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1Skorokhod ТV. Morphologic structure and possible sources of the AGW generation in ionosphere. Kosm. nauka tehnol. 2011 ;17(2):61-67.
1Skok MV. Proposals for the ISS: «Immunity» Experiment Immune response in microgravity. Kosm. nauka tehnol. 2000 ;6(4):103-103.
1Sitalo VG, 1Litvishko TN, 2Gupal AM, 2Tsvetkov AM. Expert system for creation and optimization of aerospace materials. Kosm. nauka tehnol. 1995 ;1(2):60–64.
1Sinitsin VG. Proposals for the ISS: «Synthesis» Experiment Feasibility of magnetohydrodynamic interferometry in the magnetosphere. Kosm. nauka tehnol. 2000 ;6(4):070-071.
1Shybetskiy VYu. Errors of two-stage gyro in semi-natural conditions of hypersonic flight. Kosm. nauka tehnol. 2014 ;20(2):52-54.
1Shuyenko OV, 2Kozak LV, 1Ivchenko VM. Transient luminous events during thunderstorms and the simulation of electric fields in the lower atmosphere. Kosm. nauka tehnol. 2010 ;16(2):23-34.
1Shuvalov VA, 1Kulagin SN, 2Kochubei GS, 1Tokmak NA. Simulation of effects of the MHD-interaction of bodies with the Earth’s atmosphere in a rarified plasma flow. Kosm. nauka tehnol. 2011 ;17(5):29-39.
1Shuvalov VA, 2Levkovich OA, 3Kochubey GS. Approximate models of plume flows from electric propulsion engines of spacecraft. Kosm. nauka tehnol. 1998 ;4(5):105–109.
1Shuvalov VA, 1Kuchugurnyi Yu.P. Experimental substantiation of effectiveness of conception of artificial mini-magnetosphere as a means of spacecraft motion controlling in the Earth ionosphere. Space Science and Technology. 2018 ;24(2):43-46.
1Shuvalov VA, 2Kochubei GS, 2Lazuchenkov DN. The plume-flows structure of spacecraft thrusters. Kosm. nauka tehnol. 2003 ;9(4):017-025.

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