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Exploring Matter Effect and Associated Degeneracies at DUNE

9 Sept 2021, 16:45
15m
Parallel 1

Parallel 1

Oral WG 1

Speaker

SOUMYA C (Institute of Physics Bhubaneswar)

Description

Matter effect plays a pivotal role in the upcoming Deep Underground Neutrino Experiment (DUNE) to address pressing fundamental issues such as leptonic CP violation, neutrino mass hierarchy, and precision measurements of the oscillation parameters in the precision era. In this paper, for the first time, we explore in detail the capability of DUNE to establish the matter oscillation as a function of $\delta_{\rm{CP}}$ and $\theta_{23}$ by excluding the vacuum oscillation. With the optimized neutrino beam design and using an exposure of 300 kt·MW·years, DUNE can confirm the presence of Earth’s matter effect at 2$\sigma$ C.L. irrespective of the choices of hierarchy, $\delta_{\rm{CP}}$, and $\theta_{23}$. Moreover, DUNE can rule out the vacuum oscillation at 3$\sigma$ (5$\sigma$ ) significance with a $\delta_{\rm{CP}}$ coverage of 64% (46%) for normal hierarchy and maximal $\theta_{23}$, whereas for inverted hierarchy, the $\delta_{\rm{CP}}$ coverage is 82% (43%). The relative 1$\sigma$ precision in the measurement of line-averaged constant Earth matter density (ρavg) for maximal CP-violating choices of $\delta_{\rm{CP}}$ is around 10% to 15% depending on the choice of neutrino mass hierarchy. The same for CP-conserving values of $\delta_{\rm{CP}}$ is around 25% to 30%. We find that if $\delta_{\rm{CP}}$ turns out to be around -90$^{\circ}$ or 90$^{\circ}$, the precision in measuring $\rho_{avg}$ in DUNE is better than that one can achieve using the atmospheric data from Super-Kamiokande, combined data from Solar and KamLand, and from the full exposure of T2K and NO$\nu$A. We also identify new degeneracies in ($\rho_{avg}$-$\delta_{\rm{CP}}$) and ($\rho_{avg}$-$\sin^2\theta_{23}$) planes and notice that the uncertainty in $\delta_{\rm{CP}}$ affects the measurement of $\rho_{avg}$ more than that of $\theta_{23}$. A detailed understanding of these degeneracies are essential to correctly assess the outcome of DUNE.

Working group WG1

Primary authors

Masoom Singh (Institute of Physics and Utkal University) SOUMYA C (Institute of Physics Bhubaneswar) Sanjib Kumar Agarwalla (Institute of Physics, Bhubaneswar)

Presentation materials