Despite the many high quality data on baryon resonances that are available from a variety of pion-, photon- and electron-induced reactions, we are still far away from a complete and unambiguous picture of the baryon resonance spectrum. Therefore, the development of reliable tools to connect theoretical predictions to the available experimental data is essential. When extracting the spectrum of baryon resonances in the medium energy regime from observables, coupled-channel dynamics play a crucial role due to the opening of several inelastic channels. Coupled-channel approaches link the different reaction channels and partial waves and allow for a simultaneous analysis of multiple reactions with different initial and final states. In this period, we want to further refine the Jülich-Bonn dynamical coupled-channel model to study vector meson production, KN reactions to study hyperon resonances, include photoproduction processes on the neutron and electroproduction reactions and also use an extended dynamical coupled-channels approach to provide a complete spectrum of Pc states in addition to the three newly observed ones by LHCb experiment.

DFG Programme CRC/Transregios

Subproject of TRR 110:  Symmetries and the Emergence of Structure in Quantum Chromodynamics (QCD)

International Connection China

Applicant Institution Rheinische Friedrich-Wilhelms-Universität Bonn

Project Heads Dr. Deborah Rönchen; Professor Dr. Bing-Song Zou