Impact of improved energy resolution on DUNE sensitivity in presence of a light sterile neutrino

Abstract

The Deep Underground Neutrino Experiment (DUNE) primarily aims to measure the yet unknown parameters of the standard three neutrino framework, i.e., the determination of Dirac CP phase (δ13), neutrino mass hierarchy (MH) and octant of θ23. In the present work, we consider the standard three neutrino paradigm (referred to as the (3+0) case) and beyond with an additional light sterile neutrino (referred to as the (3+1) case). We consider two configurations : standard energy resolution as in DUNE Technical Design Report (TDR) and improved energy resolution and study the impact of energy resolution in the (3+0) and (3+1) cases. In general, inclusion of subdominant new physics effects spoils the sensitivities. However, improved energy resolution leads to enhancement in sensitivities to the three unknowns in both (3+0) and (3+1) cases.