VladtheDestroyer
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"The huge transportation time of heavy elements from supernovas to the Earth and the close relationship of volcanoes and uranium-thorium economic deposits (Figure 5) indirectly confirm the proposed hypothesis. Following Ockham’s razor principle, we declare that chemical elements originated on our planet rather than being imported from far-off remote stars.
The absence of uranium and thorium in Earth’s core and the “young” age of uranium in meteorites and the mantle make the theory of an extraterrestrial origin of uranium, thorium, and rare earth elements quite doubtful. Moreover, the age of many uranium deposits is less than one billion years (1 Ga). In contrast, the age of the most ancient rocks, determined by the same isotopic method, from 2 to 3.6 Ga, is comparable with the age of Earth itself (4.6 Ga). This fact indirectly supports our hypothesis regarding the formation of these heavy elements by LENRs in the Earth’s upper mantle and core." Low Energy Nuclear Synthesis in Earthquake, Volcanic Eruptions, and Genesis of Heavy Elements, 2025
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"it is argued that the thermal energy responsive to orogen, geothermal energy, and earthquakes should have an active energy component in addition to stable energy generation from radioactive decay. Among all the candidates of energy surge phenomena, anomalous heat generation from low energy nuclear reaction (LENR) is the most probable mecha nism compatible with the intensity and scale of major earthquakes, and can explain many concurrent events during a seismic event. It is also suggested that if the dynamic thermal energy input from LENR does have an impact on tectonic movement and earthquakes, its NAE should be responsive to human intervention. Geothermal energy exploitation, if properly applied, has the potential to offer a feasible way of releasing the strain/thermal energy accumulated, while taming directly or indirectly the NAE bearing a potential disaster, thus turning the destructive earthquake into constructive, sustainable geothermal energy for the common good of human society." On the Role and Mechanism of Anomalous Heat Generation From Low Energy Nuclear Reaction (LENR) During Earthquakes, J. Condensed Matter Nucl. Sci. 39 (2025) 286–294
The absence of uranium and thorium in Earth’s core and the “young” age of uranium in meteorites and the mantle make the theory of an extraterrestrial origin of uranium, thorium, and rare earth elements quite doubtful. Moreover, the age of many uranium deposits is less than one billion years (1 Ga). In contrast, the age of the most ancient rocks, determined by the same isotopic method, from 2 to 3.6 Ga, is comparable with the age of Earth itself (4.6 Ga). This fact indirectly supports our hypothesis regarding the formation of these heavy elements by LENRs in the Earth’s upper mantle and core." Low Energy Nuclear Synthesis in Earthquake, Volcanic Eruptions, and Genesis of Heavy Elements, 2025
Low Energy Nuclear Synthesis in Earthquake, Volcanic Eruptions, and Genesis of Heavy Elements
1989 is the beginning of intensive research into the phenomena of cold nuclear fusion, renamed “The Low Energy Nuclear Synthesis Reactions” (LENR). Based on these results and the long-term research of earthquakes and volcanic activity, the authors of this article put forward a hypothesis about...
"it is argued that the thermal energy responsive to orogen, geothermal energy, and earthquakes should have an active energy component in addition to stable energy generation from radioactive decay. Among all the candidates of energy surge phenomena, anomalous heat generation from low energy nuclear reaction (LENR) is the most probable mecha nism compatible with the intensity and scale of major earthquakes, and can explain many concurrent events during a seismic event. It is also suggested that if the dynamic thermal energy input from LENR does have an impact on tectonic movement and earthquakes, its NAE should be responsive to human intervention. Geothermal energy exploitation, if properly applied, has the potential to offer a feasible way of releasing the strain/thermal energy accumulated, while taming directly or indirectly the NAE bearing a potential disaster, thus turning the destructive earthquake into constructive, sustainable geothermal energy for the common good of human society." On the Role and Mechanism of Anomalous Heat Generation From Low Energy Nuclear Reaction (LENR) During Earthquakes, J. Condensed Matter Nucl. Sci. 39 (2025) 286–294