The AQUA-RICH atmospheric neutrino experiment

We describe a 125 m diameter spherical detector containing 1 Mt of water, capable of high rate observation of atmospheric neutrino events (30 000/y). The ring imaging Cherenkov (RICH) technique is used to measure velocity, momentum and direction of particles produced by neutrinos interacting in water. The detector will be sited outdoors (under a 50 m water shield) in a natural (further excavated) pit, probably in Sicily. cal reflecting mirrors focus Cherenkov light produced by secondaries from interacting neutrinos. Photons are detected by 5310 hybrid photodiodes (HPDs) of 1 m diameter each with 396 pads of 45×45 mm2 on the photocathode surface, demagnified to 9×9 mm2 on the silicon sensor. For most tracks the ring width will be dominated by multiple scattering which should allow momentum to be determined. Hadrons of momentum p≤5 GeV/c can be measured with σp/p≤7% and muons of p≤32 GeV/c with σp/p≤1%. The ring center determines track direction with σθx, σθy≈6 mrad. Track reconstruction in water will require time resolution σt<1 ns. ion of oscillating muon signals (disappearance) is feasible with atmospheric neutrinos and precision measurement of oscillation parameters is feasible for 10−2≤Δm2≤10−4eV2. Tau or sterile neutrino appearance experiments are also possible with atmospheric neutrinos. Other physics topics addressable with this detector are proton decay, supernova detection and search for astrophysical neutrino sources. t test module of 3 tons water and 120 PMs (32 mm φ) will operate (5/99) with 1–3 GeV muons in a CERN-PS test beam to verify the momentum algorithm. A second (6 m)3 test module with 216 tons of water and 25 HPDs (0.25 m φ) is designed to observe full multi-track images and test pattern recognition and ring reconstruction algorithms.