The Sensitivity of DUNE in Presence of Off-Diagonal Scalar NSI Parameters

TL;DR

This paper investigates how off-diagonal scalar non-standard interactions (NSI) can affect the measurement of the CP phase in neutrino oscillations at DUNE, highlighting potential degeneracies and the importance of understanding scalar NSI effects.

Contribution

It provides a detailed analysis of the impact of complex off-diagonal scalar NSI parameters on CP sensitivity and explores their correlations and constraints at different neutrino mass scales.

Findings

Scalar NSI can significantly alter CP phase measurements.

Complex off-diagonal NSI elements introduce degeneracies in parameter space.

Neutrino mass scale influences the sensitivity to scalar NSI.

Abstract

Scalar non-standard interactions (NSI) presents an exciting pathway for probing potential new physics that extends beyond the Standard Model (BSM). The scalar coupling of neutrinos with matter can appear as a sub-dominant effect that can impact the neutrino oscillation probabilities. The uniqueness of these interactions is that it can directly affect the neutrino mass matrix. This makes oscillations sensitive to the absolute neutrino mass. The effects of scalar NSI scales linearly with matter density which motivates its exploration in long-baseline sector. The presence of scalar NSI can influence the key measurements in the field of neutrino physics, including the precise determination of the leptonic CP phase ($\delta_{CP}$), neutrino mass ordering and the octant of $\theta_{23}$. The precise determination of $\delta_{CP}$ is one of the major goals of DUNE, which is an upcoming long-baseline experiment. A better understanding of the impact of scalar NSI on CP measurement sensitivities is crucial for accurate interpretation of $\delta_{CP}$ phase. In this work, we have explored the impact of the complex off-diagonal scalar NSI elements $\eta_{\alpha\beta}$ and their associated phases $\phi_{\alpha\beta}$ on the CP-measurement sensitivities at DUNE. We have explored the impact of the neutrino mass scale on these sensitivities. We look for constraining these off-diagonal elements for different neutrino mass scales. We also explore their correlation with $\delta_{CP}$, investigating potential degeneracies that can arise due to additional phases. We also perform a correlation study among different scalar NSI elements. We show that the inclusion of the complex scalar NSI elements can significantly modify the CP phase measurements.