# Roadmap for the international, accelerator-based neutrino programme

**Authors:** J. Cao, A. de Gouvea, D. Duchesneau, S. Geer, R. Gomes, S.B. Kim, T., Kobayashi, K.R. Long, M. Maltoni, M. Mezzetto, N. Mondal, M. Shiozawa, J., Sobczyk, H.A. Tanaka, M. Wascko, G. Zeller

arXiv: 1704.08181 · 2017-04-27

## TL;DR

This paper presents a comprehensive roadmap for the international accelerator-based neutrino research program, outlining objectives, milestones, and timelines to optimize scientific output and guide future developments.

## Contribution

It provides an updated, community-informed strategic plan detailing current and future experiments, their milestones, and the necessary R&D for advancing neutrino physics.

## Key findings

- Identified key milestones and decision points for neutrino experiments.
- Outlined timelines for cross-section and hadro-production measurements.
- Discussed R&D needs to extend beyond next-generation experiments.

## Abstract

In line with its terms of reference the ICFA Neutrino Panel has developed a roadmapfor the international, accelerator-based neutrino programme. A "roadmap discussion document" was presented in May 2016 taking into account the peer-group-consultation described in the Panel's initial report. The "roadmap discussion document" was used to solicit feedback from the neutrino community---and more broadly, the particle- and astroparticle-physics communities---and the various stakeholders in the programme. The roadmap, the conclusions and recommendations presented in this document take into account the comments received following the publication of the roadmap discussion document.   With its roadmap the Panel documents the approved objectives and milestones of the experiments that are presently in operation or under construction. Approval, construction and exploitation milestones are presented for experiments that are being considered for approval. The timetable proposed by the proponents is presented for experiments that are not yet being considered formally for approval. Based on this information, the evolution of the precision with which the critical parameters governinger the neutrino are known has been evaluated. Branch or decision points have been identified based on the anticipated evolution in precision. The branch or decision points have in turn been used to identify desirable timelines for the neutrino-nucleus cross section and hadro-production measurements that are required to maximise the integrated scientific output of the programme. The branch points have also been used to identify the timeline for the R&D required to take the programme beyond the horizon of the next generation of experiments. The theory and phenomenology programme, including nuclear theory, required to ensure that maximum benefit is derived from the experimental programme is also discussed.

## Full text

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## Figures

31 figures with captions in the complete paper: https://tomesphere.com/paper/1704.08181/full.md

## References

167 references — full list in the complete paper: https://tomesphere.com/paper/1704.08181/full.md

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Source: https://tomesphere.com/paper/1704.08181