Electron beam studies of light collection in a scintillating counter with embedded wavelength-shifting fibers.

The light collection of several wavelength-shifting fiber configurations embedded in a box-shaped plastic scintillating counter was studied by scanning with minimum ionizing electrons. The light was read out by silicon photomultipliers at both ends. The light yield produced by the 855-MeV beam of the Mainz Microtron showed a strong dependence on the transverse distance from its position to the fibers. The observations were modeled by attributing the total light yield to the collection of diffuse light inside the counter and of direct light reaching a fiber. The light collection with fibers was compared to that of a scintillating counter without fibers. These studies were carried out within the development of plastic scintillating detectors as an active veto system for the DarkMESA electron beam-dump experiment that will search for light dark matter particles in the MeV mass range.