Measuring Antineutrino Oscillations with the MINOS Experiment

Evans, Justin John

doi:10.2172/952636

Title: Measuring Antineutrino Oscillations with the MINOS Experiment

Thesis/Dissertation · Mon Sep 01 00:00:00 EDT 2008

DOI:https://doi.org/10.2172/952636· OSTI ID:952636

Evans, Justin John ^[1]

Univ. of Oxford (United Kingdom)

MINOS is a long baseline neutrino oscillation experiment. A manmade beam of predominantly muon neutrinos is detected both 1 km and 735 km from the production point by two functionally identical detectors. A comparison of the energy spectra measured by the two detectors shows the energy-dependent disappearance of muon neutrinos characteristic of oscillations and allows a measurement of the parameters governing the oscillations. This thesis presents work leading to measurements of disappearance in the 6% $$\bar{v}$$_μ background in that beam. A calibration is developed to correct for time-dependent changes in the responses of both detectors, reducing the corresponding uncertainty on hadronic energy measurements from 1.8% to 0.4% in the near detector and from 0.8% to 0.4% in the far detector. A method of selecting charged current $$\bar{v}$$_μ events is developed, with purities (efficiencies) of 96.5% (74.4%) at the near detector, and 98.8% (70.9%) at the far detector in the region below 10 GeV reconstructed antineutrino energy. A method of using the measured near detector neutrino energy spectrum to predict that expected at the far detector is discussed, and developed for use in the $$\bar{v}$$_μ analysis. Sources of systematic uncertainty contributing to the oscillation measurements are discussed. In the far detector, 32 charged current $$\bar{v}$$_μ events are observed below a reconstructed energy of 30 GeV, compared to an expectation of 47.8 for Δ$$\bar{m}$$_atm² = Δ$$\bar{m}$$_atm², sin²(2$$\bar{θ}$$₂₃) = sin²(2θ₂₃). This deficit, in such a low-statistics sample, makes the result difficult to interpret in the context of an oscillation parameter measurement. Possible sources for the discrepancy are discussed, concluding that considerably more data are required for a definitive solution. Running MINOS with a dedicated $$\bar{v}$$_μ beam would be the ideal continuation of this work.

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Research Organization:: Fermi National Accelerator Lab. (FNAL), Batavia, IL (United States)

Sponsoring Organization:: USDOE

DOE Contract Number:: AC02-07CH11359

OSTI ID:: 952636

Report Number(s):: FERMILAB-THESIS-2009-14; TRN: US0902558

Country of Publication:: United States

Language:: English

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72 PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
ANTINEUTRINOS
CALIBRATION
CHARGED CURRENTS
ENERGY SPECTRA
MUON NEUTRINOS
NEUTRINO OSCILLATION
NEUTRINOS
OSCILLATIONS
PRODUCTION
Experiment-HEP

Title: Measuring Antineutrino Oscillations with the MINOS Experiment

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