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Astronomers spot distant galaxy group driving ancient cosmic makeover

Date:
January 6, 2020
Source:
NASA/Goddard Space Flight Center
Summary:
Astronomers have found the farthest galaxy group identified to date. Called EGS77, the trio of galaxies dates to a time when the universe was only 680 million years old, or less than 5% of its current age of 13.8 billion years.
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An international team of astronomers funded in part by NASA has found the farthest galaxy group identified to date. Called EGS77, the trio of galaxies dates to a time when the universe was only 680 million years old, or less than 5% of its current age of 13.8 billion years.

More significantly, observations show the galaxies are participants in a sweeping cosmic makeover called reionization. The era began when light from the first stars changed the nature of hydrogen throughout the universe in a manner akin to a frozen lake melting in the spring. This transformed the dark, light-quenching early cosmos into the one we see around us today.

"The young universe was filled with hydrogen atoms, which so attenuate ultraviolet light that they block our view of early galaxies," said James Rhoads at NASA's Goddard Space Flight Center in Greenbelt, Maryland, who presented the findings on Jan. 5 at the 235th meeting of the American Astronomical Society in Honolulu. "EGS77 is the first galaxy group caught in the act of clearing out this cosmic fog."

While more distant individual galaxies have been observed, EGS77 is the farthest galaxy group to date showing the specific wavelengths of far-ultraviolet light revealed by reionization. This emission, called Lyman alpha light, is prominent in all members of EGS77.

In its earliest phase, the universe was a glowing plasma of particles, including electrons, protons, atomic nuclei, and light. Atoms could not yet exist. The universe was in an ionized state, similar to the gas inside a lighted neon sign or fluorescent tube.

After the universe expanded and cooled for about 380,000 years, electrons and protons combined into the first atoms -- more than 90% of them hydrogen. Hundreds of millions of years later, this gas formed the first stars and galaxies. But the very presence of this abundant gas poses challenges for spotting galaxies in the early universe.

Hydrogen atoms readily absorb and quickly re-emit far-ultraviolet light known as Lyman alpha emission, which has a wavelength of 121.6 nanometers. When the first stars formed, some of the light they produced matched this wavelength. Because Lyman alpha light easily interacted with hydrogen atoms, it couldn't travel far before the gas scattered it in random directions.

"Intense light from galaxies can ionize the surrounding hydrogen gas, forming bubbles that allow starlight to travel freely," said team member Vithal Tilvi, a researcher at Arizona State University in Tempe. "EGS77 has formed a large bubble that allows its light to travel to Earth without much attenuation. Eventually, bubbles like these grew around all galaxies and filled intergalactic space, reionizing the universe and clearing the way for light to travel across the cosmos."

EGS77 was discovered as part of the Cosmic Deep And Wide Narrowband (Cosmic DAWN) survey, for which Rhoads serves as principal investigator. The team imaged a small area in the constellation Boötes using a custom-built filter on the National Optical Astronomy Observatory's Extremely Wide-Field InfraRed Imager (NEWFIRM), which was attached to the 4-meter Mayall telescope at Kitt Peak National Observatory near Tucson, Arizona.

Because the universe is expanding, Lyman alpha light from EGS77 has been stretched out during its travels, so astronomers actually detect it at near-infrared wavelengths. We can't see these galaxies in visible light now because that light started out at shorter wavelengths than Lyman alpha and was scattered by the fog of hydrogen atoms.

To help select distant candidates, the researchers compared their images with publicly available data of the same region taken by NASA's Hubble and Spitzer space telescopes. Galaxies appearing brightly in near-infrared images were tagged as possibilities, while those appearing in visible light were rejected as being too close.

The team confirmed the distances to EGS77's galaxies by using the Multi-Object Spectrometer for Infra-Red Exploration (MOSFIRE) on the Keck I telescope at the W. M. Keck Observatory on Maunakea, Hawaii. The three galaxies all show Lyman alpha emission lines at slightly different wavelengths, reflecting slightly different distances. The separation between adjacent galaxies is about 2.3 million light-years, or slightly closer than the distance between the Andromeda galaxy and our own Milky Way.

A paper describing the findings, led by Tilvi, has been submitted to The Astrophysical Journal.

"While this is the first galaxy group identified as being responsible for cosmic reionization, future NASA missions will tell us much more," said co-author Sangeeta Malhotra at Goddard. "The upcoming James Webb Space Telescope is sensitive to Lyman alpha emission from even fainter galaxies at these distances and may find more galaxies within EGS77."

Astronomers expect that similar reionization bubbles from this era will be rare and hard to find. NASA's planned Wide Field Infrared Survey Telescope (WFIRST) may be able to uncover additional examples, further illuminating this important transition in cosmic history.


Story Source:

Materials provided by NASA/Goddard Space Flight Center. Original written by Francis Reddy. Note: Content may be edited for style and length.


Cite This Page:

NASA/Goddard Space Flight Center. "Astronomers spot distant galaxy group driving ancient cosmic makeover." ScienceDaily. ScienceDaily, 6 January 2020. <www.sciencedaily.com/releases/2020/01/200106141610.htm>.
NASA/Goddard Space Flight Center. (2020, January 6). Astronomers spot distant galaxy group driving ancient cosmic makeover. ScienceDaily. Retrieved November 20, 2024 from www.sciencedaily.com/releases/2020/01/200106141610.htm
NASA/Goddard Space Flight Center. "Astronomers spot distant galaxy group driving ancient cosmic makeover." ScienceDaily. www.sciencedaily.com/releases/2020/01/200106141610.htm (accessed November 20, 2024).

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