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Information × Registration Number 0215U001175, 0111U007953 , R & D reports Title Experimental and theoretical investigation of particle flux interaction processes with substance popup.stage_title Head Bizyukov Olexandr Anatoliiovich, Registration Date 30-01-2015 Organization Kharkov National University named after V.N. Karazin popup.description2 The subject of investigation is electron and ion beams. The purpose of the work is carrying out the experimental and theoretical investigations of charged particles and waves interaction with substance and high technologies on its base development. The 76 references about quartz ionoluminescence has been worked up and detailed experimental study of quartz glass by ionoluminescence method under irradiation of hydrogen ions with the energy of 420 keV H2 + and 210 keV H + and absorption doses up to 4,35 х 10^10 Gr was carried out. The optimal parameters for efficiency increasing of focusing reversing magnetic system of Hall ion source were calculated. The charged and current compensation of focused ion beam has been investigated. The effect of gas-discharge plasma density and the energy of an electron beam on the potential of macroparticle were studied. It was shown that rising plasma density and electron beam energy follows intense heating of macroparticle with thermionic emission that decreases one's potential magnitude. It has been experimentally shown, that spatially modulated additional magnetic field in the anode region prevents transition from a magnetron discharge mode to an arc. In the Penning discharge with metal-hydride cathode the intense axial electrons output through an apperture in the center of the cathode-reflector has been discovered. It was shown that it is caused by HF instability development under hydrogen being in nonequilibrium state desorption from the metal hydride cathode. It was shown that using the diaphragm materials and dimensions manages their transition radiation spectrum. For the combined electric and magnetic dipole measured average power was 700 - 800 mW, which is more than in order of magnitude higher than the average power on the system diaphragm. Product Description popup.authors Бізюков О.А. Кононенко С. Муратов В.. Середа І. Середа К. popup.nrat_date 2020-04-02 Close