The discovery of such a vast number of galaxies in the early universe suggests a potential revision of prior knowledge on galaxy formation.
Exploring the universe’s earliest galaxies with NASA’s new space telescope.
A team of astronomers, headed by Haojing Yan at the University of Missouri, have used NASA’s James Webb Space Telescope (JWST) Early Release Observations and discovered 87 galaxies that could be the earliest known galaxies in the universe.
The discovery brings the astronomers closer to determining the appearance of galaxies in the universe, estimated to be 200-400 million years after the Big Bang, according to Yan, lead author and associate professor of physics and astronomy at MU.
“Finding such a large number of galaxies in the early parts of the universe suggests that we might need to revise our previous understanding of galaxy formation,” Yan said. “Our finding gives us the first indication that a lot of galaxies could have been formed in the universe much earlier than previously thought.”
A pair of color composite images from the galaxy cluster SMACS 0723-27 and its surrounding area taken by NASA’s James Webb Space Telescope through its Early Release Observations (ERO). A team of astronomers led by Haojing Yan at the University of Missouri used the data from these images to identify the objects of interest for their study. These include galaxies that could be the earliest known galaxies in the universe — about 200-400 million years after the Big Bang. The location of each object of interest is indicated by one of three different colored circles — blue, green, or red — on the color images. These colors correspond with the range of redshifts where they were found — high (blue), very high (green), or extremely high (red). Graphic by Haojing Yan and Bangzheng Sun. Credit: NASA, European Space Agency, Canadian Space Agency, and the Space Telescope Science Institute.
In the study, the astronomers searched for potential galaxies at “very high redshifts.” Yan said the concept of redshifts in astronomy allows astronomers to measure how far away distant objects are in the universe — like galaxies — by looking at how the colors change in the waves of light that they emit.
Haojing Yan. Credit: University of Missouri
“If a light-emitting source is moving toward us, the light is being ‘squeezed,’ and that shorter wavelength is represented by blue light, or blueshift,” Yan said. “But if that source [of light] is moving away from us, the light it produces is being ‘stretched,’ and changes to a longer wavelength that is represented by red light, or redshift.”
Yan said Edwin Hubble’s discovery in the late 1920s that our universe is ever-expanding is key to understanding how redshifts are used in astronomy.
Read Full Story
SciTechDaily Rating
Discover more from News Facts Network
Subscribe to get the latest posts sent to your email.
