

    ‘Voorheen, we’ve found big black holes within massive, stripped nuclei that are much bigger than B023-G078,said lead author Renuka Pechetti at Liverpool John Moores University.

    ‘We knew that there must be smaller black holes in lower mass stripped nuclei, but there’s never been direct evidence.

    ‘I think this is a pretty clear case that we have finally found one of these objects.

    A globular cluster has a signature light profile that has the same shape near the centre as it does in the outer regions.

    But B023-G078 is different – the light at the centre is round and then gets flatter moving outwards.

    The chemical makeup of the stars changes too, with more heavy elements in the stars at the centre than those near the object’s edge.

    ‘Globular star clusters basically form at the same time,’ said Professor Seth.

    'In kontras, these stripped nuclei can have repeated formation episodes, where gas falls into the center of the galaxy, and forms stars.

    ‘And other star clusters can get dragged into the centre by the gravitational forces of the galaxy.

    ‘It’s kind of the dumping ground for a bunch of different stuff. So, stars in stripped nuclei will be more complicated than in globular clusters. And that’s what we saw in B023-G078.

    The researchers are hoping to observe more stripped nuclei that may hold more intermediate mass black holes.

    In September 2020, researchers in Australia working as part of an international collaboration studying gravitational waves berig the first direct observation of an intermediate-mass black hole.

    Rondom 150 times heavier than our Sun, it was birthed from the merger of two smaller (yet still very large) black holes 17 billion light years away.

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