Breakthrough Method Enhances Understanding of Quark Dynamics in Protons
Recent advancements in nuclear physics reveal a groundbreaking method for analyzing quark dynamics within protons, enhancing our understanding of particle interactions. Researchers from Brookhaven and Argonne National Laboratories introduced a novel approach to calculate the Collins-Soper kernel, crucial for studying quark motion. This method, effective for low transverse momentum quarks, promises to improve predictive capabilities in upcoming collider experiments, particularly the Electron-Ion Collider, which aims to explore proton spin origins.
Physicists Propose New Theory of Gravastars Nested Within Black Holes
Recent discoveries in the field of physics have unveiled a new theory proposed by physicists at Goethe University Frankfurt, shedding light on the enigmatic interiors of black holes. The theory introduces the concept of gravastars, which are speculated to resemble a matryoshka doll. This groundbreaking theory challenges the traditional understanding of black holes and offers new insights into the nature of celestial bodies.
New Evolution Theory Explains Why Animals Shrink Over Time
Why animals shrink explained with new evolution theory 18 January 2024 The mystery behind why Alaskan horses, cryptodiran turtles, and island lizards shrunk over time may have been solved in a new study. The new theoretical research proposes that animal…