We are proud to announce:
The Hadron2023 conference, held in Genova, Italy 5 - 9 June 2023, awarded two of our "Young Stars" for the best oral presentations
Julien Beckers: "Progress in the Partial-Wave Analysis Methods at COMPASS "
COMPASS aims at extracting the excitation spectrum of light and strange mesons in diffractive scattering. Resonances are identified through partial wave analysis, which inherently relies on analysis models. Besides statistical uncertainties, systematic effects connected to the analysis methods are a key challenge. We will discuss some sources of systematics connected to π−π−π+ and K0sK− final states and present methods of their remedies. We have developed a new approach using a-priori knowledge of signal continuity over adjacent final-state-mass bins to stably fit a large pool of partial-waves to our data, allowing a clean identification of very small signals in our large data sets. For two-body final states such as K0sK−, mathematical ambiguities in the partial-wave decomposition result in different combinations of amplitude values to describe the same intensity distribution. We will discuss these ambiguities and present solutions to resolve or at least reduce the number of solutions. Resolving these issues will allow complementary analyses of the aJ-like resonance sector in these two final states.
Funded by the DFG under Germany’s Excellence Strategy - EXC2094 - 390783311 and BMBF Verbundforschung 05P21WOCC1 COMPASS
Part of the work in collaboration with J. Knollmüller
Andrei Rabusov: "Preliminary results of "Partial-wave analysis of τ−→π−π−π+ντ at Belle "
Preliminary results of a partial-wave analysis of τ−→π−π−π+ντ in data from the Belle experiment at the KEK e+e− collider.
I demonstrate the presence of the a1(1420) and a1(1640) resonances in τ decay and measure their parameters.
I also present validation of our findings using a model-independent approach.
These results can improve modeling in simulation studies necessary for measuring the τ electric and magnetic dipole moments and Michel parameters.