Next-Generation Radiation Shielding: How Barium Oxide Transforms Borate Glass Performance
The Critical Need for Advanced Radiation Protection As radiation applications expand across medical, energy, and aerospace sectors, the demand for…
The Critical Need for Advanced Radiation Protection As radiation applications expand across medical, energy, and aerospace sectors, the demand for…
New Galactic Simulations Reshape Dark Matter Understanding Groundbreaking research is transforming our understanding of dark matter distribution within the Milky…
Researchers studying mysterious gamma-ray emissions near our galaxy’s center have reached a pivotal moment in the decades-long search for dark matter. New analysis suggests dark matter particle collisions could explain the observed radiation as well as competing neutron star theories. The findings mark significant progress toward confirming the existence of the invisible substance thought to comprise 27% of the universe.
Scientists may be closing in on confirming the existence of dark matter through analysis of mysterious gamma-ray emissions emanating from the heart of our galaxy, according to reports published this week. Researchers studying a diffuse glow of high-energy radiation near the Milky Way’s center have determined that dark matter particle collisions could produce the observed signal with equal likelihood to more conventional astronomical explanations.