Elevating Neutrino Precision: SBND's Near-Detector Constraints
ORAL
Abstract
The SBND (Short Baseline Near Detector) at Fermilab is the near detector within the SBN (Short
Baseline Neutrino) Program. Situated 110 meters from the Booster Neutrino Beam (BNB), SBND
utilizes a liquid argon time projection chamber (LArTPC) as part of the broader SBN aimed at
exploring sterile neutrinos and other Beyond Standard Model Physics. I will discuss the role of
SBND in constraining both flux and neutrino cross-section models in oscillation measurements.
This study adopts a comprehensive approach to characterize diverse neutrino interactions and their
final state topologies, and it aims to contribute further to refine models and calculate associated
uncertainties using SBND data. This research plays a critical role in elevating the precision of
neutrino scattering, mitigating uncertainties, and advancing our comprehension of fundamental
physics.
Baseline Neutrino) Program. Situated 110 meters from the Booster Neutrino Beam (BNB), SBND
utilizes a liquid argon time projection chamber (LArTPC) as part of the broader SBN aimed at
exploring sterile neutrinos and other Beyond Standard Model Physics. I will discuss the role of
SBND in constraining both flux and neutrino cross-section models in oscillation measurements.
This study adopts a comprehensive approach to characterize diverse neutrino interactions and their
final state topologies, and it aims to contribute further to refine models and calculate associated
uncertainties using SBND data. This research plays a critical role in elevating the precision of
neutrino scattering, mitigating uncertainties, and advancing our comprehension of fundamental
physics.
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Presenters
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Shweta Yadav
University of Texas at Arlington Chapters
Authors
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Shweta Yadav
University of Texas at Arlington Chapters