F. Mills scite author profile

The Booster Neutrino Experiment (MiniBooNE) searches for ν µ → ν e oscillations using the O(1 GeV) neutrino beam produced by the Booster synchrotron at the Fermi National Accelerator Laboratory (FNAL). The Booster delivers protons with 8 GeV kinetic energy (8.89 GeV/c momentum) to a beryllium target, producing neutrinos from the decay of secondary particles in the beam line. We describe the Monte Carlo simulation methods used to estimate the flux of neutrinos from the beamline incident on the MiniBooNE detector for both polarities of the focusing horn. The simulation uses the Geant4 framework for propagating particles, accounting for electromagnetic processes and hadronic interactions in the beamline materials, as well as the decay of particles.The absolute double differential cross sections of pion and kaon production in the simulation have been tuned to match external measurements, as have the hadronic cross sections for nucleons and pions. The statistical precision of the flux predictions is enhanced through reweighting and resampling techniques. Systematic errors in the flux estimation have been determined by varying parameters within their uncertainties, accounting for correlations where appropriate.

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First measurement of the muon neutrino charged current quasielastic double differential cross section

Aguilar-Arevalo¹,

Anderson²,

Bazarko³

et al. 2010

Phys. Rev. D

447

522

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A high-statistics sample of charged-current muon neutrino scattering events collected with the MiniBooNE experiment is analyzed to extract the first measurement of the double differential cross section ( d 2 σ dTµd cos θµ ) for charged-current quasielastic (CCQE) scattering on carbon. This result features minimal model dependence and provides the most complete information on this process to date. With the assumption of CCQE scattering, the absolute cross section as a function of neutrino energy (σ[Eν]) and the single differential cross section ( dσ dQ 2 ) are extracted to facilitate comparison with previous measurements. These quantities may be used to characterize an effective axial-vector form factor of the nucleon and to improve the modeling of low-energy neutrino interactions on nuclear targets. The results are relevant for experiments searching for neutrino oscillations.

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Search for core-collapse supernovae using the MiniBooNE neutrino detector

Aguilar-Arevalo¹,

Anderson²,

Bazarko³

et al. 2010

Phys. Rev. D

122

310

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Search for Muon Neutrino and Antineutrino Disappearance in MiniBooNE

Aguilar-Arevalo¹,

Anderson²,

Bazarko³

et al. 2009

Phys. Rev. Lett.

201

309

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The MiniBooNE Collaboration reports a search for nu_{micro} and nu[over]_{micro} disappearance in the Deltam;{2} region of 0.5-40 eV;{2}. These measurements are important for constraining models with extra types of neutrinos, extra dimensions, and CPT violation. Fits to the shape of the nu_{micro} and nu[over]_{micro} energy spectra reveal no evidence for disappearance at the 90% confidence level (C.L.) in either mode. The test of nu[over]_{micro} disappearance probes a region below Deltam;{2} = 40 eV;{2} never explored before.

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Search for Electron Neutrino Appearance at theΔm2∼1 eV2Scale

Aguilar-Arevalo¹,

Bazarko²,

Brice³

et al. 2007

Phys. Rev. Lett.

493

298

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F. Mills

Neutrino flux prediction at MiniBooNE

First measurement of the muon neutrino charged current quasielastic double differential cross section

Search for core-collapse supernovae using the MiniBooNE neutrino detector

Search for Muon Neutrino and Antineutrino Disappearance in MiniBooNE

Search for Electron Neutrino Appearance at theΔm2∼1 eV2Scale

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