November 23, 2024

“Dead” Galaxies Mysteriously Ran Out of Fuel To Make Stars in the Early Universe

These images are composites from NASAs Hubble Space Telescope and the Atacama Large Millimeter/submillimeter Array (ALMA). The boxed and pullout images show two of the six, distant, huge galaxies where researchers discovered star development has actually ceased due to the deficiency of a fuel source– cold hydrogen gas.Hubble, together with ALMA, discovered these odd galaxies when they integrated forces with the “natural lens” in area produced by foreground huge galaxy clusters. The clusters gravity stretches and enhances the light of the background galaxies in an impact called gravitational lensing. This phenomenon allows astronomers to utilize enormous galaxy clusters as natural magnifying glasses to study details in the far-off galaxies that would otherwise be impossible to see.The yellow traces the radiance of starlight. The artificial purple color traces cold dust from ALMA observations. This cold dust is utilized as a proxy for the cold hydrogen gas needed for star formation.Even with ALMAs level of sensitivity, scientists do not identify dust in many of the 6 galaxies tested. One example is MRG-M1341, at upper. It looks misshaped by the “funhouse mirror” optical results of lensing. In contrast, the purple blob to the left of the galaxy is an example of a dust-and-gas-rich galaxy.One example of the detection of cold dust ALMA did make is galaxy MRG-M2129 at bottom. The galaxy only has dust and gas in the very. This suggests that star formation might have closed down from the outskirts inward.Credit: Lead Author: NASA, ESA, Katherine E. Whitaker (UMass), Image Processing: Joseph DePasquale (STScI).
When the universe was about 3 billion years of ages, simply 20% of its current age, it experienced the most prolific duration of star birth in its history. When NASAs Hubble Space Telescope and the Atacama Large Millimeter/submillimeter Array (ALMA) in northern Chile gazed towards cosmic objects in this period, they found something odd: 6 early, huge, “dead” galaxies that had actually run out of the cold hydrogen gas needed to make stars.
Without more fuel for star development, these galaxies were literally working on empty. The findings are released in the journal Nature..
” At this point in our universe, all galaxies need to be forming lots of stars. Its the peak date of star development,” described lead author Kate Whitaker, assistant teacher of astronomy at the University of Massachusetts, Amherst. Whitaker is likewise associate faculty at the Cosmic Dawn Center in Copenhagen, Denmark. “So what occurred to all the cold gas in these galaxies so early on?”.
This research study is a classic example of the consistency in between Hubble and ALMA observations. Hubble identified where in the galaxies the stars exist, showing where they formed in the past. By detecting the cold dust that functions as a proxy for the cold hydrogen gas, ALMA revealed astronomers where stars could form in the future if sufficient fuel were present.
Galaxy clusters MACS J1341 and MACS J2129. Credit: Lead Author: NASA, ESA, Katherine E. Whitaker (UMass), Image Processing: Joseph DePasquale (STScI).
Utilizing Natures Own Telescopes.
The research study of these early, far-off, dead galaxies was part of the properly called REQUIEM program, which stands for Resolving QUIEscent Magnified Galaxies At High Redshift. (Redshift happens when light is extended by the growth of space and appears shifted toward the red part of the spectrum. The further away a galaxy is with respect to the observer, the redder it appears.).
The enormous gravity of a galaxy cluster deforms space, magnifying and bending light from background items. When an early, extremely far-off and huge galaxy is placed behind such a cluster, it appears considerably extended and amplified, allowing astronomers to study details that would otherwise be impossible to see.
Just by integrating the splendid resolution of Hubble and ALMA with this strong lensing was the REQUIEM group able to able to understand the development of these 6 galaxies, which look like they did just a couple of billion years after the huge bang.
” By utilizing strong gravitational lensing as a natural telescope, we can find the far-off, a lot of huge, and very first galaxies to close down their star formation,” said Whitaker. “I like to think of it like doing science of the 2030s or 40s– with powerful next-generation space telescopes– but today instead by combining the abilities of Hubble and ALMA, which are enhanced by strong lensing.”.
” REQUIEM pulled together the largest sample to date of these rare, strong-lensed, dead galaxies in the early universe, and strong lensing is the secret here,” said Mohammad Akhshik, principal detective of the Hubble observing program. “It amplifies the light across all wavelengths so that its simpler to detect, and you likewise get higher spatial resolution when you have these galaxies stretched throughout the sky. You can essentially see inside of them at much finer physical scales to determine whats happening.”.
Live Fast, Die Young.
These sorts of dead galaxies dont appear to renew, even through later minor mergers and accretions of close-by, little galaxies and gas. Demolishing things around them mostly just “puffs up” the galaxies. If star development does turn back on, Whitaker explained it as “a sort of an icing.” About 11 billion years later in the present-day universe, these formerly compact galaxies are believed to have progressed to be bigger but are still dead in terms of any new star formation.
These 6 galaxies lived furious and quick lives, producing their stars in an incredibly brief time. Why they shut down star formation so early is still a puzzle.
Whitaker proposes numerous possible explanations: “Did a supermassive black hole in the galaxys center turn on and heat up all the gas? Or did the galaxy just utilize it all up, and the supply is cut off?
Reference: “Exhausted gas tanks drive enormous galaxy quenching in the early universe” by Katherine E. Whitaker, Christina C. Williams, Lamiya Mowla, Justin S. Spilker, Sune Toft, Desika Narayanan, Alexandra Pope, Georgios E. Magdis, Pieter G. van Dokkum, Mohammad Akhshik, Rachel Bezanson, Gabriel B. Brammer, Joel Leja, Allison Man, Erica J. Nelson, Johan Richard, Camilla Pacifici, Keren Sharon & & Francesco Valentino, 22 September 2021, Nature.DOI: 10.1038/ s41586-021-03806-7.
The Hubble Space Telescope is a job of international cooperation between NASA and ESA (European Space Agency). The Space Telescope Science Institute (STScI) in Baltimore, Maryland, conducts Hubble science operations.

Galaxy clusters MACS J1341. Credit: Lead Author: NASA, ESA, Katherine E. Whitaker (UMass), Image Processing: Joseph DePasquale (STScI).
Hubble Finds Early, Massive Galaxies Running on Empty.
” Live quickly, pass away young” might be the motto of 6 early, huge, “dead” galaxies that ran out of the cold hydrogen gas required to make stars early in the life of the universe. Without more fuel to develop stars, these galaxies were running on empty.
NASAs Hubble Space Telescope, together with the Atacama Large Millimeter/submillimeter Array (ALMA) in northern Chile, found these odd galaxies while looking back billions of years to the peak of star birth in deep space. To locate the really far-off galaxies, researchers integrated the power of Hubble and ALMA with incredibly massive foreground galaxy clusters acting as natural telescopes. Through a phenomenon called strong gravitational lensing, the immense gravity of a huge galaxy cluster warps space, magnifying and flexing light from background objects. When an early, extremely far-off and massive galaxy is positioned behind such a cluster, it appears significantly extended and amplified, enabling astronomers to study details that would otherwise be impossible to see.

NASAs Hubble Space Telescope, together with the Atacama Large Millimeter/submillimeter Array (ALMA) in northern Chile, found these odd galaxies while looking back billions of years to the peak of star birth in the universe. To locate the very distant galaxies, researchers combined the power of Hubble and ALMA with extremely enormous foreground galaxy clusters acting as natural telescopes. The boxed and pullout images reveal 2 of the 6, far-off, huge galaxies where scientists discovered star development has actually stopped due to the depletion of a fuel source– cold hydrogen gas.Hubble, together with ALMA, found these odd galaxies when they combined forces with the “natural lens” in space produced by foreground massive galaxy clusters. In contrast, the purple blob to the left of the galaxy is an example of a dust-and-gas-rich galaxy.One example of the detection of cold dust ALMA did make is galaxy MRG-M2129 at bottom. These sorts of dead galaxies dont appear to renew, even through later small mergers and accretions of neighboring, little galaxies and gas.