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In the Seventh cruise of R/V “Professor Logatchev” anomalies of natural electric field (EF), Eh and pS were discovered using a towed instrument package (RIFT) at 14°45′N on the MAR (Logatchev hydrothermal field). The anomalous zone (AZ) is situated close (10–35 m) to two low-temperature venting areas of degrading sulphides and a black smoker (Irina-Microsmoke) forming a distinct buoyant plume. Over or close to the main area of high-temperature venting situated to the south-east from the AZ, no EF or Eh anomalies were observed. According to the results of Mir dives the highly mineralised solutions from smoking craters at the main mound mostly form non-buoyant plumes (reverse-plumes). The buoyant plume structure shows the differentiation of the electrical and Eh fields within the plume. Maxima of the EF, Eh and EH2S anomalies were revealed in the lower part (15 m) of the plume. The negative redox potential plume coupled with a sulphide anomaly is more localized in comparison with the EF. This observation indicates a distinct change in the composition of buoyant plume water, which may be due to the formation and fallout of early formed Fe sulphide particles soon after venting. 相似文献
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V. M. Chechetkin V. F. D’yachenko S. L. Ginzburg V. V. Paleichik N. N. Fimin A. L. Sudarikov 《Astronomy Reports》2009,53(6):501-509
We consider the mechanism for the generation of high-energy cosmic gamma rays through the inelastic interaction of relativistic protons (due to their velocity dispersion) accelerated by a self-consistent electromagnetic field in an electron-positron jet plasma. The velocity dispersion is explained by the growth of a plasma instability in a relativistic jet. 相似文献
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S. L. Ginzburg V. F. D’yachenko V. V. Paleychik A. L. Sudarikov V. M. Chechetkin 《Astronomy Letters》2004,30(6):376-381
Based on the Maxwel-Vlasov equations, we consider the possible generation mechanisms of hard emission through the growth of plasma instabilities in a relativistic jet composed of electrons and protons. The accelerated material of the jet moves by inertia. When a small difference arises between the electron and proton velocities (which may result from the interaction of jet material with background plasma or from the acceleration mechanism) plasma instabilities can grow. The particle distribution functions, which were initially delta functions both in angle and in energy, transform into complex angular and energy dependences. In this case, the probability of collisions between high-energy particles in the jet increases, resulting in hard gamma-ray emission. 相似文献
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Erzova V. A. Sudarikov S. M. Rumynin V. G. Shvarts A. A. 《Doklady Earth Sciences》2023,507(1):S207-S215
Doklady Earth Sciences - The natural radioactivity and background content of anthropogenic radionuclides in groundwater near the Leningrad NPP were studied based on the results of monitoring... 相似文献
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