Three Generation Neutrino Oscillation Parameters after SNO
Abstract
We examine the solar neutrino problem in the context of the realistic three neutrino mixing scenario including the SNO charged current (CC) rate. The two independent mass squared differences m221 and m231 ≈ m232 are taken to be in the solar and atmospheric ranges respectively. We incorporate the constraints on 231 as obtained by the SuperKamiokande atmospheric neutrino data and determine the allowed values of m221, θ12 and θ13 from a combined analysis of solar and CHOOZ data. Our aim is to probe the changes in the values of the mass and mixing parameters with the inclusion of the SNO data as well as the changes in the two-generation parameter region obtained from the solar neutrino analysis with the inclusion of the third generation. We find that the inclusion of the SNO CC rate in the combined solar + CHOOZ analysis puts a more restrictive bound on θ13. Since the allowed values of θ13 are constrained to very small values by the CHOOZ experiment there is no qualitative change over the two generation allowed regions in the m221 - 2 θ12 plane. The best-fit comes in the LMA region and no allowed area is obtained in the SMA region at 3σ level from combined solar and CHOOZ analysis.
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