Self-consistent bounds on Beyond the Standard Model bosons from spectroscopy of muonic atoms with magic nuclei

This article likely presents research on particle physics, specifically exploring constraints on hypothetical bosons beyond the Standard Model. The methodology involves precision spectroscopy of muonic atoms (atoms where an electron is replaced by a muon) using magic nuclei, which are nuclei with specific numbers of protons and neutrons that exhibit enhanced stability. The term "self-consistent bounds" suggests the researchers are aiming for rigorous and reliable limits on the properties of these new bosons.

• •The research focuses on searching for new particles beyond the Standard Model.
• •The study utilizes precision spectroscopy of muonic atoms.
• •Magic nuclei are used to enhance the sensitivity of the measurements.
• •The goal is to establish self-consistent bounds on the properties of these hypothetical bosons.