Neutrino oscillation parameter determination at INO-ICAL using track and hit information from GEANT

Jaydeep Datta; Bana Singh; S. Uma Sankar

doi:10.1088/1748-0221/17/08/T08006

Neutrino oscillation parameter determination at INO-ICAL using track and hit information from GEANT

Jaydeep Datta
, Bana Singh
, S. Uma Sankar

Physics and Astronomy

Indian Institute of Technology Bombay

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We study the capability of INO-ICAL to determine the neutrino oscillation parameters |ΔM ²₃₁| and sin² θ ₂₃. We do not use any generator level information. Instead, we process the generated atmospheric neutrino events through GEANT4 simulation of the detector and the event reconstruction framework. Among the outputs of this framework, only the momentum and direction of the longest track were used in a previous study by other authors. In this study, in addition to these two variables, we consider a third variable based on additional hits, which arise due to hadrons in the event. We show that the inclusion of this variable leads to a 30% reduction in the uncertainty of |ΔM ²₃₁| for a 5-year run of ICAL.

Original language	English
Article number	T08006
Journal	Journal of Instrumentation
Volume	17
Issue number	8
DOIs	https://doi.org/10.1088/1748-0221/17/08/T08006
State	Published - Aug 1 2022

Keywords

Neutrino detectors
Particle tracking detectors (Gaseous detectors)

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10.1088/1748-0221/17/08/T08006

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title = "Neutrino oscillation parameter determination at INO-ICAL using track and hit information from GEANT",

abstract = "We study the capability of INO-ICAL to determine the neutrino oscillation parameters |ΔM 231| and sin2 θ 23. We do not use any generator level information. Instead, we process the generated atmospheric neutrino events through GEANT4 simulation of the detector and the event reconstruction framework. Among the outputs of this framework, only the momentum and direction of the longest track were used in a previous study by other authors. In this study, in addition to these two variables, we consider a third variable based on additional hits, which arise due to hadrons in the event. We show that the inclusion of this variable leads to a 30\% reduction in the uncertainty of |ΔM 231| for a 5-year run of ICAL.",

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AU - Uma Sankar, S.

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N2 - We study the capability of INO-ICAL to determine the neutrino oscillation parameters |ΔM 231| and sin2 θ 23. We do not use any generator level information. Instead, we process the generated atmospheric neutrino events through GEANT4 simulation of the detector and the event reconstruction framework. Among the outputs of this framework, only the momentum and direction of the longest track were used in a previous study by other authors. In this study, in addition to these two variables, we consider a third variable based on additional hits, which arise due to hadrons in the event. We show that the inclusion of this variable leads to a 30% reduction in the uncertainty of |ΔM 231| for a 5-year run of ICAL.

AB - We study the capability of INO-ICAL to determine the neutrino oscillation parameters |ΔM 231| and sin2 θ 23. We do not use any generator level information. Instead, we process the generated atmospheric neutrino events through GEANT4 simulation of the detector and the event reconstruction framework. Among the outputs of this framework, only the momentum and direction of the longest track were used in a previous study by other authors. In this study, in addition to these two variables, we consider a third variable based on additional hits, which arise due to hadrons in the event. We show that the inclusion of this variable leads to a 30% reduction in the uncertainty of |ΔM 231| for a 5-year run of ICAL.

KW - Neutrino detectors

KW - Particle tracking detectors (Gaseous detectors)

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JO - Journal of Instrumentation

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ER -

Neutrino oscillation parameter determination at INO-ICAL using track and hit information from GEANT

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Keywords

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