A mysterious glow of gamma rays emanating from the center of the Milky Way could provide scientists with their first significant clues about dark matter, the elusive substance believed to constitute most of the universe. Researchers utilized supercomputers to simulate the galaxy”s history, allowing them to predict where dark matter is expected to accumulate and collide.
The findings from these simulations closely align with actual observations of gamma rays, reinforcing the idea that this strange glow may be linked to dark matter interactions. The research highlights the potential of advanced computational models in uncovering the nature of dark matter, which has remained largely theoretical and invisible to direct detection methods.
This new insight could pave the way for further investigations into dark matter, which is thought to play a crucial role in the universe”s structure and evolution. As scientists continue to explore the cosmos, discoveries like this one may help unravel some of the most profound mysteries of astrophysics.
