What question did this study set out to answer?

This research aims to develop and characterize a new photodetector setup for water Cherenkov detectors to improve photon collection efficiency.

May 16, 2026Open Access

Characterisation of a novel photodetector configuration for water Cherenkov detectors

Key Points

This research aims to develop and characterize a new photodetector setup for water Cherenkov detectors to improve photon collection efficiency.
Developed a novel photodetector configuration using wavelength shifting plates and a 3-inch photomultiplier tube.
Utilized Geant4 simulations to analyze the geometry and determine optimal configurations for fast timing.
Compared photon collection efficiency with and without wavelength shifting plates.
Achieved a 43.4% increase in photon collection compared to a stand-alone 3-inch photomultiplier tube.
Demonstrated the feasibility of using wavelength-shifted photodetectors for improved background rejection in high-energy gamma-ray observatories.

Abstract

We present the development and characterisation of a novel photodetector configuration for water Cherenkov detectors, using wavelength shifting plates coupled to a 3-inch photomultiplier tube. Through Geant4 simulations, the detector geometry was analysed to identify an optimal WLS plate configuration for fast timing. These findings indicate that this configuration achieves an approximate 43.4% increase in photon collection relative to a stand-alone 3-inch photomultiplier tube. A scalable array of these wavelength-shifted units could serve as a cost-effective alternative to the large-area photomultiplier tubes. These results demonstrate the feasibility of wavelength shifted enhanced photodetectors for background hadronic rejection in future high-energy gamma-ray observatories.

Characterisation of a novel photodetector configuration for water Cherenkov detectors

Key Points

Abstract

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