This research investigates gluon saturation, an extreme state of matter that existed immediately after the Big Bang. By developing precise theoretical calculations for particle collision experiments, it helps scientists understand how gluons bind quarks to form matter, revealing the fundamental processes that shaped the early universe and made life possible.
This research explores the philosophical foundations of particle physics and the Standard Model. Focusing on neutrinos, it argues that these particles may be better understood as different states of a single entity rather than separate objects. The project aims to develop a deeper ontology describing the fundamental structure of physical reality.