Proposed neutrino monitor of long-term solar burning

13 August 1990

journal article
research article
Published by American Physical Society (APS) in Physical Review Letters

Vol. 65 (7) , 809-812
https://doi.org/10.1103/physrevlett.65.809

Abstract

The standard solar model predicts that the Sun’s luminosity has increased by 40% over the past 5 Gyr of main-sequence burning, a result that has troubled geophysicists and paleoclimatologists. This increase is accompanied by an exponential growth in the

{}^{8}B

neutrino flux, with a doubling time of 0.85 Gyr. I argue that one nuclear system exists that, in principle, could yield a quantitative terrestrial record of these past changes. It is not clear whether the reading of that record is within present experimental capabilities.

Keywords

This publication has 13 references indexed in Scilit:

Solar models, neutrino experiments, and helioseismology
Reviews of Modern Physics, 1988
A comparison between mass-losing and standard solar models
The Astrophysical Journal, 1987
Solar Neutrino Production of Technetium-97 and Technetium-98
Science, 1982
Additional evidence for $β β$ decay of ${}^{128}{Te}$
Physical Review C, 1978
The Solar Spoon
Nature, 1972
Xenon isotopes in tellurobismuthite, Boliden, Sweden
Journal of Inorganic and Nuclear Chemistry, 1972
What Cooks with Solar Neutrinos ?
Nature, 1972
A Global Climatic Model Based on the Energy Balance of the Earth-Atmosphere System
Journal of Applied Meteorology, 1969
Xenon in Kirkland lake tellurides
Earth and Planetary Science Letters, 1968
The Half-life of ¹³⁰Te Double β-decay
Zeitschrift für Naturforschung A, 1966