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Hauptverfasser: Clarke, Alexander, Pospelov, Maxim
Format: Preprint
Veröffentlicht: 2026
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Online-Zugang:https://arxiv.org/abs/2602.15960
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author Clarke, Alexander
Pospelov, Maxim
author_facet Clarke, Alexander
Pospelov, Maxim
contents We explore the sensitivity of the SNO experiment to light dark matter particles $χ$ with spin-dependent interactions with nucleons. We show that the pair-production of MeV scale dark matter is possible in heavy water (CANDU) reactors via ${\rm D}(n,χ\barχ)^3{\rm He}$, and calculate the expected rate within the simplest models of $χ$-nucleon interactions. %Heavy water nuclear reactors serve as an excellent production method for spin-dependent dark matter. Owing to a sizable $Q$-value for this reaction, a large fraction of DM particles produced this way are above the threshold for deuteron disintegration, ${\rm D}(χ,χ)np$, which adds to the SNO neutral current signal. Evaluating the CANDU-to-SNO scheme for the production and detection of DM, we derive novel constraints for the $χ$-nucleon spin-dependent cross sections, showing that cross sections above $σ_{χp} \sim 10^{-33}\,{\rm cm}^{2}$ are generally excluded if $m_χ\leq1.5$\,MeV. An isospin-mirror reaction will occur in the Sun, and for the kinematically allowed region it excludes a portion of parameter space with cross sections on the order $10^{-37}\,{\rm cm}^{2}$. We also evaluate the potential sensitivity of small ``near" detectors placed in close proximity to a CANDU reactor to search for a coherent nuclear recoil, finding subdominant sensitivity.
format Preprint
id arxiv_https___arxiv_org_abs_2602_15960
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Novel Constraints on Spin-Dependent Light Dark Matter Scattering
Clarke, Alexander
Pospelov, Maxim
High Energy Physics - Phenomenology
We explore the sensitivity of the SNO experiment to light dark matter particles $χ$ with spin-dependent interactions with nucleons. We show that the pair-production of MeV scale dark matter is possible in heavy water (CANDU) reactors via ${\rm D}(n,χ\barχ)^3{\rm He}$, and calculate the expected rate within the simplest models of $χ$-nucleon interactions. %Heavy water nuclear reactors serve as an excellent production method for spin-dependent dark matter. Owing to a sizable $Q$-value for this reaction, a large fraction of DM particles produced this way are above the threshold for deuteron disintegration, ${\rm D}(χ,χ)np$, which adds to the SNO neutral current signal. Evaluating the CANDU-to-SNO scheme for the production and detection of DM, we derive novel constraints for the $χ$-nucleon spin-dependent cross sections, showing that cross sections above $σ_{χp} \sim 10^{-33}\,{\rm cm}^{2}$ are generally excluded if $m_χ\leq1.5$\,MeV. An isospin-mirror reaction will occur in the Sun, and for the kinematically allowed region it excludes a portion of parameter space with cross sections on the order $10^{-37}\,{\rm cm}^{2}$. We also evaluate the potential sensitivity of small ``near" detectors placed in close proximity to a CANDU reactor to search for a coherent nuclear recoil, finding subdominant sensitivity.
title Novel Constraints on Spin-Dependent Light Dark Matter Scattering
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2602.15960