cua cà mau cua tươi sống cua cà mau bao nhiêu 1kg giá cua hôm nay giá cua cà mau hôm nay cua thịt cà mau cua biển cua biển cà mau cách luộc cua cà mau cua gạch cua gạch cà mau vựa cua cà mau lẩu cua cà mau giá cua thịt cà mau hôm nay giá cua gạch cà mau giá cua gạch cách hấp cua cà mau cua cốm cà mau cua hấp mua cua cà mau cua ca mau ban cua ca mau cua cà mau giá rẻ cua biển tươi cuaganic cua cua thịt cà mau cua gạch cà mau cua cà mau gần đây hải sản cà mau cua gạch son cua đầy gạch giá rẻ các loại cua ở việt nam các loại cua biển ở việt nam cua ngon cua giá rẻ cua gia re crab farming crab farming cua cà mau cua cà mau cua tươi sống cua tươi sống cua cà mau bao nhiêu 1kg giá cua hôm nay giá cua cà mau hôm nay cua thịt cà mau cua biển cua biển cà mau cách luộc cua cà mau cua gạch cua gạch cà mau vựa cua cà mau lẩu cua cà mau giá cua thịt cà mau hôm nay giá cua gạch cà mau giá cua gạch cách hấp cua cà mau cua cốm cà mau cua hấp mua cua cà mau cua ca mau ban cua ca mau cua cà mau giá rẻ cua biển tươi cuaganic cua cua thịt cà mau cua gạch cà mau cua cà mau gần đây hải sản cà mau cua gạch son cua đầy gạch giá rẻ các loại cua ở việt nam các loại cua biển ở việt nam cua ngon cua giá rẻ cua gia re crab farming crab farming cua cà mau
Skip to main content

Hubble may have found the ‘missing link’ in black hole formation

Researchers using the Hubble Space Telescope have found the first evidence for a type of black hole that has only been hypothesized so far.

Astronomers have found plenty of black holes which are either large, being hundreds of millions of times the mass of our sun, or small, being around five times the mass of our sun. But they have found no intermediate black holes, only indirect evidence of them, which raises questions of how black holes merge and grow from small to large.

Recommended Videos

These intermediate-mass black holes (or IMBHs) form a “missing link” in our understanding of black hole evolution, but they are particularly difficult to find. “Intermediate-mass black holes are very elusive objects,” Dacheng Lin of the University of New Hampshire, principal investigator of the new Hubble study, said in a statement, “and so it is critical to carefully consider and rule out alternative explanations for each candidate. That is what Hubble has allowed us to do for our candidate.”

artist’s impression depicts a star being torn apart by an intermediate-mass black hole
This artist’s impression depicts a star being torn apart by an intermediate-mass black hole (IMBH), surrounded by an accretion disc. This thin, rotating disc of material consists of the leftovers of a star that was ripped apart by the tidal forces of the black hole. ESA/Hubble, M. Kornmesser

As a starting point for their investigations, the researchers took data from NASA’s Chandra X-ray Observatory and the European Space Agency’s X-ray Multi-Mirror Mission, both of which observe the X-ray wavelength and had spotted a powerful flare of X-rays from an unknown source in 2006. By pointing Hubble toward the source of these X-rays, the team was able to see that they were generated not from the center of a galaxy, where you would expect to find a supermassive black hole, but off to one side.

It turned out that the source of the X-rays was a star cluster on the edge of the galaxy, and that the star cluster was around the size that would be expected to host an IMBH. The X-rays appear to have been emitted when an IMBH at the heart of the cluster fed on a star that strayed too close to it.

“Adding further X-ray observations allowed us to understand the total energy output,” team member Natalie Webb of the Université de Toulouse in France said in the statement. “This helps us to understand the type of star that was disrupted by the black hole.”

This research represents the best evidence yet of the identification of an IMBH. And that opens the door to answer many questions about black holes of all sizes: “Studying the origin and evolution of the intermediate mass black holes will finally give an answer as to how the supermassive black holes that we find in the centers of massive galaxies came to exist,” Webb said.

Georgina Torbet
Georgina has been the space writer at Digital Trends space writer for six years, covering human space exploration, planetary…
Trippy NASA video shows two black holes interacting
nasa visualization two black holes blackhole binary mainsequence 1

The Doubly Warped World of Binary Black Holes

Black holes are so dense that their gravity pulls in everything around them, even light. But that doesn't mean that they are invisible to view. They collect clouds of dust and gas which form a structure around the black hole called an accretion disk, from which matter is pulled into the black hole over time. These accretion disks give off light and form the distinctive humped appearance made famous by movies like Interstellar.

Read more
Hubble identifies a 10-billion-year-old pair of quasars in merging galaxies
Astronomers have discovered two pairs of quasars in the distant Universe, about 10 billion light-years from Earth. In each pair, the two quasars are separated by only about 10,000 light-years, making them closer together than any other double quasars found so far away. The proximity of the quasars in each pair suggests that they are located within two merging galaxies. Quasars are the intensely bright cores of distant galaxies, powered by the feeding frenzies of supermassive black holes. One of the distant double quasars is depicted in this illustration.

Astronomers have discovered two pairs of quasars in the distant Universe, about 10 billion light-years from Earth. In each pair, the two quasars are separated by only about 10,000 light-years, making them closer together than any other double quasars found so far away. The proximity of the quasars in each pair suggests that they are located within two merging galaxies. Quasars are the intensely bright cores of distant galaxies, powered by the feeding frenzies of supermassive black holes. One of the distant double quasars is depicted in this illustration. International Gemini Observatory/NOIRLab/NSF/AURA/J. da Silva

When galaxies get close enough together, they can collide in epic events which can destroy one or lead to the two merging into a larger galaxy. And sometimes, on very rare occasions, the two galaxies might both include a quasar -- an extremely bright galactic core formed around a supermassive black hole, so luminous it can shine brighter than the entire rest of the galaxy.

Read more
This incredible image shows the magnetic field of a black hole
A view of the M87 supermassive black hole in polarised light

The Event Horizon Telescope (EHT) collaboration, which produced the first-ever image of a black hole released in 2019, has today a new view of the massive object at the center of the Messier 87 (M87) galaxy: how it looks in polarized light. This is the first time astronomers have been able to measure polarization, a signature of magnetic fields, this close to the edge of a black hole.  This image shows the polarized view of the black hole in M87. The lines mark the orientation of polarization, which is related to the magnetic field around the shadow of the black hole. EHT Collaboration

The Event Horizon Telescope (EHT) project, the international collaboration which famously captured the first-ever image of a black hole, has released another new and unique image showing the same black hole's magnetic field.

Read more