KamLAND-Experiment and Soliton-Like Nuclear Georeactor
V.D.Rusov, D.A. Litvinov, S. Ch. Mavrodiev, E.P. Linnik, V.N., Vaschenko, T.N. Zelentsova, V.A. Tarasov
TL;DR
This paper proposes that a natural nuclear georeactor at Earth's core boundary explains KamLAND's antineutrino data better than conventional models, suggesting a 20 TW soliton-like reactor influences neutrino observations.
Contribution
It introduces a novel georeactor hypothesis with a 20 TW power output to interpret KamLAND data, aligning neutrino mixing parameters more closely with solar flux measurements.
Findings
The soliton-like georeactor spectrum fits KamLAND data well.
Georeactor hypothesis yields mixing parameters closer to SNO solar data.
Supports existence of a natural nuclear reactor at Earth's core boundary.
Abstract
We give an alternative description of the new data produced in the KamLAND experiment, assuming the existence of a natural nuclear reactor on the boundary of the liquid and solid phases of the Earth's core. Analyzing the uncertainty of antineutrino spectrum of georeactor origin, we show that the theoretical (which takes into account the soliton-like nuclear georeactor with power about 20 TW) reactor antineutrino spectrum describes with good accuracy the new experimental KamLAND-data. At the same time the parameters of mixing calculated within the framework of georeactor hypothesis are substantially closer to the data of solar flux SNO-experiment then the parameters of mixing obtained in KamLAND-experiment.
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Taxonomy
TopicsMethane Hydrates and Related Phenomena · Particle Accelerators and Free-Electron Lasers · Distributed and Parallel Computing Systems