Hubble Telescope captures cosmic collision from 50 million years ago


 


Hubble Telescope Discovers Record-Breaking 'Bullseye' Galaxy with Nine Rings

Astronomers have made a groundbreaking discovery using the Hubble Space Telescope—a galaxy wrapped in nine concentric rings of stars, shattering the previous record of three rings. This celestial marvel, officially named LEDA 1313424, formed after a violent collision with a smaller dwarf galaxy, leaving behind a structure that resembles a cosmic bullseye.

The discovery, detailed in a study published on February 4 in The Astrophysical Journal Letters, offers a rare glimpse into the aftermath of galactic collisions and provides new insights into how galaxies evolve.




A Cosmic Collision That Shaped a Galaxy

LEDA 1313424 was first noticed serendipitously during a review of a 2019 sky survey. Initially, astronomers counted eight distinct rings before confirming a faint ninth ring with data from the W. M. Keck Observatory in Hawaii. These rings, never before observed in such numbers, are the result of a dwarf galaxy crashing through the center of LEDA 1313424 roughly 50 million years ago.

This dramatic impact created shock waves that rippled outward, much like waves spreading across a pond when a stone is thrown in. These waves compressed clouds of gas and dust, triggering intense star formation along the rings. Over time, these newborn stars illuminated the galaxy, creating its stunning bullseye-like pattern.



The 'Cosmic Dart' Behind the Bullseye

The blue dwarf galaxy responsible for the collision has not disappeared—it remains visible just to the left of LEDA 1313424. A thin tether of gas still links the two galaxies, marking the path of destruction left by the collision. Now, the smaller galaxy sits 130,000 light-years away—a distance greater than the entire width of the Milky Way.

This rare event provides an unprecedented look at galactic interactions, helping scientists understand how such violent cosmic encounters shape galaxies over millions of years.




Why This Discovery Matters

This find is more than just a stunning astronomical sight—it offers critical data on how galaxies evolve. Unlike most ring galaxies, which typically have one or two rings, LEDA 1313424 has an unmatched nine-ring structure, making it a unique case study.

The discovery also provides valuable insights into star formation processes triggered by galactic collisions. Understanding these mechanisms is crucial for piecing together the history of our own Milky Way, which has undergone multiple mergers throughout its lifetime.

With future observations from telescopes like the James Webb Space Telescope, astronomers hope to uncover even more details about this extraordinary cosmic bullseye and the mysteries of galactic evolution.

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