Gamma ray discovery could advance understanding of ultra-fast outflows’ role in the evolution of galaxies

Gamma ray discovery could advance understanding of ultra-fast outflows' role in the evolution of galaxies


Credit: Clemson University

Using data gathered by the Large Area Telescope onboard NASA’s Fermi Gamma-ray Space Telescope and a stacking technique combining signals too weak to be observed on their own, researchers detected gamma rays from UFOs in several nearby galaxies for the first time, providing a basis for scientists to understand what happened in our own Milky Way galaxy.


UFOs are ultra-fast outflows—powerful winds launched from very near supermassive black holes that scientists believe play an important role in regulating the growth of the black hole itself and its .

Clemson University scientists’ collaborative research is published in The Astrophysical Journal. Partners include the College of Charleston, the University of Chicago, and a host of other researchers who are part of the Fermi-LAT Collaboration, which includes hundreds of scientists from 12 countries. “Gamma rays from Fast Black-Hole Winds” outlines the detection of gamma-ray emission from UFOs launched by supermassive black holes.

“Although these winds are challenging to detect, it is thought that they play a significant role in how a massive black hole and the host galaxy itself grow,” said Chris Karwin, a postdoctoral fellow in the College of Science’s Department of Physics and Astronomy and leader of the study. “Our gamma-ray observations show how can transfer a large amount of energy to their host galaxy. These UFOs create , which act like pistons and actually accelerate charged particles, known as , to near the speed of light.”

Every galaxy has a supermassive black hole at its center. Some are dormant. Others, called , are active, meaning that they draw in and “eat” the surrounding matter through a process called accretion.

While traveling through the galaxies, the winds gradually disable star formation. “The effect on the galaxy is dramatic,” said Marco Ajello, associate professor in Clemson College of Science’s Department of Physics and Astronomy who is co-leading the study. “The black hole at the center of the galaxy and the galaxy itself have a mechanism to grow together in mass—and this is the mechanism.”

Because the detected are produced by cosmic rays accelerated at the shock front, Karwin said it attests to the onset of the wind-host interaction and that the UFOs can energize charged particles up to the transition region between galactic and extragalactic cosmic rays.

Understanding the Milky Way

The findings of the study could help scientists understand what happened in our own Milky Way galaxy.

Sagittarius A* is the supermassive black hole at the center of the Milky Way with about 4 million times the sun’s mass. Extending above and below the Milky Way’s disc are Fermi bubbles, enormous round structures of hot gas emanating from the galactic center. They’re called Fermi bubbles because the Fermi Gamma-Ray Space Telescope, the source of the data used by Ajello and Karwin in the current study, discovered them in 2010.

“Today, our black hole, Sagittarius A*, is not active, but it’s possible it was active in the recent past, maybe up until a few hundred years ago,” Karwin said. “Our model supports the hypothesis that these Fermi bubbles may be remnants of past UFO-like activity from the supermassive black hole in the center of our galaxy.”

Ajello said future work includes studying that have had active UFO winds for 10s of millions of years that have already traveled to the outskirts of the galaxy.


Data from the Fermi Large Area Telescope suggests there is a particle accelerator in the galactic center


More information:
M. Ajello et al, Gamma Rays from Fast Black-hole Winds, The Astrophysical Journal (2021). DOI: 10.3847/1538-4357/ac1bb2

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Clemson University

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Gamma ray discovery could advance understanding of ultra-fast outflows’ role in the evolution of galaxies (2021, November 10)
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