All good things come to an endeven the Milky Way. Our home galaxys demise isnt estimated to occur for at least another 4 or 5 billion years, when astronomers believe it will start colliding with its neighbor Andromeda. However, a new analysis of a more distant galaxy is hinting at another dramatic outcome. Instead of being annihilated from without, the Milky Ways cosmic destruction could begin from within.A chaotic, energy-spewing spiral galaxyThe spiral galaxy 2MASX J234532680449256 is located nearly 1 billion light-years away from Earth, and measures about three times the size of the Milky Way. Like our own galaxy, a supermassive black hole lurks at its center. But while our Sagittarius A (Sgr A*) currently exists in very cosmically quiet, dormant conditions (for a black hole), the one inside J234532680449256 spews chaotic, 6 million light-year-long jets of energy. Thats what an international team has discovered using data collected by the Hubble Space Telescope, the Giant Metrewave Radio Telescope, the Atacama Large Millimeter Wave Array, and multi-wavelength analyses.According to their study published March 20 in the journal Monthly Notices of the Royal Astronomical Society, these findings are challenging conventional notions of how galaxies operate, and what forces they are capable of unleashing.Colour image of J23453268-0449256, which is 300,000 light-years across, as captured by the Hubble Space Telescope. It is shown alongside a depiction of our own Milky Way galaxy, which is three times smaller. Credit: Bagchi and Ray et al/Hubble Space Telescope Simply put, experts previously believed a galaxy like J234532680449256 couldnt survive under its own conditions. The roiling gamma, cosmic, and X-rays documented coming from its black hole are almost only seen in elliptical galaxies. Based on traditional theory, these powerful radio jets should be disrupting the spiral galaxys comparatively delicate structure. However, thats not the case at all for J234532680449256. The galaxy appears pretty stable, with well-defined spiral arms, an untroubled stellar ring, and a bright nuclear bar.This discovery is more than just an oddityit forces us to rethink how galaxies evolve, and how supermassive black holes grow in them and shape their environments, Joydeep Bagchi, a study lead author and astronomy professor at Indias CHRIST University, Bangalore, said in a statement.One difference appears to be its ability to form new stars. Although the galaxy is surrounded by a halo of X-ray-emitting gas needed to make them, the supermassive black holes energy jets act like a deep space oven. This appears to prevent the halo from cooling enough to form new stars. Despite this stellar anomaly, J234532680449256 already hosts an untold number of stars.If a spiral galaxy can not only survive but thrive under such extreme conditions, what does this mean for the future of galaxies like our own Milky Way? wondered Bagchi.How our own galaxy would handle itThis type of scenario could begin if the Milky Ways black hole Sgr A* ever begins devouring a star, gas cloud, or even a smaller dwarf galaxy. Previously documented in other galaxies, these Tidal Disruption Events (TDEs) are as dramatic as they are powerful. But depending on their direction, there are scenarios in which any future life on Earth wouldnt survive the experience.If a hypothetical Milky Way TDEs cosmic rays lined up with the solar system, the effects would cause almost incomprehensible devastation. The energy beams could strip planetary atmospheres, irradiate DNA enough to cause genetic mutations, as well as destroy the Earths ozone and kick off dinosaur-level mass extinctions. While astronomers believe that the Milky Way hosted those kinds of radio jets in the past, the chance of it occurring any time in the near future is pretty slim.Regardless of the Milky Ways ultimate celestial fate, discovering and studying unique neighboring galaxies like J234532680449256 allows astronomers to learn more about our surprising, complex universe.Understanding these rare galaxies could provide vital clues about the unseen forces governing the universeincluding the nature of dark matter, the long-term fate of galaxies, and the origin of life, said study co-author and PhD candidate Shankar Ray. Ultimately, this study brings us one step closer to unraveling the mysteries of the cosmos, reminding us that the universe still holds surprises beyond our imagination.The post A terrifying fate may lurk inside the Milky Way appeared first on Popular Science.