Add to ORKGWe report the first measurement of the double-differential and total muon-neutrino charged-current inclusive cross sections on argon at a mean neutrino energy of 0.8 GeV. Data were collected using the MicroBooNE liquid argon time projection chamber located in the Fermilab Booster neutrino beam, and correspond to $1.6 \times 10^{20}$ protons on target of exposure. The measured differential cross sections are presented as a function of muon momentum, using multiple Coulomb scattering as a momentum measurement technique, and the muon angle with respect to the beam direction. We compare the measured cross sections to multiple neutrino event generators and find better agreement with those containing more complete physics at low $Q^2$. The total ...
We present a measurement of the combined νe+ν¯e flux-averaged charged-current inclu...
MicroBooNE is a liquid argon time projection chamber that operates in the Booster Neutrino Beam at F...
Precise modeling of neutrino interactions on argon is crucial for the success of future experiments ...
We report the first measurement of the double-differential and total muon-neutrino charged-current i...
We report the first measurement of the double-differential and total muon neutrino charged current i...
We report the first measurement of the double-differential and total muon neutrino charged current i...
Current and next-generation precision neutrino oscillation experiments aim to determine the neutrino...
The ArgoNeuT Collaboration presents the first measurements of inclusive muon neutrino charged curren...
We present the first measurement of the single-differential νe + ¯νe charged-current inclusive cross...
MicroBooNE is the first of three liquid-argon time projection chambers in the Fermilab Short Baselin...
We report the first measurement of the double-differential and total muon neutrino charged current i...
Several important questions remain open in the field of neutrino oscillation physics, including the ...
© 2020 authors. Published by the American Physical Society. We present an analysis of MicroBooNE dat...
We report the first measurement of the flux-integrated cross section of νμ charged-current single π0...
We report the first measurement of the flux-integrated cross section of νμ charged-current single π0...
We present a measurement of the combined νe+ν¯e flux-averaged charged-current inclu...
MicroBooNE is a liquid argon time projection chamber that operates in the Booster Neutrino Beam at F...
Precise modeling of neutrino interactions on argon is crucial for the success of future experiments ...
We report the first measurement of the double-differential and total muon-neutrino charged-current i...
We report the first measurement of the double-differential and total muon neutrino charged current i...
We report the first measurement of the double-differential and total muon neutrino charged current i...
Current and next-generation precision neutrino oscillation experiments aim to determine the neutrino...
The ArgoNeuT Collaboration presents the first measurements of inclusive muon neutrino charged curren...
We present the first measurement of the single-differential νe + ¯νe charged-current inclusive cross...
MicroBooNE is the first of three liquid-argon time projection chambers in the Fermilab Short Baselin...
We report the first measurement of the double-differential and total muon neutrino charged current i...
Several important questions remain open in the field of neutrino oscillation physics, including the ...
© 2020 authors. Published by the American Physical Society. We present an analysis of MicroBooNE dat...
We report the first measurement of the flux-integrated cross section of νμ charged-current single π0...
We report the first measurement of the flux-integrated cross section of νμ charged-current single π0...
We present a measurement of the combined νe+ν¯e flux-averaged charged-current inclu...
MicroBooNE is a liquid argon time projection chamber that operates in the Booster Neutrino Beam at F...
Precise modeling of neutrino interactions on argon is crucial for the success of future experiments ...