Space

Did black holes come before galaxies at the beginning of time?

ChatGPT and Deborah Byrd created a 3-point summary for the longer article below:

  • Astronomers thought the first black holes formed after the first stars and galaxies. But a new analysis using Webb Space Telescope data suggests black holes were present at the dawn of the universe and helped shape what came next.
  • The study suggests that – in our universe’s first 50 million years – the intense gravity of black holes drove outflows that sparked the birth of stars. Black hole outflows could have crushed gas clouds, setting off the star formation process.
  • This new research offers insights into our universe’s evolutionary timeline and into the interconnectedness between black holes and the way the earliest galaxies formed.
A flat, glowing yellow disk with a black center and glowing spheres of gas flying outward.
Artist’s concept of a magnetic field generated by a supermassive black hole in the early universe. The image shows the turbulent plasma outflows that – according to a recent study – turn gas clouds into stars. So … did black holes come before galaxies and stars? Or did galaxies and stars come first? Image via Roberto Molar Candanosa/ JHU.

Johns Hopkins published this article Feb 6, 2024

Johns Hopkins University HUB originally published this article, written by Roberto Molar Candanosa. Edits by EarthSky.

Black holes not only existed at the dawn of time, they birthed new stars and supercharged galaxy formation, a new analysis of James Webb Space Telescope data suggests.

The insights upend theories of how black holes shape the cosmos, challenging classical understanding that they formed after the first stars and galaxies emerged. Instead, black holes might have dramatically accelerated the birth of new stars during the first 50 million years of the universe, a fleeting period within its 13.8-billion-year history. Joseph Silk – of Johns Hopkins University and the Institute of Astrophysics, Paris, Sorbonne University – is lead author of the new research. He said:

We know these monster black holes exist at the center of galaxies near our Milky Way, but the big surprise now is that they were present at the beginning of the universe as well and were almost like building blocks or seeds for early galaxies.

They really boosted everything, like gigantic amplifiers of star formation, which is a whole turnaround of what we thought possible before, so much so that this could completely shake up our understanding of how galaxies form.

The peer-reviewed Astrophysical Journal Letters published the new work on January 30, 2024.

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White-haired man in suit and tie, smiling at the camera.
Joseph Silk is Homewood Professor of Physics and Astronomy at Johns Hopkins University. He is lead author on the new paper titled “Which Came First: Supermassive Black Holes or Galaxies? Insights from JWST.” Image used with permission.

Black holes and galaxies coexisted and influenced each other

Distant galaxies from the very early universe, observed through the Webb Space Telescope, appear much brighter than scientists predicted and reveal unusually high numbers of young stars and supermassive black holes, Silk said.

Conventional wisdom holds that black holes formed after the collapse of supermassive stars and that galaxies formed after the first stars lit up the dark early universe. But the analysis by Silk’s team suggests that black holes and galaxies coexisted and influenced each other’s fate during the first 100 million years. If the entire history of the universe were a 12-month calendar, those years would be like the first days of January, Silk said, adding:

We’re arguing that black hole outflows crushed gas clouds, turning them into stars and greatly accelerating the rate of star formation. Otherwise, it’s very hard to understand where these bright galaxies came from because they’re typically smaller in the early universe. Why on earth should they be making stars so rapidly?

Black holes are regions in space where gravity is so strong that nothing can escape their pull, not even light. Because of this force, they generate powerful magnetic fields that make storms, ejecting turbulent plasma and ultimately acting like enormous particle accelerators, Silk said. This process, he said, is likely why Webb’s detectors have spotted more of these black holes and bright galaxies than scientists anticipated. Silk explained:

We can’t quite see these violent winds or jets far, far away, but we know they must be present because we see many black holes early on in the universe. These enormous winds coming from the black holes crush nearby gas clouds and turn them into stars.

That’s the missing link that explains why these first galaxies are so much brighter than we expected.

Young smiling man with a broad face and dark hair.
Roberto Molar Candanosa is a science writer and digital communications coordinator at the Carnegie Institution for Science’s Earth & Planets Laboratory. He is the author of the article on black holes in the early universe. Image used with permission.

2 phases in the early universe

Silk’s team predicts the young universe had two phases. During the first phase, high-speed outflows from black holes accelerated star formation, and then, in a second phase, the outflows slowed down. A few hundred million years after the Big Bang, gas clouds collapsed because of supermassive black hole magnetic storms, and new stars were born at a rate far exceeding that observed billions of years later in normal galaxies, Silk said.

The creation of stars slowed down because these powerful outflows transitioned into a state of energy conservation, he said, reducing the gas available to form stars in galaxies. Silk explained:

We thought that in the beginning, galaxies formed when a giant gas cloud collapsed. The big surprise is that there was a seed in the middle of that cloud – a big black hole – and that helped rapidly turn the inner part of that cloud into stars at a rate much greater than we ever expected. And so the first galaxies are incredibly bright.

The team expects future Webb telescope observations, with more precise counts of stars and supermassive black holes in the early universe, will help confirm their calculations. Silk expects these observations will also help scientists piece together more clues about the evolution of the universe. He said:

The big question is, what were our beginnings? The sun is one star in 100 billion in the Milky Way galaxy, and there’s a massive black hole sitting in the middle, too. What’s the connection between the two? Within a year we’ll have so much better data, and a lot of our questions will begin to get answers.

Addendum: How did the black holes get there?

Note from EarthSky: In editing this story we wondered, if galaxies did not come first and help create black holes in the early universe, how did the black holes get there? We asked Joe Silk of Harvard to explain, and he said:

There are several ways to make supermassive holes before galaxies. My preferred thought is this. The first objects in our usual model are dwarf galaxies that formed very early in the universe. But these might equally be factories for producing very massive black holes. This could work because we know that many dwarf galaxies contain really dense star clusters at their centers. These are much denser than globular star clusters, and an environment where massive stars form black holes. These sink into the center, then merge occasionally.

The mergers may be the source of many of the gravity wave bursts seen by LIGO.The final result is a central massive black hole surrounded by smaller ones as well as older stars. Many of the dwarf galaxies merge together over time, and the final result is more massive galaxies containing central supermassive black holes.

Bottom line: New research using James Webb Space Telescope data says that black holes might have formed soon after the Big Bang, predating galaxies and stars.

Source: Which Came First: Supermassive Black Holes or Galaxies? Insights from JWST

Via Johns Hopkins HUB

Posted 
February 11, 2024
 in 
Space

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