Solubility, light output and energy resolution studies of molybdenum-loaded liquid scintillators

@article{Gehman2009SolubilityLO,
  title={Solubility, light output and energy resolution studies of molybdenum-loaded liquid scintillators},
  author={Victor M. Gehman and Peter J. Doe and R. G. Hamish Robertson and D. I. Will and Hiroyasu Ejiri and Ryuta Hazama},
  journal={Nuclear Instruments \& Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment},
  year={2009},
  volume={622},
  pages={602-607}
}
  • V. GehmanP. Doe R. Hazama
  • Published 11 November 2009
  • Physics
  • Nuclear Instruments & Methods in Physics Research Section A-accelerators Spectrometers Detectors and Associated Equipment
11 Citations

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References

SHOWING 1-10 OF 24 REFERENCES

Rare-earth loaded liquid scintillator (for LENS experiment)

Rare-earth (Yb/Gd) complexes with neutral organophosphorus ligands are briefly discussed for their application in liquid scintillation technique. To evaluate the principle feasibility of a high

Multilayer Scintillator Responses for Mo Observatory of Neutrino Experiment Studied Using a Prototype Detector MOON-1(Nuclear physics)

An ensemble of multilayer scintillators is discussed as an option of the high-sensitivity detector MOON (Mo Observatory of Neutrinos) for spectroscopic measurements of neutrinoless double beta

MOON for neutrino-less double beta decays

The MOON (Majorana/Mo Observatory Of Neutrinos) project aims at studies of the Majorana nature of the neutrino (ν) and the ν-mass spectrum by spectroscopic experiments of neutrino-less double beta

Nd double beta decay search with SNO

SNO+ is a follow up experiment of SNO replacing the heavy water by a liquid scintillator. Especially, if the scintillator is Nd‐loaded, a sensitive double beta decay experiment can be realised on a

Double Chooz project: Status of a reactor experiment aimed at searches for neutrino oscillations

Double Chooz is an experiment that is devoted to searches for reactor-antineutrino oscillations at the CHOOZ nuclear power plant. This project is aimed at measuring the unknown mixing angle θ13. It

Supernova-neutrino studies with 100Mo