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Main Authors: Gardiner, Steven, Alzás, Pablo Barham, Nikolakopoulos, Alexis, El-Haj, Luca H. Abu, Jachowicz, Natalie, Pandey, Vishvas
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.26801
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author Gardiner, Steven
Alzás, Pablo Barham
Nikolakopoulos, Alexis
El-Haj, Luca H. Abu
Jachowicz, Natalie
Pandey, Vishvas
author_facet Gardiner, Steven
Alzás, Pablo Barham
Nikolakopoulos, Alexis
El-Haj, Luca H. Abu
Jachowicz, Natalie
Pandey, Vishvas
contents Accurate modeling of the absorption of tens-of-MeV $ν_e$ on $^{40}$Ar is needed to enable measurements of astrophysical neutrinos using large liquid argon time projection chamber (LArTPC) detectors, such as those planned for the Deep Underground Neutrino Experiment (DUNE). We revisit the MARLEY neutrino interaction model used in present estimates of DUNE sensitivity to supernova and solar neutrino signals. Multiple theoretical refinements are pursued, especially in the unbound continuum region of nuclear excitation energy. Inclusive charged-current neutrino-argon cross sections are calculated using a hybrid strategy. Nuclear transitions to unbound states are treated using a Hartree-Fock Continuum Random Phase Approximation (HF-CRPA) model, including forbidden contributions. Allowed transitions to low-lying discrete levels are also included using indirect measurements and approximate corrections for the momentum transfer dependence. Exclusive predictions are obtained by coupling these calculations with a statistical nuclear de-excitation model. The impact on observables of interest for DUNE and similar experiments is examined in terms of both total and differential cross sections. Our refined calculations predict a lower allowed portion of the cross section relative to the prior MARLEY model. At neutrino energies appreciably below 100 MeV, the inclusion of forbidden transitions does not fully compensate for the loss of allowed strength. For a representative neutrino burst from a galactic core-collapse supernova, our results suggest that MARLEY 1.2.0 overestimates the event yield in a DUNE-like detector by approximately 20%. However, because this overestimation is more severe at backwards angles, use of the charged-current $ν_e$-$^{40}$Ar reaction for supernova pointing may be more feasible than previously expected.
format Preprint
id arxiv_https___arxiv_org_abs_2604_26801
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Continuum contribution to charged-current absorption of low-energy $ν_e$ on $^{40}$Ar
Gardiner, Steven
Alzás, Pablo Barham
Nikolakopoulos, Alexis
El-Haj, Luca H. Abu
Jachowicz, Natalie
Pandey, Vishvas
High Energy Physics - Phenomenology
Nuclear Theory
Accurate modeling of the absorption of tens-of-MeV $ν_e$ on $^{40}$Ar is needed to enable measurements of astrophysical neutrinos using large liquid argon time projection chamber (LArTPC) detectors, such as those planned for the Deep Underground Neutrino Experiment (DUNE). We revisit the MARLEY neutrino interaction model used in present estimates of DUNE sensitivity to supernova and solar neutrino signals. Multiple theoretical refinements are pursued, especially in the unbound continuum region of nuclear excitation energy. Inclusive charged-current neutrino-argon cross sections are calculated using a hybrid strategy. Nuclear transitions to unbound states are treated using a Hartree-Fock Continuum Random Phase Approximation (HF-CRPA) model, including forbidden contributions. Allowed transitions to low-lying discrete levels are also included using indirect measurements and approximate corrections for the momentum transfer dependence. Exclusive predictions are obtained by coupling these calculations with a statistical nuclear de-excitation model. The impact on observables of interest for DUNE and similar experiments is examined in terms of both total and differential cross sections. Our refined calculations predict a lower allowed portion of the cross section relative to the prior MARLEY model. At neutrino energies appreciably below 100 MeV, the inclusion of forbidden transitions does not fully compensate for the loss of allowed strength. For a representative neutrino burst from a galactic core-collapse supernova, our results suggest that MARLEY 1.2.0 overestimates the event yield in a DUNE-like detector by approximately 20%. However, because this overestimation is more severe at backwards angles, use of the charged-current $ν_e$-$^{40}$Ar reaction for supernova pointing may be more feasible than previously expected.
title Continuum contribution to charged-current absorption of low-energy $ν_e$ on $^{40}$Ar
topic High Energy Physics - Phenomenology
Nuclear Theory
url https://arxiv.org/abs/2604.26801