Conveners
Experiment Overview
- Clarence Wret
- Clarence Wret (University of Rochester (US))
Experiment Overview
- Laura-Iuliana Munteanu (CERN)
- Laura Munteanu (CERN)
- Clarence Wret
- Clarence Wret (University of Rochester (US))
Experiment Overview
- Pablo Samuel Barham Alzas (CERN)
Experiment Overview
- There are no conveners in this block
Experiment Overview
- Laura Munteanu (CERN)
- Laura-Iuliana Munteanu (CERN)
Experiment Overview
- Pablo Samuel Barham Alzas (CERN)
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Gregory Pawloski, Gregory Pawloski (Fermi National Accelerator Laboratory)03/10/2023, 10:00
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Mx Noah Vaughan (Oregon State University)03/10/2023, 11:00
MINERvA is a dedicated neutrino-nucleus cross section experiment at Fermilab in the NuMI (anti)neutrino beamline, where it was exposed to both low and medium energy configurations with a neutrino energy spectrum ranging from a few GeV to tens of GeV. The large high statistics in the data are complemented by a large simulated sample, and their comparison allows MINERvA to probe nuclear...
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Margherita Buizza Avanzini (Centre National de la Recherche Scientifique (FR)), Margherita Buizza Avanzini03/10/2023, 11:30
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Afroditi Papadopoulou04/10/2023, 09:00
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Bannanje Nitish Nayak (University of California Irvine (US))04/10/2023, 09:30
MicroBooNE is a liquid argon time projection chamber (LArTPC) located along the Fermilab Booster Neutrino Beam with a mean neutrino energy of approximately 0.8 GeV. The analysis of neutrino interactions leverage the mm level spatial resolutions of LArTPCs to provide a detailed description of the interaction in the detector. As a result, MicroBooNE has collected the largest neutrino-argon...
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Steven Gardiner04/10/2023, 10:00
The MicroBooNE liquid argon time projection chamber experiment has a vibrant neutrino interaction physics program, with over thirty active analyses and a growing library of recent publications. As the precision and detail of MicroBooNE's cross-section measurements continue to improve, the collaboration is exploring new methods for maximizing the usefulness of the results for the nuclear...
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Yinrui Liu (University of Chicago (US))04/10/2023, 15:15
Final-state interaction (FSI) is one of the most relevant nuclear effects involved in the neutrino-nucleus interactions, where the produced hadrons re-scatter with the nucleons within the nucleus. FSI accounts for a large source of uncertainties to neutrino detections, and hadron-nucleus scattering data can provide experimental constraints. Historically, experiments use hadron beam impinge on...
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Sam Jenkins (University of Sheffield), Sam Jenkins (University of Liverpool)05/10/2023, 09:00
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Hitoshi Oshima (ICRR, the University of Tokyo)05/10/2023, 09:30
The NINJA collaboration aims to study neutrino-nucleus interactions in the energy range of hundreds of MeV to a few GeV using an emulsion-based detector. A series of neutrino-nucleus interaction measurements was conducted using the emulsion detector with water and iron targets in the near detector hall of the T2K experiment at J-PARC. The emulsion detector is suitable for precision...
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Richard Diurba (University of Bern)05/10/2023, 11:00
ProtoDUNE-SP is a single-phase liquid argon time projection chamber that took hadron test beam data in 2018. The test beam included positively charged kaons with test beam momenta of 6 GeV/c and 7 GeV/c, providing a sample to study kaons to benefit future DUNE proton decay and neutrino interaction studies with kaons in the final state. The total inelastic cross section of a positively charged...
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Jacob Michael Calcutt (Oregon State University (US))05/10/2023, 11:25
ProtoDUNE-SP was a large-scale prototype of the single phase DUNE far detector which took test beam data in Fall 2018. The beam consisted of positive pions, kaons, muons, and protons, and this data is being used to measure the various hadron-Ar interaction cross sections. These measurements will provide important constraints for the nuclear ground state, final state interaction, and secondary...
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Gregory Pawloski, Gregory Pawloski (Fermi National Accelerator Laboratory)