Particle Physics
Refining the Standard Model and Exploring Fundamental Forces
Abstract
This study investigates the ttW process and its implications for the scientific community and humanity. By refining the Standard Model and understanding fundamental particle interactions, researchers can uncover the principles governing the universe and potentially...
Particle Physics
Decoding Exciton Fission: Paving the Way for High-Efficiency Solar Cells
Abstract
Scientists have successfully uncovered the mechanism behind exciton fission, a process in which certain molecular materials, such as pentacene, can convert a single photon into multiple free charges, potentially enhancing the...
Particle Physics
Breakthrough Discovery in Fusion Reactor Design and Efficiency
Advancements in Fusion Reactor Design for Efficient Energy Production
Nuclear fusion devices use a magnetic cage to keep the extremely hot plasma, which is over 100 million degrees Celsius, away from the...
Particle Physics
Random Matrix Theory Sheds Light on Neutrino Mass Hierarchy
Random Mass Matrix Model and Lepton Flavor Mixing in Neutrinos
When matter is divided into smaller and smaller pieces, it eventually reaches a point where it can no longer be divided, and...
Particle Physics
The Mass and Energy of the Proton may be out of proportion
The Proton's Inner Workings Unveiled: Mass versus Size
The proton, a fundamental building block of matter, plays a critical role in defining the chemistry of the universe. It governs the behavior of...
Particle Physics
Quark-Gluon Plasma: A Window into the Birth of the Universe
WHAT ARE GLUONS
Quark-Gluon Plasma
These particles that carry force are what hold baryonic matter together. Gluons are appropriately named because they act as the "glue" that binds quarks to form protons and...