James Webb Space Telescope Corrects Misconceptions About Sizes of Early Galaxies

James Webb Space Telescope Corrects Misconceptions About Sizes of Early Galaxies
Science

Recent observations from the James Webb Space Telescope (JWST) have challenged earlier assumptions about the size of galaxies in the early universe. Previously, scientists were puzzled by the apparent size of these ancient galaxies, which seemed to defy the standard model of cosmology. The JWST, with its advanced infrared capabilities, has now shed light on the matter, revealing that some of these early galaxies are not as massive as initially believed.

Understanding the Misconception

Astronomers initially found that early galaxies appeared much larger than expected, suggesting a potential crisis in our understanding of the universe’s evolution. This discrepancy was attributed to a miscalculation of the galaxies’ mass, partly due to the influence of black holes. Black holes, despite their name, can make galaxies seem brighter and more massive due to the intense light emitted from gas falling into them. This effect was not fully accounted for in earlier observations.

Revised Galaxy Sizes

Dr Steve Finkelstein, an astrophysicist at the University of Texas at Austin, and his team have now corrected these estimates. They focused on 261 galaxies from between 700 million and 1.5 billion years after the Big Bang. By examining the infrared light captured by the JWST, which is sensitive to cooler, lower-mass stars, the researchers were able to get a more accurate measure of these galaxies’ true size.

The findings indicate that while some galaxies are indeed larger than initially thought, they do not challenge the standard model of cosmology.

Future Implications

Despite the revised figures, the JWST still reveals that the early universe had more galaxies than predicted. This discrepancy may be due to faster star formation rates in the early universe compared to today. The upcoming months will provide further data to help understand how these galaxies accumulated their stellar mass and how they formed.

Read original article here.

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