Electromagnetic properties of possible triple-charm molecular hexaquarks

TL;DR

This paper studies the electromagnetic properties, including radiative decay widths and magnetic moments, of predicted triple-charm molecular hexaquarks to aid experimental detection and understanding of their internal structure.

Contribution

It provides the first detailed calculations of radiative transitions and magnetic moments for triple-charm molecular hexaquarks, enhancing knowledge of their spectroscopic features.

Findings

Calculated radiative decay widths for triple-charm hexaquarks.

Determined magnetic moments of these exotic states.

Results support experimental searches for such particles.

Abstract

In this study, we investigate the radiative transitions of predicted triple-charm molecular hexaquarks, which play a significant role in understanding their overall spectroscopic properties. As experimentally measurable quantities, the radiative decay widths provide insights into the internal structures of these triple-charm molecular hexaquarks. Additionally, we calculate their corresponding magnetic moments, which, together with the radiative decay widths, offer a comprehensive picture of the electromagnetic properties of these exotic states. This information is valuable for guiding future experimental searches and advancing our understanding of these unique hadronic systems.