We give an alternative description of the 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 core. Analyzing the un...We give an alternative description of the 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 core. Analyzing the uncertainty of antineutrino spectrum of georeactor origin, we show that the theoretical (which takes into account the soliton-like nuclear georeactor) total reactor antineutrino spectra describe with good accuracy the experimental KamLAND-data over the years of 2002-2007 and 2002-2009, respectively. At the same time, the parameters of mixing (△m221=2.5×10-5 eV2, tan2θ12=0.437) calculated within the framework of georeactor hypothesis substantially differ from the parameters of mixing ((△m221=7.49×10-5 eV2, tan2θ12=0.436) obtained in KamLAND-experiment for total exposure over the period of 2002-2009. By triangulation of KamLAND and Borexino data we have constructed the coordinate location of soliton-like nuclear georeactors on the boundary of the liquid and solid phases of the Earth core.展开更多
The article presents the concept of using powdered basalt as a mineral fertilizer and replacing radioactive phosphate rock with it. In addition to the characteristics of phosphate rock deposits and the ecological effe...The article presents the concept of using powdered basalt as a mineral fertilizer and replacing radioactive phosphate rock with it. In addition to the characteristics of phosphate rock deposits and the ecological effects of the use of phosphorus fertilizers, the issue of the genesis of phosphate deposits was discussed. Phosphate rock contains natural radioactive elements whose origin is debatable. It is generally accepted that all elements are formed in a thermonuclear fusion reaction. The natural radioactivity of the elements results only from the instability of atomic nuclei, with a large advantage of neutrons over protons. The view of the cosmic origin of elements in the primary nucleosynthesis of the Big Bang is opposed to the view of the generation of elements in the present-day core of the Earth. Depending on the adopted view, extremely different conclusions can be drawn. If it is assumed that natural radioactive elements were formed in space billions of years ago, their number decreases as they decay. Conversely, if these elements form in the Earth’s core and appear as a component of basalt magma, their amount increases exponentially. Referring to publications on the theory of natural forces of nature, the article explains the phenomenon of spontaneous formation of fusion reactors. At the same time, the phenomenon of the expansion of the globe was explained, manifested by a tenfold increase in the volume of the globe over the last 200 million years. Growing basalt magma has a stabilized mineral composition and contains traces of uranium. Therefore, in the basalt rock the uranium concentration is low (<1 ppm), while in the phosphate rock uranium precipitates from concentrated igneous solutions and its concentration increases to 600 ppm.展开更多
文摘We give an alternative description of the 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 core. Analyzing the uncertainty of antineutrino spectrum of georeactor origin, we show that the theoretical (which takes into account the soliton-like nuclear georeactor) total reactor antineutrino spectra describe with good accuracy the experimental KamLAND-data over the years of 2002-2007 and 2002-2009, respectively. At the same time, the parameters of mixing (△m221=2.5×10-5 eV2, tan2θ12=0.437) calculated within the framework of georeactor hypothesis substantially differ from the parameters of mixing ((△m221=7.49×10-5 eV2, tan2θ12=0.436) obtained in KamLAND-experiment for total exposure over the period of 2002-2009. By triangulation of KamLAND and Borexino data we have constructed the coordinate location of soliton-like nuclear georeactors on the boundary of the liquid and solid phases of the Earth core.
文摘The article presents the concept of using powdered basalt as a mineral fertilizer and replacing radioactive phosphate rock with it. In addition to the characteristics of phosphate rock deposits and the ecological effects of the use of phosphorus fertilizers, the issue of the genesis of phosphate deposits was discussed. Phosphate rock contains natural radioactive elements whose origin is debatable. It is generally accepted that all elements are formed in a thermonuclear fusion reaction. The natural radioactivity of the elements results only from the instability of atomic nuclei, with a large advantage of neutrons over protons. The view of the cosmic origin of elements in the primary nucleosynthesis of the Big Bang is opposed to the view of the generation of elements in the present-day core of the Earth. Depending on the adopted view, extremely different conclusions can be drawn. If it is assumed that natural radioactive elements were formed in space billions of years ago, their number decreases as they decay. Conversely, if these elements form in the Earth’s core and appear as a component of basalt magma, their amount increases exponentially. Referring to publications on the theory of natural forces of nature, the article explains the phenomenon of spontaneous formation of fusion reactors. At the same time, the phenomenon of the expansion of the globe was explained, manifested by a tenfold increase in the volume of the globe over the last 200 million years. Growing basalt magma has a stabilized mineral composition and contains traces of uranium. Therefore, in the basalt rock the uranium concentration is low (<1 ppm), while in the phosphate rock uranium precipitates from concentrated igneous solutions and its concentration increases to 600 ppm.
