Abstract
SNOLAB is one of the deepest underground laboratory in the world with an overburden of 2092 m. The SNO+ detector is designed to achieve several fundamental physics goals as a low-background experiment, particularly measuring the Earth's geoneutrino flux. Here we evaluate the effect of the 2 km overburden on the predicted crustal geoneutrino signal at SNO+. A refined 3D model of the 50 χ 50 km upper crust surrounding the detector and a full calculation of survival probability are used to model the U and Th geoneutrino signal. Comparing this signal with that obtained by placing SNO+ at sea level, we highlight a 1.4+1.8-0.9 TNU signal difference, corresponding to the ∼5% of the total crustal contribution. Finally, the impact of the additional crust extending from sea level up to ∼300 m was estimated.
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CITATION STYLE
Strati, V., Wipperfurth, S. A., Baldoncini, M., McDonough, W. F., Gizzi, S., & Mantovani, F. (2020). Geoneutrinos from the rock overburden at SNO+. In Journal of Physics: Conference Series (Vol. 1342). Institute of Physics Publishing. https://doi.org/10.1088/1742-6596/1342/1/012020
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