Tests of some prototype indium-loaded scintillators for solar neutrino detection
Author:
Publisher
Elsevier BV
Subject
Instrumentation,Nuclear and High Energy Physics
Reference35 articles.
1. InverseβDecay ofIn115→Sn115*: A New Possibility for Detecting Solar Neutrinos from the Proton-Proton Reaction
2. Solar Neutrinos and Neutrino Astronomy, Homestake;Booth,1984
3. Solar neutrinos and neutrino astronomy, Homestake;de Bellefon,1984
4. Standard solar models and the uncertainties in predicted capture rates of solar neutrinos
5. Solar models, neutrino experiments, and helioseismology
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1. Detection of Intermediate-Energy Solar Neutrinos by Means of Neutrino Capture by $${}^{115}$$In Nuclei;Physics of Atomic Nuclei;2022-08
2. Liquid scintillation analysis: principles and practice;Handbook of Radioactivity Analysis;2020
3. Metal-loaded organic scintillators for neutrino physics;Journal of Physics G: Nuclear and Particle Physics;2016-08-03
4. Liquid Scintillation Analysis;Handbook of Radioactivity Analysis;2012
5. An indium-loaded organic liquid scintillator for solar neutrino detection;Instruments and Experimental Techniques;2010-07
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