Reactor Experiment for Neutrino Oscillation


The Reactor Experiment for Neutrino Oscillation is a short baseline reactor neutrino oscillation experiment in South Korea. The experiment was designed to either measure or set a limit on the neutrino mixing matrix parameter θ13, a parameter responsible for oscillations of electron neutrinos into other neutrino flavours. RENO has two identical detectors, placed at distances of 294 m and 1383 m, that observe electron antineutrinos produced by six reactors at the Hanbit Nuclear Power Plant in Korea.
Each detector consists of of gadolinium-doped liquid scintillator, surrounded by an additional 450 tons of buffer, veto,and shielding liquids.
On 3 April 2012, with some corrections on 8 April, the RENO collaboration announced a 4.9σ observation of θ13 ≠ 0, with
This measurement confirmed a similar result announced by the Daya Bay Experiment three weeks before and is consistent with earlier, but less significant results by T2K, MINOS and Double Chooz.
RENO released updated results in December 2013, confirming θ13 ≠ 0 with a significance of 6.3σ:
In 2014, RENO announced the observation of an unexpectedly large number of neutrinos with an energy of. This has since been confirmed by the Daya Bay and Double Chooz experiments, and the cause remains an outstanding puzzle.
Expansion plans, referred to as RENO-50, will add a third medium-baseline detector at a distance of 47 km. This distance is better for observing neutrino oscillations, but requires a much larger detector due to the smaller neutrino flux. The location, near Dongshin University, has a 450 m high mountain, which will provide 900 m.w.e. shielding for the detector. If funded, this will contain of scintillator, surrounded by photomultiplier tubes.