December 23, 2024

Origins of Earth Elements: Supernova Findings in UGC 11860 Galaxy

By ESA/Hubble
July 11, 2023

One team explored UGC 11860 to understand more about the progenitor galaxy that ultimately meet their death in supernovae. The hugely energetic processes during supernova surges are predominantly responsible for forging the components between silicon and nickel on the routine table. This means that understanding the impact of the masses and structures of the progenitor galaxy is crucial to discussing the number of the chemical components here in the world originated.
The other group of astronomers utilized Hubble to follow up supernovae that were found by robotic telescopes. These automated eyes on the sky function without human intervention, and capture short-term events in the night sky. Robotic telescopes permit astronomers to discover everything from unforeseen asteroids to rare, unpredictable supernovae, and can recognize interesting items that can then be examined in more information by effective telescopes such as Hubble.

Hubble Space Telescope picture of the spiral nebula UGC 11860, roughly 184 million light-years away in the Pegasus constellation, which just recently played host to a highly energetic supernova surge detected by a robotic telescope in 2014. Credit: ESA/Hubble & & NASA, A. Filippenko, J. D. Lyman
A supernova explosion found in the far-off spiral nebula UGC 11860 in 2014 has actually been studied by two groups of astronomers using the Hubble Telescope, yielding insights into the origins of chemical elements on Earth and the value of robotic telescopes in identifying transient huge phenomena.
The spiral nebula UGC 11860 seems to drift serenely versus a field of background galaxies in this image from the NASA/ESA Hubble Space Telescope. UGC 11860 lies around 184 million light-years away in the constellation Pegasus, and its untroubled appearance is deceiving; this galaxy recently played host to an almost unimaginably energetic excellent explosion.
A supernova surge– the catastrophically violent end of an enormous stars life– was spotted in UGC 11860 in 2014 by a robotic telescope devoted to searching the skies for transient huge phenomena — huge objects that are just noticeable for a short time period. 2 different groups of astronomers utilized Hubbles Wide Field Camera 3 to browse through the after-effects and unpick the lingering remnants of this vast cosmic explosion.