Future atmospheric neutrino measurements with PINGU

Neutrino oscillations, first measured in 1998 via atmospheric neutrinos, have provided the only current direct evidence for physics beyond the Standard Model of Elementary Particles. The full neutrino mixing, described by six parameters, has been measured in the last decade with the exception of the...

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Bibliographic Details
Main Authors: Grant, D, Kearns, Ed
Format: Conference Proceeding
Language:English
Subjects:
APPROXIMATIONS
DESIGN
DIRECT CURRENT
EIGENSTATES
Eigenvectors
Elementary particles
MULTIPARTICLE SPECTROMETERS
NEUTRINO OSCILLATION
NEUTRINOS
PARITY
PARTICLE IDENTIFICATION
PHOTOCATHODES
PHYSICS OF ELEMENTARY PARTICLES AND FIELDS
PROPOSALS
REST MASS
SENSITIVITY
STANDARD MODEL
Standard model (particle physics)
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Summary:Neutrino oscillations, first measured in 1998 via atmospheric neutrinos, have provided the only current direct evidence for physics beyond the Standard Model of Elementary Particles. The full neutrino mixing, described by six parameters, has been measured in the last decade with the exception of the charge-parity phase and the ordering of the mass eigenstates (the neutrino mass hierarchy – NMH). A relatively large mixing-angle between the first and third mass eigenstates has opened the possibility of measuring the mass hierarchy via atmospheric neutrinos using very large volume detectors. A leading proposal to perform this measurement is the future low-energy extension to the IceCube–DeepCore detector, called PINGU (the Precision IceCube Next Generation Upgrade). By increasing the photocathode density in the DeepCore region, it is possible to lower the energy threshold in the fiducial volume to the region that is affected by the MSW [1, 2], and thus permits extraction of the hierarchy. Here we discuss the design of the PINGU detector, its sensitivity to the mass hierarchy (approximately 3σ in 3.5 years) and measurements of νμ disappearance and ντ appearance.
ISSN:0094-243X
1551-7616
DOI:10.1063/1.4915572