Speaker
Description
In the study of reactor and geo antineutrinos, tagging of the inverse beta decay (IBD) positron-neutron coincidence signature allows for the elimination of most backgrounds. In many detectors, the primary remaining background is caused by $\alpha$ captures on 13C — so called ($\alpha$, n) events — which release a neutron and closely mimic the IBD's signature. The most common ($\alpha$, n) prompt event is produced by protons recoiling from the neutron, which gives rise to a distinct pulse shape compared to that of the positron from an IBD. A powerful classifier is thus presented, able to purify the IBD signal from most of its ($\alpha$, n) background, by discriminating between these pulse shapes. Particular attention is paid to the construction of appropriate training data from Monte-Carlo simulations. The tuning of the $\beta$ and proton scintillation timing models in these simulations for SNO+ is also discussed. Tuning of the former is achieved via the selection of a high purity sample of in-situ ${}^{214}$Bi to ${}^{214}$Po decays. The latter makes use of the deployment of a radioactive Americium-Beryllium source. Finally, results of this classification
| Poster prize | Yes |
|---|---|
| Given name | James |
| Surname | Page |
| First affiliation | University of Sussex |
| Institutional email | jp643@sussex.ac.uk |
| Gender | Male |
| Collaboration (if any) | SNO+ |
