Asymmetric Muon-Antimuon Emission from Z0 Decays - A Clear Magnetometer in Relativistic Heavy-Ion Collisions

Explore asymmetric muon-antimuon emission from Z0 decays as a magnetometer in relativistic heavy-ion collisions through this 31-minute conference talk by Alejandro Ayala from UNAM, Mexico. Delve into the theoretical framework and experimental implications of using Z boson decay patterns to measure magnetic fields in high-energy particle physics environments. Learn how the asymmetric emission patterns of muons and antimuons can serve as a precise diagnostic tool for understanding the magnetic field properties in relativistic heavy-ion collision systems. Examine the quantum field theory principles underlying this phenomenon and discover how chirality, vorticity, and magnetic fields interact in quantum matter systems. Gain insights into cutting-edge research methodologies for probing the fundamental properties of matter under extreme conditions, with particular focus on the role of electromagnetic fields in particle production and decay processes during heavy-ion collisions.