LiquidO: Neutrino Detection and Imaging in Opaque Media
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For several decades now, scintillator detectors have found a wide range of applications in particle physics, including neutrino detection, the search for dark matter and even medical imaging. These detectors so far have strongly relied on the transparency of the scintillating medium, through which light is typically propagated to surrounding photosensors. In this work, we present the results of a 10 litre prototype based on a novel detection approach where an opaque scintillator medium is used to confine light near its creation point that is then collected by a grid of wavelength-shifting fibres traversing the detector. The prototype is operated with different media, including the novel opaque scintillator NoWaSH whose scattering length varies with temperature. Our results progressively demonstrate the temperature-dependent stochastic confinement of the light, with 90% (80%) of the light being confined within a radius of 5 cm (4 cm) when the scattering length is on the order of a few millimetres. The results also demonstrate the pulse shape resolution of our setup capable of resolving Cherenkov and scintillation light. Altogether, the observations match the performance expected for this new type of detector, whose capabilities are expected to include the imaging of particle interactions down to MeV-energies.
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Construction, commissioning, and beam test of a pilot 3D-projection opaque water-based liquid scintillator detector
A pilot 3D-projection detector with opaque water-based liquid scintillator achieves light scattering length below 2 cm and single-channel timing resolution of 0.17-0.28 ns in 50-500 MeV proton beam tests.
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