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Lopatin A. V. Golovachev I. V. Serdyuk N. V. Maschenko E. N. Vislobokova I. A. Dac Le Xuan Phuong Pham Mai Parkhaev P. Yu. Syromyatnikova E. V. 《Doklady Earth Sciences》2022,504(2):372-379
Doklady Earth Sciences - Speleological, geological and paleontological characteristics of the Lang Trang cave in northern Vietnam are presented. Primates Gigantopithecus blacki von Koenigswald,... 相似文献
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Korotaev S. M. Budnev N. M. Serdyuk V. O. Orekhova D. A. Kruglyakov M. S. Kiktenko E. O. Mirgazov R. R. Zurbanov V. L. Gorokhov Ju. V. Ryabov E. V. 《Izvestiya Atmospheric and Oceanic Physics》2018,54(11):1569-1594
Izvestiya, Atmospheric and Oceanic Physics - The vertical component of the electric field Ez in the hydrosphere is not contaminated by the telluric component and therefore can effectively be used... 相似文献
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Korotaev S. M. Budnev N. M. Serdyuk V. O. Kiktenko E. O. Orekhova D. A. 《Izvestiya Physics of the Solid Earth》2022,58(5):706-716
Izvestiya, Physics of the Solid Earth - Abstract—The vertical component of the electric field Ez in the water column can have an almost zero telluric component, which allows effective... 相似文献
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S. M. Korotaev E. O. Kiktenko S. P. Gaidash N. M. Budnev R. R. Mirgazov A. I. Panfilov A. A. Khalezov V. O. Serdyuk V. S. Shneer 《Geomagnetism and Aeronomy》2013,53(6):769-773
Based on the data of deepwater measurements of the electric field’s vertical component in Lake Baikal, the relationship between electric field variations and those in background X-ray solar radiation has been revealed. A high correlation between these variations within periods of more than three months has been discovered. 相似文献
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Mityaev A. S. Safonov O. G. Varlamov D. A. van Reenen D. D. Serdyuk A. A. Aranovich L. Ya. 《Doklady Earth Sciences》2022,507(2):1064-1070
Doklady Earth Sciences - To study the formation of S-type ultra-potassic granitic melts under the conditions of the continental crust, we conducted experiments on partial melting of... 相似文献
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S. M. Korotaev S. P. Gaidash V. S. Shneer V. O. Serdyuk N. M. Budnev R. R. Mirgazov V. B. Buzin A. A. Khalezov A. I. Panfilov 《Izvestiya Physics of the Solid Earth》2011,47(2):147-153
The long-term deep-water measurements of the vertical component of the electric field on a surface-lakebed base revealed unexpectedly high interannual changeability in the amplitudes of its variations in periods ranging from a few hours to several months. This changeability almost equally affects the field components caused by the induction in the water flows and, supposedly, by the closing current of the global electric circuit above the rift fault. We present the evidence for the correlation of this effect with the interannual variability in meteorological activity. However, the physical background of this correlation is trivial only for the electric component associated with the induction and still remains unclear for the field component caused by the closing current, which has much higher amplitude. 相似文献
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Korotaev S. M. Budnev N. M. Serdyuk V. O. Orekhova D. A. Mirgazov R. R. Kiktenko E. O. 《Geomagnetism and Aeronomy》2021,61(2):215-221
Geomagnetism and Aeronomy - Data from a long-term experiment with monitoring of the vertical component of the electric field at the base from the surface to the bottom showed oscillations with... 相似文献
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The vertical component of the electric field along the surface–bottom baseline was measured for several years in the southwestern part of Baikal. The measurements revealed a correlation between long-term variations in the field that were interpreted as variations in the current in the hydrospheric segment of the global electric circuit with intermittent variations in the solar activity. However, the continuous measurement series were no longer than a year, which is shorter than the maximal quasi-period of the alternating variations. The first continuous two-year measurement series was made in 2014–2016. Its analysis shows quite strong variations with quasi-periods of up to 320 days, which correlate with variations in the solar X-ray flux. The effective delay of the correlation is about four days, which is evidence of an indirect effect of solar activity on the vertical current in the hydrosphere by rather slow atmospheric processes. 相似文献
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