A novel liquid scintillator system using metal b-diketonate chemistry based on loadings of indium, a target of current interest in low energy solar neutrino detection, is developed. The optical absorption, fluorescence and scintillation properties for this new system are described. The scintillation light output as found from the irradiation by low energy gamma-rays is presented. Notable light yields are found
International audienceIn spite of intensive study during recent years, efficient room temperature op...
We report on the study of a new liquid scintillator target for neutrino interactions in the framewor...
This paper presents some results of the development of two new scintillation detectors usable for th...
A novel liquid scintillator system using metal b-diketonate chemistry based on loadings of indium, a...
We present combined experimental and model studies of the light yield and energy transfer properties...
Several future neutrino experiments call for metal loaded liquid scintillators for neutrino detectio...
We report on the development of a novel In-loaded scintillator for a next generation low energy sola...
We report on the development of a novel In-loaded scintillator for a next generation low energy sola...
Many neutrino experiments use organic liquid scintillators as detector technology. Some of the advan...
We describe the work carried out at MPIK to design, model, build and characterize a prototype cell f...
We investigate a new gadolinium-loaded organic liquid scintillator which is designed to detect elect...
The LENS project aims at the real-time spectroscopy of low energy solar neutrinos. Detection would p...
The LENS project aims at the real-time spectroscopy of low energy solar neutrinos. Detection would p...
Liquid-scintillator based neutrino detection is a well established experimental technique of neutrin...
International audienceIn spite of intensive study during recent years, efficient room temperature op...
We report on the study of a new liquid scintillator target for neutrino interactions in the framewor...
This paper presents some results of the development of two new scintillation detectors usable for th...
A novel liquid scintillator system using metal b-diketonate chemistry based on loadings of indium, a...
We present combined experimental and model studies of the light yield and energy transfer properties...
Several future neutrino experiments call for metal loaded liquid scintillators for neutrino detectio...
We report on the development of a novel In-loaded scintillator for a next generation low energy sola...
We report on the development of a novel In-loaded scintillator for a next generation low energy sola...
Many neutrino experiments use organic liquid scintillators as detector technology. Some of the advan...
We describe the work carried out at MPIK to design, model, build and characterize a prototype cell f...
We investigate a new gadolinium-loaded organic liquid scintillator which is designed to detect elect...
The LENS project aims at the real-time spectroscopy of low energy solar neutrinos. Detection would p...
The LENS project aims at the real-time spectroscopy of low energy solar neutrinos. Detection would p...
Liquid-scintillator based neutrino detection is a well established experimental technique of neutrin...
International audienceIn spite of intensive study during recent years, efficient room temperature op...
We report on the study of a new liquid scintillator target for neutrino interactions in the framewor...
This paper presents some results of the development of two new scintillation detectors usable for th...
Add to ORKG