- Steiger, Hans Th J;
- Stock, Matthias Raphael;
- Böhles, Manuel;
- Braun, Sarah;
- Callaghan, Edward J;
- Dörflinger, David;
- Fahrendholz, Ulrike;
- Firsching, Jonas;
- Fischer, Elias;
- Kaptanoglu, Tanner;
- Kayser, Lennard;
- Lu, Meishu;
- Oberauer, Lothar;
- Gann, Gabriel D Orebi;
- Stangler, Korbinian;
- Wurm, Michael;
- Zundel, Dorina
One of the most promising approaches for the next generation of neutrino experiments is the realization of large hybrid Cherenkov/scintillation detectors made possible by recent innovations in photodetection technology and liquid scintillator chemistry. The development of a potentially suitable future detector liquid with particularly slow light emission is discussed in the present publication. This cocktail is compared with respect to its fundamental characteristics (scintillation efficiency, transparency, and time profile of light emission) with liquid scintillators currently used in large-scale neutrino detectors. In addition, the optimization of the admixture of wavelength shifters for a scintillator with particularly high light emission is presented. Furthermore, the pulse-shape discrimination capabilities of the novel medium was studied using a pulsed particle accelerator driven neutron source. Beyond that, purification methods based on column chromatography and fractional vacuum distillation for the co-solvent DIN (Diisopropylnaphthalene) are discussed.