Hidden dimensions could explain where mass comes from

In the realm of particle physics, the Standard Model proposes that mass originates from interactions with the Higgs field, a concept that has fundamentally shaped our understanding of the universe. The Higgs field imparts mass to particles, including the W and Z bosons, through a process that endows them with weight. However, some physicists now suggest that hidden dimensions might offer additional insight into the origins of mass, potentially expanding beyond the established framework. These hidden dimensions, theorized to exist beyond our observable three-dimensional space, could provide an alternative explanation for the mass of particles. By incorporating these extra dimensions into existing models, scientists hope to resolve inconsistencies and unexplained phenomena within the Standard Model. This approach could lead to groundbreaking discoveries, challenging long-held assumptions about the fundamental forces and particles that compose our universe. While the concept of hidden dimensions remains speculative, it has sparked significant interest and debate within the scientific community. Researchers are actively exploring advanced mathematical models and experimental methods to detect or infer the presence of these dimensions. If proven, this theory could revolutionize our understanding of mass and the fundamental structure of reality, opening new avenues for research in physics and cosmology.

— Authored by Next24 Live