Exploiting the directional sensitivity of the Double Chooz near detector

Abstract

In scintillator detectors, the forward displacement of the neutron in the reaction e+p e++n provides neutrino directional information as demonstrated by the CHOOZ reactor experiment with 2,500 events. The near detector of the forthcoming Double Chooz experiment will collect 1.6×105 events per year, enough to determine the average neutrino direction with a 1 σ half-cone aperture of 2.3 in one year. It is more difficult to separate the two Chooz reactors that are viewed at a separation angle φ=30. If their strengths are known and approximately equal, the azimuthal location of each reactor is obtained with 6 (1 σ) and the probability of confusing them with a single source is less than 11%. Five year's data reduce this ``confusion probability'' to less than 0.3%, i.e., a 3 σ separation is possible. All of these numbers improve rapidly with increasing angular separation of the sources. For a setup with φ=90 and one year's data, the azimuthal 1 σ uncertainty for each source decreases to 3.2. Of course, for Double Chooz the two reactor locations are known, allowing one instead to measure their individual one-year integrated power output to 11% (1 σ), and their five-year integrated output to 4.8% (1 σ).