Exploring Earth's Matter Effect in High-Precision Long-Baseline Experiments

Abstract

The Earth's matter effect is going to play a crucial role in measuring the unknown three-flavor neutrino oscillation parameters at high confidence level in future high-precision long-baseline experiments. We observe that owing to the new degeneracies among the most uncertain oscillation parameters (δCP, θ23) and the average Earth's matter density (avg) for the 1300 km baseline, the sensitivity of the upcoming Deep Underground Neutrino Experiment (DUNE) to establish Earth's matter effect reaches only about 2σ C.L. for all possible choices of oscillation parameters. We notice that the current uncertainty in δCP degrades the measurement of avg more as compared to θ23. To lift these degeneracies, we explore the possible complementarity between DUNE and Tokai to Hyper-Kamiokande (T2HK/JD) facility with a second detector in Korea, popularly known as T2HKK or JD+KD setup. While DUNE uses wide-band beam with on-axis detector, T2HKK setup plans to use narrow-band beam with two off-axis detectors: one in Japan and other in Korea. We exhibit how the high-precision measurement of δCP in JD+KD setup and the information on avg coming from DUNE can reduce the impact of these degeneracies in both (avg-δCP) and (avg-θ23) planes. We show that the combined data from DUNE and JD+KD setups can establish Earth's matter effect at more than 6σ C.L. irrespective of both the choices of mass hierarchy: normal (NH) and inverted (IH), δCP, and θ23. With the help of this combined data set, we can measure the average matter density (avg) with a relative 1σ precision of around 11.2% (9.4%) assuming true NH (IH) and δCP = -90/90.

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