Deep Learning Applications in Flavour Tagging

KWOK, KA WANG (2022) Deep Learning Applications in Flavour Tagging. Doctoral thesis, Durham University.

Copy

Motivated by the application of data-driven solutions to the field of particle physics, in particular flavour tagging, we study the effectiveness of deep learning (DL) approaches for inclusive $\ensuremath{|V_{ub}|}\xspace$ measurement within the Belle II environment and strangness tagging in the LHCb environment. $\\$ % In the $\ensuremath{|V_{ub}|}\xspace$ study, we compare the performance of an existing Boosted Decision Tree approach with a Bayesian neural network. In addition, we perform an in depth study on the selected features, investigating the signal inclusivity of DL models which gives insights into behaviours of the models. $\\$ % We aim for classification speed and precision in the strange-quark jets tagging study. Therefore, we explore using a simple fully connected feedforward neural network to classify $s$ -jets among all light jet backgrounds. A comprehensive feature investigation is performed to understand the discriminating power of jet observable $J_s$ and the importance of particle identification. $\\$ % Additionally, data-driven methodologies are also reshaping industrial practices. A study investigating the potential of DL in predicting realised volatility of a financial index is included. It is a collaborative project with Optiver where neural networks along with various training schemes are studied to maximise profits.