| Lorna Nolan |
Cosmic muon induced background tagging in the SNO+ detector |
Queen Mary, University of London |
2023 |
| Pouya Khaghani |
16N Calibration and Background Studies for SNO+ |
Laurentian University |
2022 |
| Ana Sofia Carpinteiro Inácio |
Data Analysis of the Water and Scintillator Phases of SNO+: from Solar Neutrino Measurements to Double Beta Decay Sensitivity Studies |
University of Lisbon |
2022 |
| Charlie Mills |
Improved sensitivity to ∆m221 by classification of the 13C(α, n)16O background in the SNO+ antineutrino analysis |
University of Sussex |
2022 |
| Michal Rigan |
SNO+ supernova sensitivity during pure scintillator phase |
University of Sussex |
2022 |
| Esther Turner |
A Measurement of Scattering Characteristics of the Detection Medium in the SNO+ Detector |
University of Oxford |
2022 |
| Jia-Shian Wang |
Supernova Neutrinos and Measurement of Liquid Scintillator Backgrounds in SNO+ |
University of Oxford |
2022 |
| Jie Hu |
A Measurement of Solar Neutrinos and the Development of Reconstruction Algorithms for the SNO+ Experiment |
University of Alberta |
2022 |
| Iwan Morton-Blake |
First Measurement of Reactor Antineutrinos in Scintillator at SNO+ and Study of Alternative Designs for Large-Scale Liquid Scintillator Detectors |
University of Oxford |
2021 |
| Janet Rumleskie |
Evaluating SNO+ Backgrounds through 222Rn Assays and the Simulation of 13C(α, n)16O Reactions during Water Phase |
Laurentian University |
2021 |
| Anthony Latorre |
Searching for Dark Matter with the Sudbury Neutrino Observatory |
University of Chicago |
2021 |
| Ian Lam |
Search for Invisible Nucleon Decay in SNO+ with Improved Sensitivity |
Queen's University |
2020 |
| Tereza Kroupová |
Improving the Sensitivity to Neutrinoless Double Beta Decay in SNO+ |
University of Oxford |
2020 |
| Tanner Kaptanoglu |
Reactor antineutrinos in the SNO+ Water Phase and Detector R&D for Large-Scale Neutrino Detectors |
University of Pennsylvania |
2020 |
| Yan Liu |
Neutron Measurements and Reactor Antineutrino Search with the SNO+ Detector in the Water Phase |
Queen's University |
2020 |
| Teal Pershing |
The Accelerator Neutrino-Neutron Interaction Experiment |
University of California Davis |
2020 |
| Billy Liggins |
Cosmic muon-induced neutrons in the SNO+ water phase |
Queen Mary, University of London |
2020 |
| Eric Marzec |
Measurement of 8B Solar Neutrinos in the SNO+ Water Phase and a Model of Vacuum-Enhanced Neutrino Mixing |
University of Pennsylvania |
2019 |
| Ben Land |
Past, Present, and Future of Solar Neutrino Detection: SNO, SNO+, and Theia |
University of California Berkeley |
2019 |
| Mark Stringer |
Sensitivity of SNO+ to Supernova Neutrinos |
University of Sussex |
2018 |
Jack Dunger |
Topological and Time Based Event Classification for Neutrinoless Double Beta Decay in Liquid Scintillator |
University of Oxford |
2018 |
Pawel Mekarski |
Electron Antineutrinos in Water Phase of the SNO+ Experiment |
University of Alberta |
2018 |
Morgan Askins |
Search for Invisible Neutron Decay in SNO+ Water Phase |
University of California Davis |
2018 |
| Kevin Labe |
Tests of Lorentz Invariance at the Sudbury Neutrino Observatory |
University of Chicago |
2017 |
Evelina Arushanova |
Development of a 90Y calibration source and rejection of pileup backgrounds in the SNO+ experiment |
Queen Mary, University of London |
2017 |
Ashley Back |
Probing new physics mechanisms in neutrinoless double-beta decay with SNO+ |
Queen Mary, University of London |
2017 |
Robert Stainforth |
Characterising the Optical Response of the SNO+ Detector |
University of Liverpool |
2016 |
Logan Sibley |
The SNO+ liquid scintillator response to low-energy electrons and its effect on the experiment's sensitivity to a future neutrinoless double beta decay signal |
University of Alberta |
2016 |
Chris Jones |
Future Searches of Rare Astrophysical Signals and Detector Commissioning in SNO+ |
University of Oxford |
2016 |
John Walker |
Study of Invisible Mode Nucleon Decay in the SNO+ Detector |
University of Liverpool |
2016 |
Stefanie Langrock |
Measurement of the Rayleigh Scattering Length and Background contributions during early data taking phases at SNO+ |
Queen Mary, University of London |
2016 |
Arnd Soerensen |
Temperature quenching in LAB based liquid scintillator and muon-induced backgrounds in the SNO+ experiment |
Dresden University of Technology |
2016 |
James Sinclair |
Position and Timing Calibration of SNO+ |
University of Sussex |
2015 |
Krishanu Majumdar |
On the Measurement of Optical Scattering and Studies of Background Rejection in the SNO+ Detector |
University of Oxford |
2015 |
Belina von Krosigk |
Measurement of proton and alpha-particle quenching in LAB based scintillators and determination of spectral sensitivities to supernova neutrinos in the SNO+ detector |
Dresden University of Technology |
2015 |
Erin O'Sullivan |
The Development of the SNO+ Experiment: Scintillator Timing, Pulse Shape Discrimination and Sterile Neutrinos |
Queen's University |
2014 |
Ian Coulter |
Modelling and reconstruction of events in SNO+ related to future searches for lepton and baryon number violation |
University of Oxford |
2013 |
Philip Jones |
Background Rejection for the Neutrinoless Double Beta Decay Experiment SNO+ |
University of Oxford |
2011 |
| Alexander Wright |
Robust Signal Extraction Methods and Monte Carlo Sensitivity Studies for the Sudbury Neutrino Observatory and SNO+ Experiments |
Queen's University |
2009 |