November 23, 2024

Running on Empty: Astronomers Solve 12-Billion-Year-Old Mystery of Stalled Galaxies

The slumbering giant galaxy at the center of this image is 10 billion light-years away. Credit: ESA/Hubble & & NASA, A. Newman, M. Akhshik, K. Whitaker Unprecedent measurements validate galaxies idle when they lack cold gas.
New research, released in Nature and led by the University of Massachusetts Amherst, has simply responded to among the fundamental questions about our universe: Why did a few of the earliest, most massive galaxies go quiescent early in their development? The response, we now understand, is since they ran out of cold gas.
” The most huge galaxies in our universe formed incredibly early, simply after the Big Bang occurred, 14 billion years earlier,” says Kate Whitaker, professor of astronomy at UMass Amherst. “But for some factor, they have actually shut down. Theyre no longer forming new stars.” Star formation is among the key manner ins which galaxies grow, and theyre stated to have gone quiescent when they stop forming stars. Astronomers have actually known that these early, enormous galaxies had actually gone quiescent, however till now, nobody understood why.

To find the response, Whitakers team, that includes Alexandra Pope, associate professor of astronomy, and Christina C. Williams, who got her Ph.D. in astronomy at UMass, created an ingenious pairing of telescopes. They used the Hubble Space Telescope, which sees ultraviolet to near-infrared light, including the light we can see with our own eyes, to detect these far-off galaxies, which are so far away that were only simply now seeing the light they gave off 10 billion to 12 billion years back, when the universe was in its infancy. In result, Whitakers group is checking out the deep past.
Composites from NASAs Hubble Space Telescope and ALMA revealing closeups of two galaxies, MRG-M1341 and MRG-M2129, 10– 12 billion light years away. Credit: Whitaker at al., 10.1038/ s41586-021-03806-7, Joseph DePasquale These galaxies need to appear young and energetic, with evidence of constant star development. But they dont, and Whitakers group integrated Hubbles images with extremely delicate readings from ALMA, the Atacama Large Millimeter/submillimeter Array, which discovers radiation undetectable to the naked eye.
Rather, Whitaker and her group found only traces of cold gas located at each galaxys. This indicates that, within the very first couple of billion years of the universes existence, these galaxies either burned through their energy materials, or ejected them and, additionally, that something might be physically obstructing each galaxys replenishment of cold gas.
Taken together, the research study helps us to reword the early history of the universe so that we can get a clearer idea of how galaxies develop. The groups next action is to find out how compact the staying gas remains in these quiescent galaxies and why it exists only in the galaxies center.
For more on this research study, check out “Dead” Galaxies Mysteriously Ran Out of Fuel To Make Stars in the Early Universe.
Referral: “Exhausted gas reservoirs drive massive 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.
This research was supported by the Alfred P. Sloan Foundation, National Science Foundation, NASA Goddard Space Flight Center, European Research Council, Carlsberg Foundation, Villum Fonden, Canadian Space Agency, NASA and the Dunlap Institute for Astronomy & & Astrophysics.

Unprecedent measurements validate galaxies idle when they run out of cold gas.
Composites from NASAs Hubble Space Telescope and ALMA revealing closeups of two galaxies, MRG-M1341 and MRG-M2129, 10– 12 billion light years away. Rather, Whitaker and her team discovered only traces of cold gas situated at each galaxys. This implies that, within the first few billion years of the universes presence, these galaxies either burned through their energy supplies, or ejected them and, in addition, that something may be physically obstructing each galaxys replenishment of cold gas.