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Baseline optimization for the measurement of CP violation, mass hierarchy, and θ₂₃ octant in a long-baseline neutrino oscillation experiment

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arxiv 1311.0212 v3 pith:7EVPK7KP submitted 2013-11-01 hep-ex hep-ph

Baseline optimization for the measurement of CP violation, mass hierarchy, and θ₂₃ octant in a long-baseline neutrino oscillation experiment

classification hep-ex hep-ph
keywords baselineneutrinothetabeamdetectordeterminehierarchylong-baseline
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Next-generation long-baseline electron neutrino appearance experiments will seek to discover CP violation, determine the mass hierarchy and resolve the $\theta_{23}$ octant. In light of the recent precision measurements of $\theta_{13}$, we consider the sensitivity of these measurements in a study to determine the optimal baseline, including practical considerations regarding beam and detector performance. We conclude that a detector at a baseline of at least 1000 km in a wide-band muon neutrino beam is the optimal configuration.

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Cited by 3 Pith papers

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    Simulation shows LArTPC blips from neutron inelastic scattering can identify neutrons and reconstruct final-state neutron direction and energy in sub-GeV neutrino interactions.

  3. Neutrino mass ordering from the next Galactic supernova at DUNE, HK, and JUNO

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    Neutronization burst and accretion-phase rise-time observables from a 10 kpc core-collapse supernova enable DUNE, HK and JUNO to discriminate neutrino mass ordering at 3-6 sigma using multiple progenitor simulations.