ОСОБЕННОСТИ ФОРМИРОВАНИЯ ТОНКИХ ПЛЕНОК КРЕМНИЯ, ОСАЖДАЕМЫХ МАГНЕТРОННЫМ РАСПЫЛЕНИЕМ

The surface morphology and optical properties of Si coatings formed by magnetron sputtering were studied using atomic force microscopy, scanning electron microscopy, and spectrophotometry methods. The possibility to influence the surface morphology of coating (filamentous structures and/or round holes) and the location of maxima and minima in reflectance and transmittance via a controllable variation of magnetron sputtering regimes (substrate temperature and bias potential) is shown. Методами атомно-силовой и сканирующей электронной микроскопии, а также спектрофотометрии исследованы морфология поверхности и оптические характеристики тонких Si-покрытий, сформированных методом магнетронного распыления. Показано, что при контролируемой вариации технологических параметров магнетронного распыления таких, как температура подложки и потенциал смещения, можно менять морфологию поверхности пленок Si. Для некоторых режимов осаждения обнаружено появление на поверхности нитевидных структур и/или круглых углублений, изменения положения минимумов и максимумов в оптических спектрах отражения и пропускания.

CREATION OF FACILITIES FOR MECHANIZATION OF MOUNTING AND DISMOUNTING OPERATIONS FOR CLEANING MECHANIZED COMPLEXES FOR PECHORA-RIVER BASIN MINES

Subject of investigation: mechanized complexes for developing coal deposits. Purpose of the work: determination of changes in operation power consumption and traumatism depending on the design of mechanization facilities of mounting and dismounting operations for optimizing their parameters and increasing the effectiveness of complexes. The results of the work include formulation and substantiation of a system of citeria for selecting the most labour-consuming and dangerous mounting and dismounting operations by reference to minimum of operation specific power consumption and minimum cases of traumatism with selection of the optimum mechanization option and use of expert estimates. A mounting machine and supports are designed for the mechanized complexes. Unified Technical Regulations are drawn up for mounting and dismounting operations with consideration of the created mechanisms and this made it possible to save 90% of timber consumption, reduce labour consumption and cut the scope of design work. Field of application: coal design, research and production organizationsAvailable from VNTIC / VNTIC - Scientific & Technical Information Centre of RussiaSIGLERURussian Federatio

Application of Tagged Neutron Method for Detecting Diamonds in Kimberlite

The results of testing a prototype of a separator for detecting diamonds in kimberlite ore using tagged neutron method are discussed. Kimberlite ore was irradiated with fast tagged neutrons with an energy of 14.1 MeV. The elemental content of the tray with kimberlite ore was determined. The criterion for detecting diamond was the presence of excess carbon concentration in a certain region of a kimberlite sample

TANGRA – an experimental setup for basic and applied nuclear research by means of 14.1 MeV neutrons

For investigation of the basic characteristics of 14.1 MeV neutron induced nuclear reactions on a number of important isotopes for nuclear science and engineering, a new experimental setup TANGRA has been constructed at the Frank Laboratory of Neutron Physics of the Joint Institute for Nuclear Research in Dubna. For testing its performance, the angular distribution of γ-rays (and neutrons) from the inelastic scattering of 14.1 MeV neutrons on high-purity carbon was measured and the angular anisotropy of γ-rays from the reaction 12C(n, n′γ)12C was determined. This reaction is important from fundamental (differential cross-sections) and practical (non-destructive elemental analysis of materials containing carbon) point of view. The preliminary results for the anisotropy of the γ-ray emission from the inelastic scattering of 14.1- MeV neutrons on carbon are compared with already published literature data. A detailed data analysis for determining the correlations between inelastic scattered neutron and γ-ray emission will be published elsewhere

TANGRA – an experimental setup for basic and applied nuclear research by means of 14.1 MeV neutrons

For investigation of the basic characteristics of 14.1 MeV neutron induced nuclear reactions on a number of important isotopes for nuclear science and engineering, a new experimental setup TANGRA has been constructed at the Frank Laboratory of Neutron Physics of the Joint Institute for Nuclear Research in Dubna. For testing its performance, the angular distribution of γ-rays (and neutrons) from the inelastic scattering of 14.1 MeV neutrons on high-purity carbon was measured and the angular anisotropy of γ-rays from the reaction 12C(n, n′γ)12C was determined. This reaction is important from fundamental (differential cross-sections) and practical (non-destructive elemental analysis of materials containing carbon) point of view. The preliminary results for the anisotropy of the γ-ray emission from the inelastic scattering of 14.1- MeV neutrons on carbon are compared with already published literature data. A detailed data analysis for determining the correlations between inelastic scattered neutron and γ-ray emission will be published elsewhere