Physics with next generation neutrino experiments: ESSnuSB
ESSnuSB: Monojit Ghosh
TL;DR
This paper discusses the potential of the ESSnuSBplus setup, which includes multiple neutrino sources and detectors, to precisely measure the leptonic CP phase and neutrino cross-sections, advancing neutrino physics research.
Contribution
It introduces the ESSnuSBplus configuration and evaluates its capability to explore both standard and new physics scenarios in neutrino experiments.
Findings
High-precision measurement prospects for the leptonic CP phase.
Enhanced understanding of neutrino-nucleus cross-sections in the 100 MeV range.
Potential to investigate new physics beyond the standard model.
Abstract
In this proceedings we explore the physics potential of the ESSnuSBplus setup to study beam and non-beam based physics scenarios in both standard and new physics cases. The ESSnuSBplus setup consists of three neutrino sources: the main ESS linac, a low energy monitored neutrino beam and a low energy nuSTORM facility and three detectors: the main far detector and two near detectors. The goal of this facility is to measure the leptonic CP phase with extremely high precision and the neutrino nucleus cross-section in the few hundred MeV region.
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Taxonomy
TopicsNeutrino Physics Research · Particle Accelerators and Free-Electron Lasers · Particle physics theoretical and experimental studies