3–14
Belyaev B.A., Izotov A.V., Leksikov An.A., Solovev P.N., Tyurnev V.V. Theoretical investigation of frequency multiplier based on irregular quarter-wave microstrip resonator with thin magnetic film // Izvestiya vuzov. Fizika. 2020. № 9. P. 3–14. DOI: 10.17223/00213411/63/9/3
15–25
Nechaev V.N., Shuba A.V. About magnetoelectric effect in a two-layer system ferromagnetic-piezoelectric // Izvestiya vuzov. Fizika. 2020. № 9. P. 15–25. DOI: 10.17223/00213411/63/9/15
26–29
Makarenko A.N., Timoshkin A.V. Holographic description of the early universe // Izvestiya vuzov. Fizika. 2020. № 9. P. 26–29. DOI: 10.17223/00213411/63/9/26
30–32
Shishanin O.E. Additional study of the spectral properties of synchrotron light // Izvestiya vuzov. Fizika. 2020. № 9. P. 30–32. DOI: 10.17223/00213411/63/9/30
33–37
Goldvarg T.B., Shapovalov V.N. Properties of inertia of a solid body // Izvestiya vuzov. Fizika. 2020. № 9. P. 33–37. DOI: 10.17223/00213411/63/9/33
38–43
Fisanov V.V. Normal waves in the electromagnetic metachiral isotropic medium with losses // Izvestiya vuzov. Fizika. 2020. № 9. P. 38–43. DOI: 10.17223/00213411/63/9/38
44–49
Perevoshchikov D.A., Sobolev V.Val., Kalugin A.I., Antonov E.A. Permittivity spectra and structure of d-bands of germanium telluride, tin telluride and lead telluride // Izvestiya vuzov. Fizika. 2020. № 9. P. 44–49. DOI: 10.17223/00213411/63/9/44
50–54
Redkin R.A., Kobtsev D.A., Bereznaya S.A., Korotchenko Z.V., Novikov V.A., Sarkisov S.Y.U. Methods of preparation and temporal stability of GaSe and InSe nanolayers // Izvestiya vuzov. Fizika. 2020. № 9. P. 50–54. DOI: 10.17223/00213411/63/9/50
55–62
Simakhin V.A., Shamanaeva L.G., Avdyushina A.E. Robust parametric estimates of inhomogeneous experimental data // Izvestiya vuzov. Fizika. 2020. № 9. P. 55–62. DOI: 10.17223/00213411/63/9/55
63–67
Krivosheina M.N., Tuch E.V. Features of the processes of deformation of single-crystal titanium nickelide under the action of a comprehensive compression pulse // Izvestiya vuzov. Fizika. 2020. № 9. P. 63–67. DOI: 10.17223/00213411/63/9/63
68–71
Muslov S.A., Polyakov D.I., Lotkov A.I., Stepanov A.G., Arutyunov S.D. Measurement and calculation of the parameters of mechanical properties of silicone rubber // Izvestiya vuzov. Fizika. 2020. № 9. P. 68–71. DOI: 10.17223/00213411/63/9/68
72–79
Sergeev V.P., Kalashnikov M.P., Sungatulin A.R., Sergeev O.V., Zharkov S.Yu. About the mechanism for reducing the adhesion wear of the copper friction pair in the inert atmosphere by the nitrogen ions implantation method // Izvestiya vuzov. Fizika. 2020. № 9. P. 72–79. DOI: 10.17223/00213411/63/9/72
80–85
Smolin A.Yu., Eremina G.M. About the influence of porous coating fluid saturation on the mechanical behavior of the coating-substrate system under contact loading // Izvestiya vuzov. Fizika. 2020. № 9. P. 80–85. DOI: 10.17223/00213411/63/9/80
86–88
Khon Yu.A., Zuev L.B. Relaxation mode of macroscopic plastic deformation in metals // Izvestiya vuzov. Fizika. 2020. № 9. P. 86–88. DOI: 10.17223/00213411/63/9/86
89–96
Chertova N.B., Grinyaev Yu.V. Strains analysis at the wave propagation throught he contact layer of the elastic solids // Izvestiya vuzov. Fizika. 2020. № 9. P. 89–96. DOI: 10.17223/00213411/63/9/89
97–101
Pervikov A.V., Lozhkomoev A.S., Bakina O.V., Lerner M.I. Formation of phase composition of Ag-Cu bimetallic nanoparticles obtained by electrical explosion of wires // Izvestiya vuzov. Fizika. 2020. № 9. P. 97–101. DOI: 10.17223/00213411/63/9/97
102–111
Kizhaev F.G., Medvedev N.N., Starygina O.V. Energy spectrum and density of states in 3d-transient metals and alloys // Izvestiya vuzov. Fizika. 2020. № 9. P. 102–111. DOI: 10.17223/00213411/63/9/102
112–118
Iskenderov E.G., Dvoryanchikov V.I., Dibirov Y.A. Time sampling method in thermal analysis for condensed media // Izvestiya vuzov. Fizika. 2020. № 9. P. 112–118. DOI: 10.17223/00213411/63/9/112
119–125
Osipov D.A., Smirnov I.V., Grinyaev K.V., Ditenberg I.A., Korchagin M.A. Influence of TiC powder particles on structural features and mechanical properties of spark plasma sintered Ni3Al // Izvestiya vuzov. Fizika. 2020. № 9. P. 119–125. DOI: 10.17223/00213411/63/9/119
126–131
Shekhovtsov V.V., Vlasov V.A., Skripnikova N.K., Semenovykh M.A. Structure formation of concrete matrix modified by non-standard particles // Izvestiya vuzov. Fizika. 2020. № 9. P. 126–131. DOI: 10.17223/00213411/63/9/126
132–140
Kuksgauzen I.V., Chumlyakov Y.I., Kireeva I.V., Poklonov V.V., Kuksgauzen D.A., Kirillov V.A., Lauhoff C., Niendorf T., Krooß P. Influence of heat treatment and stress state on the functional and mechanical properties of the [001]-oriented single crystals of fenicoalti alloy // Izvestiya vuzov. Fizika. 2020. № 9. P. 132–140. DOI: 10.17223/00213411/63/9/132
141–149
Mamaev A.I., Dolgova YU.N., Beletskaya E. Yu., Mamaeva V.A., Baranova T.A. Growth of nanostructured nonmetallic inorganic coatings obtained by nanoscale localization of high-energy flows at the boundary of the phase separation // Izvestiya vuzov. Fizika. 2020. № 9. P. 141–149. DOI: 10.17223/00213411/63/9/141
150–156
Lisitsyn V.M., Lisitsyna L.A., Golkovski M.G., Mussakhanov D.A., Ermolaev A.V. Formation of luminescing high-temperature ceramics under powerful flux of high-energy electrons // Izvestiya vuzov. Fizika. 2020. № 9. P. 150–156. DOI: 10.17223/00213411/63/9/150
157–164
Geints Y.E., Zemlyanov A.A., Minina O.V. Diffraction-ray optics of femtosecond laser pulses under normal dispersion conditions in air // Izvestiya vuzov. Fizika. 2020. № 9. P. 157–164. DOI: 10.17223/00213411/63/9/157
165–171
Kozevnikov V.A., Privalov V.E. The laser gain under nonhomogeneous boundary conditions // Izvestiya vuzov. Fizika. 2020. № 9. P. 165–171. DOI: 10.17223/00213411/63/9/165
172–177
Bekhtereva E.S., Gromova O.V., Glushkov P.A., Belova A.S. On the method of eigenvalues determination of the “truncated” matrix with morse hamiltonian as an example // Izvestiya vuzov. Fizika. 2020. № 9. P. 172–177. DOI: 10.17223/00213411/63/9/172
178–179
Petrov D.V., Matrosov I.I., Zaripov A.R., Tanichev A.S. Self-broadening and shift coefficients of rotational-vibrational raman lines of nitrogen and oxygen in the pressure range of 1-50 atm // Izvestiya vuzov. Fizika. 2020. № 9. P. 178–179. DOI: 10.17223/00213411/63/9/178
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К сведению авторов // Izvestiya vuzov. Fizika. 2020. № 9. P. 180.
