An artist's impression of
a growing supermassive black hole located in the early Universe is seen in this NASA handout illustration released on June 15, 2011.
Astronomers are believing that DOGs harbor actively
growing supermassive black holes in their nuclei (* 4).
These growing supermassive black holes are called Active Galactic Nuclei (AGN).
The newly discovered black hole is in a galaxy, NGC 1600, in the opposite part of the sky from the Coma Cluster in a relative desert, said the leader of the discovery team, Chung - Pei Ma, a UC Berkeley professor of astronomy and head of the MASSIVE Survey, a study of the most massive galaxies and black holes in the local universe with the goal of understanding how they form and
grow supermassive.
Not exact matches
The disc
grows to a point where the
supermassive black hole can no longer accrete or «digest» efficiently and matter is blasted out into the surrounding interstellar medium.
OBESE black holes, not stars, may have lit up the first galaxies — and could have
grown into the earliest
supermassive black holes.
«
Supermassive black holes and their host galaxies
grow in - situ,» Pasham says.
The existence of middleweights could explain how black holes
grow from small to
supermassive.
But just as important is what can't be seen: the fainter glows from smaller black holes, slowly putting on weight, as expected if
supermassive black holes were born star - sized and
grew gradually.
The findings have scientists puzzling over how early black holes
grew into the
supermassive beasts they are today without a steady diet of gas, dust, stars, and other fodder.
The conclusion that
supermassive black holes can
grow, from TDEs and perhaps other means, at rates above those corresponding to the Eddington limit has important implications.
In terms of mass they lie between the more commonly found stellar - mass and
supermassive types of black hole [3], and could tell us about how black holes
grow and evolve within clusters like Messier 15, and within galaxies.
Supermassive black holes like the one in galaxy M87 probably
grow not only by feeding on infalling gas and stars but also by mergers of smaller black holes.
«A few hundred - million years later, it has
grown into a billion - solar - mass
supermassive black hole.
Evidence for
supermassive black holes — weighing millions or billions of suns — has been found in the early universe, but no one knows how they
grew so big so fast.
That's because no one knows whether such supergiants
grow from scratch within star - forming regions, or whether, like
supermassive black holes and galaxies, they reach their enormous mass through mergers.
Astronomers have discovered the oldest
supermassive black hole ever found — a behemoth that
grew to 800 million times the mass of the sun when the universe was just 5 percent of its current age, a new study finds.
Some astronomers have suggested that they formed suddenly out of collapsing gas clouds, but most suspect that the
supermassive black holes
grew after their initial formation.
«Scientists observe
supermassive black hole in infant universe: Findings present a puzzle as to how such a huge object could have
grown so quickly.»
TOO BIG, TOO SOON
Supermassive black holes that are actively feeding on gas and dust, like the one shown in this artist's rendition, have been spotted in the early universe — before they should have had time to
grow.
Those furious feeding rates still seem to defy the black holes»
supermassive size: A 100 - solar - mass black hole accreting at the limit should take about 800 million years to reach a billion solar masses, even taking into account that it would eat faster as it
grew.
Simulations show that a small black hole seed will never
grow fast enough to become
supermassive before the universe is a billion years old.
They may have gone through periods of eating more quickly than was thought possible and
grew to near -
supermassive proportions before calming down.
This reinforces the scenario that the
supermassive black hole and dense hub of the galaxy
grew simultaneously, but the galaxy's stellar population stopped
growing and expanding because it was starved of outside material.
The finding suggests that
supermassive black holes sprung up surprisingly quickly after the Big Bang and
grew faster than the galaxies surrounding them.
Many galaxies, including our own, have one
supermassive black hole at their core, which
grows by slowly pulling in a host of smaller objects, including stars and entire star systems.
u «Astronomers are puzzled about how the oldest
supermassive black holes could have
grown so big so early in cosmic history.»
This correlation suggests that
supermassive black holes and their host galaxies have evolved together and closely interacted each other as they
grow, also known as the co-evolution of galaxies and
supermassive black holes.
All big galaxies in the universe host a
supermassive black hole in their center and in about 10 percent of all galaxies, these
supermassive black holes are
growing by swallowing huge amounts of gas and dust from their surrounding environments.
«Astrophysicists have been collecting observational evidence for both stellar mass black holes and
supermassive black holes for decades, but even though we think the largest ones
grow from the smallest ones, we've never really had clear evidence for a black hole with a mass in between those extremes,» she added.
One explanation for the existence of
supermassive black holes in the early universe postulates that the first black holes were «seeds» that
grew into much larger black holes by gravitationally attracting and then swallowing matter.
Additional studies are needed to verify their findings, but if the results hold true, Dr. Mullaney believes that it could help researchers better understand how
supermassive black holes continue to
grow.
How did the first
supermassive black holes
grow alongside their host galaxies in the early universe?
Artist's impression of the heart of a quasar, at which a
supermassive black hole
grows as it accretes material.
On a larger scale,
supermassive black holes have a mass of more than one million Suns, and so must develop and
grow very differently than stellar black holes.
Or could this provide us with insight into how all
supermassive black holes
grew in the early universe?
These quasar - starburst systems are unique laboratories that we can use to explore how the first
supermassive black holes formed and
grew along with their host galaxies in the period of time close to the end of cosmic reionization.
This indicates that
supermassive black holes are not primordial relics, but they are
growing with their host galaxies.
This is the most distant quasar — a
supermassive black hole surrounded by a disk of gas — ever identified and it will help astronomers to better understand exactly how black holes
grew when the universe was first forming.
«We asked, what if we could find a place where stars could
grow much faster, perhaps to the size of many thousands of suns; could they form
supermassive black holes in less time?»
Given the 13.8 billion years that have passed since the Big Bang, it may be enough time for
supermassive black holes to
grow to their gigantic sizes, but how then do we explain that some of them formed less than 800 million years after the universe came into existence?
Supermassive black holes lurking in the hearts of countless galaxies are
growing faster than astronomers suspected based on earlier studies.
Once a
supermassive black hole turns into a quasar, its proximity zone
grows very quickly, and by observing how big this zone is, scientists can estimate the duration the quasar has been active for.