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Low energy calibration in DUNE far detector prototypes

Published 23 May 2025 in hep-ex and physics.ins-det | (2505.18073v1)

Abstract: The Deep Underground Neutrino Experiment (DUNE) is a next-generation long-baseline neutrino experiment. In addition to GeV-scale oscillation measurements ($\delta_{CP}$, $\theta_{23}$ octant, mass ordering), DUNE features a low-energy (MeV-scale) program targeting solar, supernova burst (SNB), and Diffuse Supernova Background (DSNB) neutrinos. Accurate reconstruction and background understanding are critical. ${39}$Ar $\beta$-decays, naturally present in LAr, provide a uniform background and can be used for calibration. This proceeding presents an analysis of isolated MeV-scale energy deposits in the ProtoDUNE-HD (PDHD) prototype. Using cosmic + beam data (run 28086), we analyze energy spectra and spatial distributions of ${39}$Ar, ${232}$Th, and ${207}$Bi. A calibration factor $c_A = (3.9 \pm 0.3)\times 10{-2}~\text{MeV}/\text{ADC} \times \text{tick}$ and recombination factor $R = 0.60 \pm 0.05$ are extracted, consistent with expectations. The ${207}$Bi source is spatially resolved with cm-level precision, and ${232}$Th hot spots align with the field cage structure, offering further calibration potential. These results demonstrate PDHD capability for MeV-scale reconstruction, supporting DUNE low-energy physics goals.

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