Constraining BSM Models with Precision Measurements at Future Long-Baseline Neutrino Experiments

Constraining BSM Models with Precision Measurements at Future Long-Baseline Neutrino Experiments

Neutrino oscillations are a very well-established phenomenon, and in the last two decades, we have been able to determine almost all the oscillation parameters with a few percent precision. However, there is still room for the possibility of the presence of new physics effects. In this context, lon...

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Bibliographic Details
Main Author: Alessio Giarnetti
Format: Article
Language:English
Published: Andromeda Publishing and Academic Services 2023-07-01
Series:Letters in High Energy Physics
Subjects:
Neutrino
Oscillation
LBL
BSM
Online Access:http://journals.andromedapublisher.com/index.php/LHEP/article/view/384
Description
Summary:Neutrino oscillations are a very well-established phenomenon, and in the last two decades, we have been able to determine almost all the oscillation parameters with a few percent precision. However, there is still room for the possibility of the presence of new physics effects. In this context, long-baseline (LBL) accelerator experiments provide a great environment to probe BSM (Beyond Standard Model) models. These experiments can look at different oscillation channels at both short (near detectors) and long (far detectors) distances, working with well-controlled focused neutrino beams. Two of the most promising future LBL experiments are DUNE in the USA and T2HK in Japan, which may be part of a bigger experiment (T2HKK) with a second detector in Korea.We studied the performances of these experiments in constraining different models.
ISSN:2632-2714

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