English

Simulation-based inference for neutrino interaction model parameter tuning

High Energy Physics - Phenomenology 2025-10-10 v1

Abstract

High-energy physics experiments studying neutrinos rely heavily on simulations of their interactions with atomic nuclei. Limitations in the theoretical understanding of these interactions typically necessitate ad hoc tuning of simulation model parameters to data. Traditional tuning methods for neutrino experiments have largely relied on simple algorithms for numerical optimization. While adequate for the modest goals of initial efforts, the complexity of future neutrino tuning campaigns is expected to increase substantially, and new approaches will be needed to make progress. In this paper, we examine the application of simulation-based inference (SBI) to the neutrino interaction model tuning for the first time. Using a previous tuning study performed by the MicroBooNE experiment as a test case, we find that our SBI algorithm can correctly infer the tuned parameter values when confronted with a mock data set generated according to the MicroBooNE procedure. This initial proof-of-principle illustrates a promising new technique for next-generation simulation tuning campaigns for the neutrino experimental community.

Keywords

Cite

@article{arxiv.2510.07454,
  title  = {Simulation-based inference for neutrino interaction model parameter tuning},
  author = {Karla Tame-Narvaez and Aleksandra Ćiprijanović and Steven Gardiner and Giuseppe Cerati},
  journal= {arXiv preprint arXiv:2510.07454},
  year   = {2025}
}

Comments

Accepted contribution to NeurIPS 2025 Workshop on Machine Learning and the Physical Sciences. 7 pages, 1 figure

R2 v1 2026-07-01T06:24:57.804Z