Study of tau-neutrino production at the CERN SPS

Abstract

The DsTau project proposes to study tau-neutrino production in high-energy proton interactions. The outcome of this experiment are prerequisite for measuring the τ charged-current cross section that has never been well measured. Precisely measuring the cross section would enable testing of lepton universality in τ scattering and it also has practical implications for neutrino oscillation experiments and high-energy astrophysical τ observations. Ds mesons, the source of tau neutrinos, following high-energy proton interactions will be studied by a novel approach to detect the double-kink topology of the decays Ds → ττ and τ→τ X. Directly measuring Ds→ τ decays will provide an inclusive measurement of the Ds production rate and decay branching ratio to τ. The momentum reconstruction of Ds will be performed by combining topological variables. This project aims to detect 1,000 Ds → τ decays in 2.3 × 108 proton interactions in tungsten target to study the differential production cross section of Ds mesons. To achieve this, state-of-the-art emulsion detectors with a nanometric-precision readout will be used. The data generated by this project will enable the τ cross section from DONUT to be re-evaluated, and this should significantly reduce the total systematic uncertainty. Furthermore, these results will provide essential data for future τ experiments such as the τ program in the SHiP project at CERN. In addition, the analysis of 2.3 × 108 proton interactions, combined with the expected high yield of 105 charmed decays as by-products, will enable the extraction of additional physical quantities.