Physics
Scientific paper
Aug 1976
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1976phrvl..37..259r&link_type=abstract
Physical Review Letters, vol. 37, Aug. 2, 1976, p. 259-262.
Physics
62
Capture Effect, Neutrinos, Proton-Proton Reactions, Radiation Detectors, Solar Corpuscular Radiation, Decay Rates, Indium Isotopes, Nuclear Fusion, Thresholds, Tin
Scientific paper
A low-threshold, high-efficiency, direct-counting detector, based on inverse beta decay of In-115 to Sn-115, is proposed for the observation of low-energy proton-proton fusion neutrinos from the sun. Analysis of its properties indicates that it could possibly achieve a breakthrough in the solar neutrino problem, if it could be shown that correlated and uncorrelated background effects in a practical detector subunit could be suppressed to tolerable levels. The inverse beta decay provides a unique delayed-coincidence signature and is estimated to yield a neutrino capture rate of about 750 solar neutrino units.
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