Astronomers have identified 128 new moons orbiting Saturn, further solidifying its position as the planet with the most natural satellites in the solar system. The discovery brings Saturn’s total moon count to 274, nearly twice as many as all other planets combined, surpassing Jupiter’s previously held record.
The research team behind the findings had earlier detected 62 Saturnian moons using the Canada-France-Hawaii Telescope. Building on that work, they conducted additional observations in 2023 after detecting faint indications that more undiscovered moons were present. The new moons were recently confirmed by the International Astronomical Union (IAU), where they have been assigned provisional numerical and letter designations.
Jupiter currently has 95 moons with confirmed orbits as of February 2024. The latest findings emphasize the growing disparity between Saturn and other planets in terms of their moon count. The discovery was made using a method known as the “shift and stack” technique, which involves capturing sequential images that follow the movement of a moon and then combining them to enhance its visibility.
What these findings reveal about Saturn’s past
All of Saturn’s 128 newly identified moons are classified as irregular moons. These celestial objects are relatively small, often just a few kilometers in diameter, and have elongated orbits at an angle to Saturn’s larger moons. Their irregular shapes suggest that they are remnants of larger objects that were fragmented by past cosmic collisions.
Scientists believe that many of these moons were formed in the past 100 million years due to violent collisions between larger Saturnian moons or passing comets. The fragments now orbit the planet in distinct groups, providing insights into the chaotic environment of the early solar system when planetary migrations and collisions were frequent.
Professor Brett Gladman, an astronomer at the University of British Columbia, noted that these moons are likely fragments of previously captured larger moons that broke apart in high-impact collisions. The findings support theories regarding the dynamic nature of Saturn’s moon system and its history of gravitational interactions with other celestial bodies.
Beyond adding to Saturn’s extensive moon count, the discovery may also shed light on the origins of the planet’s iconic rings. Some scientists hypothesize that the rings could be the remnants of a moon that was torn apart by Saturn’s immense gravitational pull. Continued observations of these moons may provide further clues about the formation and evolution of Saturn’s complex system. – By MENA Newswire News Desk.