Thesis BELLE2-MTHESIS-2022-014

Full Event Interpretation using Graph Neural Networks

Lea Reuter ; Torben Ferber ; Günter Quast ; James Kahn ; Pablo Goldenzweig

2022
Institute of Experimental Particle Physics Karlsruhe

Abstract: The expected large dataset of the Belle~II experiment will enable precise measurements of rare decays to probe the Standard Model and searches for new physics. B-tagging is essential for many key measurements, as information of the tag-side B-meson of the $\Upsilon(4\mathrm{S}) \rightarrow \mathrm{B} \bar{\mathrm{B}}$ event enables one to constrain rare signal decays which contain invisible particles such as neutrinos in the final state. The large number of possible decay channels, and hence large combinatorial space, make this a challenging task. This makes an analytical solution intractable and requires the use of multivariate methods. A new, end-to-end trainable, graph neural network based approach was proposed in previous work, where the entire decay tree structure is encoded into a single matrix of the final state particles. This thesis expands on the previous work and explores if this representation can be applied to Belle~II reconstructed particles. To conclude this thesis, the revised method is applied to simulated collision data of the Belle II experiment to evaluate the efficiency of this approach compared to the existing reconstruction algorithm.

Note: Presented on 17 02 2022
Note: MSc

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Books, Theses & Reports > Theses > Masters Theses

 Record created 2022-09-15, last modified 2022-09-15


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