Issue 1, 1990
Neutrino-antineutrino pair photoproduction on electron (with consideration for the neutrino electromagnetic properties) and its astrophisical aspects
Neutrino-antineutrino pair photoproduction on electron (with consideration for the neutrino electromagnetic properties) and its astrophisical aspects
B.K. Kerimov, S.M. Zeinalov
The photoneutrino process, $\gamma _{L,R} e^-_{L,R}\to e^- \nu \bar{\nu}$ due to interactions of the neutrino electromagnetic dipole moments ($\mu_{\nu}, d_{\nu}$) with an electron is examined. Expressions have been obtained for the total cross section of the process and for the photoneutrino luminosity of the Fermi electron gas.
Show AbstractBremsstrahlung polarization in the Aharonov-Bohm effect
Bremsstrahlung polarization in the Aharonov-Bohm effect
D.V. Gal'tsov, S.A. Voropaev
Radiative scattering of a relativistic spinless quantum particle by a constant magnetic flux of a thin solenoid is examined. The influence of the Aharonov-Bohm effect on circular polarization of radiation is analyzed.
Show AbstractResonance motions of ring particles of an oblate planet
Resonance motions of ring particles of an oblate planet
I.A. Gerasimov, B.R. Mushailov
Solutions which describe the orbital evolution of ring particles for the first-order resonances have been obtained in terms of a restricted planar three-body problem where the central body is a symmetric spheroid.
Show AbstractLong-wave perturbations in a transmission line with magnetic insulation
Long-wave perturbations in a transmission line with magnetic insulation
O.I. Vasilenko
Consideration is given to the propagation of long-wave perturbations in a longitudinally uniform and magnetically insulated electron flow in a strip line. The speed of perturbation propagation has been found and the applicability limit of the results has been studied.
Show AbstractKinetic theory of excitation of a broad helical wave spectrum by a non-monoenergetic electron beam in a finite magnetic field under conditions of anomalous Doppler effect
Kinetic theory of excitation of a broad helical wave spectrum by a non-monoenergetic electron beam in a finite magnetic field under conditions of anomalous Doppler effect
M.V. Kuzilev, R.V. Romanov
A nonlinear theory of excitation of a broad electromagnetic helical wave spectrum by a hot electron beam in a finite magnetic field under conditions of anomalous Doppler effect is described. The instability stabilization mechanism has been elucidated. The results of numerical calculations and of analytical solutions are presented.
Show Abstract"Superresolution" of classical signals in nonstationary quantum noise
"Superresolution" of classical signals in nonstationary quantum noise
A.V. Gusev, V.V. Kulagin
A method based on superresolution algorithm is proposed for restoring signals in nonstationary noise with a frequency-dependent compression. The maximum attainable accuracy of restoration rises with increasing noise compression coefficient.
Show AbstractAngular and energy distributions of secondary ions sputtered from polycristals
Angular and energy distributions of secondary ions sputtered from polycristals
V.M. Bukhanov, K.F. Minnebaev, I.F. Urazgil'din, V.S. Chernysh
The results of experimental investigation of the angular and energy distributions of secondary ions sputtered from aluminum polycrystals under argon ion bombardment are presented. Some conclusions have been drawn concerning the applicability of various sputtering and ion emission models.
Show AbstractLight diffraction on 3D phase gradings; the waveguide mode
Light diffraction on 3D phase gradings; the waveguide mode
A.L. Aleksandrovskii, V.V. Tarasenko
Taking into account perturbation of the wave number which corresponds to the "smearing" of the wave surface enables us to determine the waveguide mode of diffraction. The waveguide mode occurs when a perturbation overlaps the detunings.
Show AbstractThe effect of the Raman contribution to nonlinear susceptibility on the femtosecond soliton propagation
The effect of the Raman contribution to nonlinear susceptibility on the femtosecond soliton propagation
V.A. Vysloukh, A.N. Matveev, I.Yu. Petrova
The effect of the Raman contribution to nonlinear susceptibility on the propagation of femtosecond optical solitons in lightguide fibers has been studied by numerical experimental methods. The results reveal the dependence of the self-frequency shift of a soliton pulse on the Raman scattering line parameters.
Show AbstractExcitation energy storage and transfer in phosphors based on barium fluorohalides
Excitation energy storage and transfer in phosphors based on barium fluorohalides
A.M. Gurvich, V.V. Mikhailin, M.G. Myagkova, M.A. Terekhin
The excitation spectra and the luminescence energy yield from non-activated and Eu- and Sm-activated BaFCl and BaFBr measured by the synchrotron radiation method are presented. The features of the light sum storage and emission by these phosphors and the effect of an excess of $BaF_2$ and the Fe, Co, Ni, Cu, and Pr impurities are discussed.
Show AbstractSaturation effect in nonstationary active spectroscopy: three-wave model
Saturation effect in nonstationary active spectroscopy: three-wave model
S.Yu. Nikitin, L.P. Platonov
This work develops a three-wave model of the saturation effect in nonstationary active Raman spectroscopy which allows for simultaneous scattering of a probing laser pulse in the Stokes and anti-Stokes regions. A formula has been obtained to estimate the Raman scattering cross section from measured parameters.
Show AbstractPhotoemission study of surface defects
Photoemission study of surface defects
M.B. Guseva, V.G. Babaev, S.Yu. Kovalenko, N.N. Nikiforova, V.V. Khvostov
Results of a photoemission study of radiation-induced defects on the NaCl crystal surface are presented. For the first time, data on photoemission from defects are interpreted on the basis of a model which takes into account the reflection and passage of an electron wave through the surface potential barrier of a solid.
Show AbstractThe magnetocaloric effect in Tb-Dy alloys in the region of the magnetic phase transition
The magnetocaloric effect in Tb-Dy alloys in the region of the magnetic phase transition
S.A. Nikitin, A.M. Tishin, P.I. Leontyev
The magnetocaloric effect in tebrium-dysprosium alloys has been investigated. It is shown that the efficiency of employing rare-earth metals and their alloys in magnetic refrigerators depends on the range of existence of antiferromagnetic structures and the fields in which they are destroyed.
Show AbstractDescription of phenomenological models of phase transitions by the methods of the catastrophe theory
Description of phenomenological models of phase transitions by the methods of the catastrophe theory
S.V. Pavlov
The theorem of the catastrophe theory are used to show that all the phase transitions in the system with no more than three order parameters can phenornenologically be described by one of 15 classes of functions called min-functions.
Show AbstractThe transmission factor of uniformly bent X-ray waveguides in the "whispering" mode
The transmission factor of uniformly bent X-ray waveguides in the "whispering" mode
V.A. Bushuyev, M.N. Orudzhaliev, R.N. Kuz'min
A theoretical analysis of the transmission factor of X-ray waveguides as a function of the waveguide length, bend radius, distance between the walls, and the beam divergence has been carried out for the case of total external reflection. The feasibility of deflection of X-ray beams by angles of up to 10-12° with an efficiency of about 10% has been demonstrated.
Show AbstractCalculation of some electronic and atomic properties of nickel by the method of resonant model potential
Calculation of some electronic and atomic properties of nickel by the method of resonant model potential
V.M. Silonov, O.V. Kris'ko, A.A. Katsnel'son
Within the framework of the resonant model potential, expressions have been obtained for the form factor of a model Hamiltonian and the characteristic function of a transition metal. The expressions were used to calculate the energy band structure and phonon spectra of crystalline nickel, and the electrical resistivity of liquid nickel.
Show AbstractOn spherically symmetric solutions in relativistic gravitation theory
On spherically symmetric solutions in relativistic gravitation theory
A.A. Vlasov
The general form of spherically symmetric solutions has been obtained for the relativistic gravitation theory. In terms of this theory, the spherically symmetric distributions of matter have been shown not to emit gravitational waves.
Show AbstractRadiative transitions in one-dimensional hydrogen atom
Radiative transitions in one-dimensional hydrogen atom
V.B. Gostev, I.V. Gostev, A.R. Frenkin, G.A. Chizhov
The one-dimensional hydrogen atom (1H) model proposed by the present authors earlier [1, 2] is used to demonstrate that the probabilities of spontaneous transitions in 1H are of the same order as in three-dimensional hydrogen atom.The transitions have been shown to be in principle observable.
Show AbstractSynthesis of two-component interference coatings with a prescribed characteristic in certain ranges of light wavelengths and incidence angles
Synthesis of two-component interference coatings with a prescribed characteristic in certain ranges of light wavelengths and incidence angles
A.V. Tikhonravov, S.V. Grebenshchikov
A numerical method is described for solving the problem of obtaining an optical coatings with a prescribed transmittance in certain ranges of light wavelengths and incidence angles. Examples of synthesizing wide-band antireflection coatings designed for operation in the 0-45° range of light incidence angles are given.
Show AbstractThe effect of ultraviolet irradiation on semiconductor-metal transition in $VO_2$ films
The effect of ultraviolet irradiation on semiconductor-metal transition in $VO_2$ films
N.L. Levshin, S.Yu. Poroikov
Irradiation by the UV light affects the semiconductor-metal transition in $VO_2$ films: changes are observed in resistance jump and transition temperature, and the hysteresis loop becomes wider.
Show AbstractHeating of electrons in compensated semiconductor Ge<Au, Sb>
Heating of electrons in compensated semiconductor Ge<Au, Sb>
I.A. Kurova, A.M. Idalbaev
The temperature dependence of the Hall mobility in a compensated semiconductor Ge<Au, Sb> exposed to infrared illumination and in the dark was studied at 5 K < T < 100 K. The effect of electric field on the Hall mobility at low temperatures was also investigated. The growth and saturation of the mobility during the infrared illumination at T < 8 К were shown to be due to a photostimulated heating of electrons; the ratio $\tau_{\epsilon}/\tau$ was evaluated.
Show AbstractAdaptive focusing of laser radiation on water surface
Adaptive focusing of laser radiation on water surface
A.L. Kuz'minskii, V.I. Shmal'gauzen
The results of an experimental study of the possibility of adaptive focusing of laser radiation on a perturbed water surface are presented. The statistical criteria of the focusing are shown to be applicable to the problem of maximization of the radiant flux density on water surface.
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