Baseline-dependent neutrino oscillations with extra-dimensional shortcuts

Jun, 2009
20 pages
Published in:
  • Phys.Rev.D 80 (2009) 093005
e-Print:
Report number:
  • DO-TH-09-08

Citations per year

20092013201720212024051015
Abstract: (arXiv)
In extra-dimensional scenarios oscillations between active and sterile neutrinos can be governed by a new resonance in the oscillation amplitude. This resonance results when cancelation occurs between two phase differences, the usual kinematic one coming from the neutrino mass-squared difference, and a geometric one coming from the difference in travel times of the sterile neutrino through the bulk relative to the active neutrino confined to the brane. In this work we introduce a specific metric for the brane-bulk system, from which we explicitly derive extra-dimensional geodesics for the sterile neutrino, and ultimately the oscillation probability of the active-sterile two-state system. We find that for an asymmetrically-warped metric, the resonance condition involves both the neutrino energy E and the travel distance L on the brane. In other words, the resonant energy may be viewed as baseline-dependent. We show that to a good approximation, the resonance condition is not on E or on L, but rather on the product LE. The model is rich in implications, including the possibility of multiple solutions to the resonance condition, with ramifications for existing data sets, e.g., LSND and MiniBooNE. Some phenomenology with these brane-bulk resonances is discussed.
Note:
  • 20 pages, 5 figures
  • 13.15.+g
  • 14.60.Pq
  • 14.60.St
  • neutrino: sterile
  • neutrino: oscillation
  • resonance: energy
  • neutrino: energy
  • higher-dimensional
  • membrane model
  • geodesic