Searching non-standard interactions with atmospheric neutrinos at ESSnuSB
Abstract: Atmospheric neutrinos provide a unique avenue to study neutrino interactions in matter. In this work, the prospects of constraining non-standard neutrino interactions with atmospheric neutrino oscillations are investigated for the proposed ESSnuSB far detector. By analyzing atmospheric neutrino samples equivalent to 5.4 Mt$\cdot$year exposure, it is found that ESSnuSB could be able to set the upper bounds $|\epsilon_{e\mu}m| < 0.053, |\epsilon_{e\tau}m| < 0.057, |\epsilon_{\mu\tau}m| < 0.021, \epsilon_{ee}m - \epsilon_{\mu\mu}m < 0.075$ and $|\epsilon_{\tau\tau}m - \epsilon_{\mu\mu}m| < 0.031$ at $90\%$ CL, when the results are minimized for $\phi_{e\mu}m, \phi_{e\tau}m$ and $\phi_{\mu\tau}m$ and normal ordering is assumed for neutrino masses. It is also shown that the presence of non-standard interactions could affect the sensitivities to neutrino mass ordering and $\theta_{23}{}$ octant in comparison to the standard interaction scheme. The results of this work highlight the complementarity between atmospheric and accelerator neutrino programs in ESSnuSB.
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