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Characterization of the background spectrum in DAMIC at SNOLAB

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arxiv 2110.13133 v2 pith:2G2NSPXK submitted 2021-10-25 hep-ex hep-phphysics.ins-det

Characterization of the background spectrum in DAMIC at SNOLAB

classification hep-ex hep-phphysics.ins-det
keywords backgroundbulkdamicmodelsnolabtextccdsdark
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We construct the first comprehensive radioactive background model for a dark matter search with charge-coupled devices (CCDs). We leverage the well-characterized depth and energy resolution of the DAMIC at SNOLAB detector and a detailed GEANT4-based particle-transport simulation to model both bulk and surface backgrounds from natural radioactivity down to 50 eV$_{\text{ee}}$. We fit to the energy and depth distributions of the observed ionization events to differentiate and constrain possible background sources, for example, bulk $^{3}$H from silicon cosmogenic activation and surface $^{210}$Pb from radon plate-out. We observe the bulk background rate of the DAMIC at SNOLAB CCDs to be as low as $3.1 \pm 0.6$ counts kg$^{-1}$ day$^{-1}$ keV$_{\text{ee}}^{-1}$, making it the most sensitive silicon dark matter detector. Finally, we discuss the properties of a statistically significant excess of events over the background model with energies below 200 eV$_{\text{ee}}$.

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