The James Webb Space Telescope is observing what happens when two spiral galaxies crash into each other, and the result is something as bright as a trillion suns.
If that's a magnitude beyond comprehension, try thinking of it this way: The entire Milky Way galaxy has a luminosity on par with just 10 billion suns.
Scientists recently used the space observatory, a collaboration of NASA and the European and Canadian space agencies, to study the incredibly bright region(opens in a new tab) about 250 million light-years away in the Serpens constellation. The object glows brightest in infrared wavelengths invisible to the naked eye, making it an ideal subject for Webb, which detects light in the infrared.
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The collision, known as Arp 220(opens in a new tab), is the brightest of the three closest galaxies to the Milky Way. That name derives from its being the 220th object among Halton Arp’s "Atlas of Peculiar Galaxies(opens in a new tab)," a catalog of celestial oddities Caltech published in 1966.
Such a sharp, gleaming composite image demonstrates the $10 billion space telescope's ability to collect extraordinary data from the distant universe. Scientists believe Webb will spur a golden age in our understanding of the cosmos.
Researchers believe that as the two galaxies started combining about 700 million years ago, they ignited a rip-roaring burst of new stars. About 200 star clusters are within a dense, dusty region about 5,000 light-years across. The amount of gas found in this relatively small spot — just 5 percent the size of the Milky Way's breadth — is on par with all of the gas throughout our galaxy, according to the Space Telescope Science Institute(opens in a new tab) in Baltimore.
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Such a phenomenon is known as a "ulirg(opens in a new tab)" — an ultra-luminous infrared galaxy. Cosmologists have theorized that ulirgs could be catalysts in the evolution of elliptical, or egg-shaped galaxies in the universe, according to the European Space Agency.
Previously, radio telescopes saw 100 supernova, or star explosion, remnants in a section of Arp 220 spanning less than 500 light-years, and the Hubble Space Telescope(opens in a new tab) discovered that the cores of its two parent galaxies are only 1,200 light-years apart.
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But Webb's view provides even more detail on the intriguingly bright light source.
"Each of the combining galactic cores is encircled by a rotating, star-forming ring blasting out the glaring light that Webb captured in infrared," according to the institute in a post on April 17(opens in a new tab). "This brilliant light creates a prominent, spiked, starburst feature."
