GiBUU simulations show proton decay detection efficiency in water Cherenkov detectors matches previous estimates, while Fermi momentum choice significantly affects atmospheric neutrino background rates and is the leading systematic.
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Polar groups and high relative dielectric constants cause quenching in liquid scintillators, with the TeBD material measured at 16±1 permittivity supporting this for the SNO+ experiment.
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Understanding the impact of nuclear effects on proton decay searches with the GiBUU model
GiBUU simulations show proton decay detection efficiency in water Cherenkov detectors matches previous estimates, while Fermi momentum choice significantly affects atmospheric neutrino background rates and is the leading systematic.
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Molecular structure, electric property, and scintillation and quenching of liquid scintillators
Polar groups and high relative dielectric constants cause quenching in liquid scintillators, with the TeBD material measured at 16±1 permittivity supporting this for the SNO+ experiment.