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131 results on '"L. M. Vasilyak"'

1. Colossal magnetic fields in high refractive index materials at microwave frequencies

Author

B. Luk`yanchuk, L. M. Vasilyak, V. Ya. Pecherkin, S. P. Vetchinin, V. E. Fortov, Z. B. Wang, R. Paniagua-Domínguez, and A. A. Fedyanin

Subjects
Medicine, Science
Abstract

Abstract Resonant scattering of electromagnetic waves is a widely studied phenomenon with a vast range of applications that span completely different fields, from astronomy or meteorology to spectroscopy and optical circuitry. Despite being subject of intensive research for many decades, new fundamental aspects are still being uncovered, in connection with emerging areas, such as metamaterials and metasurfaces or quantum and topological optics, to mention some. In this work, we demonstrate yet one more novel phenomenon arising in the scattered near field of medium sized objects comprising high refractive index materials, which allows the generation of colossal local magnetic fields. In particular, we show that GHz radiation illuminating a high refractive index ceramic sphere creates instant magnetic near-fields comparable to those in neutron stars, opening up a new paradigm for creation of giant magnetic fields on the millimeter's scale.

Published
2021
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2. Resonant microwave fields and negative magnetic response, induced by displacement currents in dielectric rings: theory and the first experiments

Author

A. B. Shvartsburg, V. Ya. Pecherkin, L. M. Vasilyak, S. P. Vetchinin, and V. E. Fortov

Subjects
Medicine, Science
Abstract

Abstract The theoretical basis and experimental verification of resonant phenomena in the electromagnetic fields generated by displacement current in the near zone of dielectric ring is presented. According to the traditional viewpoint, the dielectric has an influence on the electric field inside resonator. To the contrary, we demonstrate that the dielectric ring exhibits magnetic properties at resonance. The sliding incidence of plane microwave on this weakly absorbing ring is shown to provide the sharp and deep resonance in the components of generated field; this low loss circuit is operating as a resonant dielectric magnetic dipole. Splitting and broadening of resonance in the pair of these dipoles dependent upon their mutual arrangement is recorded. The phase shift equal to π between the magnetic components of incident and generated wave indicating the formation of negative magnetic response is demonstrated. Perspectives of using of this simple sub wavelength resonant magnetic dipoles in the all-dielectric circuitry are discussed.

Published
2017
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9. Resonant reflection of plane microwave electromagnetic waves by the linear dielectric-ring structures

Author

L. M. Vasilyak, O. D. Volpyan, A. I. Kuzmichev, Yu. A. Obod, V. Ya. Pecherkin, and P. A. Privalov

Subjects
Condensed Matter Physics
Abstract

Artificial materials with negative magnetic and dielectric permittivity have unique electrodynamic properties that are not present in natural materials. We present the results of studying of the main magnetic LC resonance induced by a plane electromagnetic wave of GHz range in the linear structures of subwavelength dielectric ring elements with a high relative permittivity. The dielectric constant of the ring material (capacitor ceramics) is 160. Resonant scattering on the main magnetic mode and wave properties of linear structures consisting of subwavelength dielectric elements in the form of flat thin rings were studied. A single ring or ring structures were arranged in such a way that the vectors of the electric and magnetic fields of a plane incident electromagnetic wave were parallel to the plane of the ring, whereas the wave vector was perpendicular to the plane of the ring. Linear structures consisting of two or three rings were oriented along the magnetic vector of the incident wave. The magnetic field probe was placed on the line of the axis of symmetry of the ring and structures relative to the wave vector at the side of the structures most distant from the antenna. The spectra of transmitted radiation were measured during resonant excitation of magnetic fields in a system of dielectric rings in the near (distance — 2 mm) and remote (distance — 30 mm) zones from the ring. It is shown that in the near wave zone, splitting of the resonant frequency occurs due to mutual inductance and interaction of the rings. As the number of rings increases, the number of additional peaks also increases. A bandwidth of ~200 MHz with an amplitude 25 dB greater than the amplitude of the incident electromagnetic wave in the specified spectrum appears between the split levels. In the far zone, the transmitted radiation at the resonance frequency for a single ring practically does not change due to the splitting of this resonance frequency due to the interaction of the rings in the structure. The results obtained can be used in the development of new materials.

Published
2022

11. Linear Quadrupole Paul Trap with a Charged Filament

Author

L. M. Vasilyak, V. I. Vladimirov, L. V. Deputatova, V. Ya. Pecherkin, R. A. Syrovatka, and V. S. Filinov

Subjects
Radiation, Electrical and Electronic Engineering, Condensed Matter Physics, Electronic, Optical and Magnetic Materials
Published
2021

12. Determination and control of ion parameters in complex plasma of a DC discharge

Author

D. N. Polyakov, V V Shumova, and L. M. Vasilyak

Subjects
Materials science, Complex plasma, Physics::Plasma Physics, Plasma parameters, Electric field, Diagram, Dissipative system, Electron, Plasma, Atomic physics, Condensed Matter Physics, complex mixtures, Ion
Abstract

The complex plasma, comprising low-pressure DC discharge plasma and charged micro-particles, represents a trap, which can accumulate and localize ions. On the surface of the micro-particles, a loss of ions and electrons always occurs. These additional losses can lead to a decrease in the ion and electron densities in the plasma bulk. However, in most cases, the collective effect of the interaction between the discharge plasma and the dust cloud leads to an increase in the ion density — both around and inside the dust cloud — in comparison with that in pure plasma at the same discharge currents. The complex plasma represents an open dissipative synergetic system. Feedbacks between plasma processes allow one to control its properties with the use of external influences of various physical fields. Such influences thus represent a tool for controlling the dust cloud parameters and the ion density. In this Letter, we report a method of determination of the ion density inside a dust cloud using the electric field-current diagram. This method is based on the statement that only a single electric field can relate to the particular values of the ion density, the discharge and the dust cloud parameters. Our method includes the procedure of imposing the electric field-current diagram to the ion density-current diagram. For calculation of plasma parameters, the fluid model of a DC discharge with micro-particles is employed. The method, proposed herein, allows us to find the conditions, under which the ion density in plasma with micro-particles is less than that in pure plasma without micro-particles — or vice versa, increases up to five times.

Published
2021

13. AFM-MS for Protein Analysis of Plasma Samples of Patients with Ovarian Cancer

Author

L. M. Vasilyak, Yu. D. Ivanov, Anna L. Kaysheva, V. G. Nikitaev, E. O. Ivanov, A. N. Pronichev, Konstantin Chingin, Vadim S. Ziborov, N. D. Ivanova, Kristina A. Malsagova, A. A. Valueva, Rahman Matiur, and Tatyana O. Pleshakova

Subjects
010302 applied physics, Chromatography, Plasma samples, Atomic force microscopy, Substrate (chemistry), medicine.disease, 01 natural sciences, Mass spectrometric, Electronic, Optical and Magnetic Materials, 010309 optics, Targeted mass spectrometry, 0103 physical sciences, medicine, Molecule, Target protein, Ovarian cancer
Abstract

An atomic force microscope (AFM) is a molecular detector that allows the recording of individual proteins and protein complexes on the surface of an atomically flat substrate, the AFM chip. Registration of target proteins is carried out after the fishing procedure — catching out of proteins from the volume of the analyzed solution to a surface of a small area (sensory zone of the chip) modified by affinity reagents against the target protein. The use of the procedure of biospecific enrichment makes it possible to effectively concentrate the molecules of the target proteins in an amount sufficient for the subsequent mass spectrometric analysis for early diagnosis of ovarian cancer in blood samples.

Published
2019

18. Ion confinement efficiency and ionization balance in a complex DC discharge plasma

Author

D N Polyakov, V V Shumova, and L M Vasilyak

Subjects
Condensed Matter Physics
Abstract

We consider the efficiency of an ion confinement inside a cloud of charged microparticles in a low-pressure DC discharge. To describe the ion confinement efficiency in such complex plasma, we propose the indicators calculated taking into account the processes responsible for the generation, the losses, and the accumulation of ions in a cloud of charged microparticles in a plasma using a fluid model. The efficiency of ion accumulation by a microparticle cloud shows the ratio of the average ion densities in discharge with microparticles and without them. The efficiency of ion accumulation by a microparticle shows the difference of average ion densities in a discharge with microparticles and without them, related to microparticle number density. The specific power costs of the existence of one ion in a microparticle cloud determines the linear power costs of the discharge in a cloud related to the linear number of ions in it. The power efficiency of ion accumulation by a microparticle cloud is defined as a ratio of specific power costs in a discharge without microparticles, to specific power costs of ion existence in a cloud. A strong dependence of indicators on the microparticle number density has been revealed. Inefficient conditions of ion confinement inside a cloud are found. Experimental data on dynamic instabilities of a discharge with microparticles was analyzed. It is found that efficiency of ion confinement is connected with dynamic processes in complex plasma. The limiting microparticle number density is shown to serve as the criterion of the occurrence of plasma instability. Exceeding the limiting microparticle number density results, generally, in the development of dynamic instability of complex plasma, and, in inefficient states, in quenching of the discharge.

Published
2022

20. SURVIVAL OF MICROORGANISMS ON TEST OBJECTS DURING VACUUMIZATION

Author

Е.А. Deshevaya, O.S. Tsygankov, А.А. Guridov, E.V. Shubralova, L M Vasilyak, N.D. Novikova, V.Ya. Pecherkin, and S.P. Korolev Rocket

Subjects
010504 meteorology & atmospheric sciences, Microorganism, 0103 physical sciences, Environmental science, General Medicine, Food science, 010303 astronomy & astrophysics, 01 natural sciences, General Biochemistry, Genetics and Molecular Biology, 0105 earth and related environmental sciences, Test (assessment)
Published
2018

23. Coulomb stable structures of charged dust particles in a dynamical trap at atmospheric pressure in air

Author

L M Vasilyak, V I Vladimirov, L V Deputatova, D S Lapitsky, V I Molotkov, V Ya Pecherkin, V S Filinov, and V E Fortov

Subjects
Science, Physics, QC1-999
Abstract

A mathematical simulation of a dust particle's behavior in the electrodynamic linear quadrupole trap with closing end electrodes allowed us to reveal several features of the phenomena. Regions of stable confinement of a single particle, in dependence of frequency and charge-to-mass ratio, were determined. With an increase of the medium's dynamical viscosity, the region for confining charged particles by the trap becomes wider. We obtained values of the maximum quantities of charged particles confined by the trap at atmospheric pressure in air. Firstly, we presented observations of ordered Coulomb structures of charged dust particles obtained in the quadrupole trap in air at atmospheric pressure. The structures consisted of positively charged oxide aluminum particles 10–15 μ m in size and hollow glass microspheres 30–50 μ m in diameter. The ordered structure could contain particles of different sizes and charges. The trap could confine a limited number of charged particles. The ordered structures of charged micro-particles obtained in the experiments can be used to study Coulomb systems without neutralizing the plasma background and action of ion and electron flows, which are always present in non-homogeneous plasma.

Published
2013
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32. Pulsed electrical breakdown of conductive water with air bubbles

Author

S. P. Vetchinin, Eduard Son, V A Panov, V.Ya. Pecherkin, and L M Vasilyak

Subjects
business.industry, Electrode, Electrical breakdown, Optoelectronics, Plasma, Electric potential, Condensed Matter Physics, business, Electrical conductor, Electromagnetic radiation, Electromagnetic pulse
Published
2019

36. Method for measuring the absorbed energy in nanosecond electric discharges

Author

L. M. Vasilyak and A. V. Krasnochub

Subjects
Materials science, business.industry, Analytical chemistry, Reverse current, Surfaces and Interfaces, Nanosecond, Industrial and Manufacturing Engineering, Surfaces, Coatings and Films, Electric discharge in gases, Nonlinear system, Optics, Energy absorbing, Energy absorption, business, Shunt (electrical)
Abstract

A method for measuring the energy absorbed under a nonlinear load that employs a reverse current shunt is described. The design features of the reverse current shunt and the peculiarities of its use to study high-voltage (10–100 kV) pulses with a nanosecond duration are considered. The experimental results of applying this method to the investigation of the energy absorption during high-voltage pulse gas discharge are presented.

Published
2013

37. Glow Discharge Positive Column with Dust Particles in Neon

Author

L. M. Vasilyak, V V Shumova, and D. N. Polyakov

Subjects
Glow discharge, Materials science, Dust particles, chemistry.chemical_element, Astrophysics::Cosmology and Extragalactic Astrophysics, Electron, Condensed Matter Physics, Neon, chemistry, Electric field, Astrophysics::Solar and Stellar Astrophysics, Particle, Astrophysics::Earth and Planetary Astrophysics, Atomic physics, Astrophysics::Galaxy Astrophysics, Column (data store)
Abstract

Experimental and numerical study of positive column of glow discharge in neon with dust particles is presented. The influence of dust structures on integral parameters was measured and simulated. Spatial distributions of electrons and electric field configuration in presence of dust cloud are represented. The reverse radial electric field direction is shown to appear within the dust cloud at high dust particle concentration. The current-voltage characteristics of discharge in neon with and without dust particles are represented. (© 2013 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Published
2013

38. Positive column of glow discharge with dust particles

Author

D. N. Polyakov, V V Shumova, and L. M. Vasilyak

Subjects
Free electron model, Glow discharge, Chemistry, Charge (physics), Surfaces and Interfaces, Electron, Plasma, Industrial and Manufacturing Engineering, Surfaces, Coatings and Films, Ion, Physics::Plasma Physics, Electric field, Atomic physics, Diffusion (business)
Abstract

The effect of microparticles on the current-voltage characteristics (CVC) and on the distribution of plasma components in a positive column of a glow discharge in air is studied both experimentally and numerically. The analysis is carried out on the basis of a diffusion description of the plasma of a discharge and the description of flows of ions and electrons onto the surfaces of dust particles in the orbit motion limited approximation. The CVC change is found to be connected with an increase in the volumetric losses of the charge on particles and the drift of a substantial part of the free electrons onto the particles. The radial distributions of the plasma components, the radial electric field, and the charges of the particles are calculated. The effect of a dust cloud on the configuration of an electric field and the CVC of a positive column of a glow discharge is analyzed.

Published
2013

39. Simulations of the neon DC discharge with dust-void

Author

V V Shumova, L. M. Vasilyak, and D. N. Polyakov

Subjects
Glow discharge, Materials science, chemistry.chemical_element, Astrophysics::Cosmology and Extragalactic Astrophysics, Electron, Plasma, law.invention, Neon, chemistry, Physics::Plasma Physics, law, Electric field, Atom, Electron temperature, Astrophysics::Earth and Planetary Astrophysics, Gas-filled tube, Atomic physics, Astrophysics::Galaxy Astrophysics
Abstract

Plasma with dust structures containing internal cavities (dust-void) was numerically investigated. The radial profiles of plasma components and the radial and longitudinal components of the electric field were calculated on the base of diffusion/drift model developed for the positive column of glow discharge in neon with dust particles [1]. The formation, drift, diffusion and losses of electrons, ions and metastable neon atoms were considered in plasma bulk, on the discharge tube walls and on the dust particle surface [2]. The electron temperature, transport coefficients and rate coefficients for electron impact reactions were calculated using the electron Boltzmann equation solver BOLSIG+ combined with the SIGLO Database. The dust particle charging was described in the approximation of collision enhanced collection. The distribution of dust particles in the discharge was set by a step function with a cavity inside, corresponding to the void radius and the concentration of dust particles was close to that observed in experiments [3]. Simulations were carried out for the discharge tube of radius 16.5 mm i.d. and dust particle diameter 2.55 micron. Calculations were carried out with close to the experimentally obtained values of the discharge parameters. The calculation of the radial profiles of plasma components and the radial and longitudinal components of the electric field were carrying out. It was obtained that the longitudinal electric field strength in discharge with dust structures with voids is higher than in pure neon and increases with the reduction of the void size. It was shown that the ratio of metastable atom concentration to electron concentration is higher in the presence of dust structure and increases with decreasing void radius, illustrating the difference between the rates of electron and metastable atom losses on dust particles.

Published
2016

41. Ultrasound application in systems for the disinfection of water

Author

L. M. Vasilyak

Subjects
Potable water, Waste management, business.industry, Chemistry, Sonication, Suspended particles, Sewage, Surfaces and Interfaces, Human decontamination, business, Ultraviolet radiation, Industrial and Manufacturing Engineering, Surfaces, Coatings and Films
Abstract

The analytical analysis of the possibilities of ultrasound application, together with ultraviolet radiation or oxidizers, has been carried out. The mechanisms of the efficiency increase have been examined at decontamination of sewage with big suspended particles. The application of additional sonication of potable water is of no use. The possibilities of cleaning of quartz sleeves have been discussed.

Published
2010

42. Slow ‘thermal’ and fast ‘streamer-leader’ breakdown modes in conductive water

Author

V. Ya. Pecherkin, V A Panov, L M Vasilyak, S. P. Vetchinin, and Eduard Son

Subjects
010302 applied physics, Materials science, Acoustics and Ultrasonics, 0103 physical sciences, Thermal, Composite material, Condensed Matter Physics, 01 natural sciences, Electrical conductor, 010305 fluids & plasmas, Surfaces, Coatings and Films, Electronic, Optical and Magnetic Materials
Published
2018

45. Increase of Kinetic Energy of Dusty Cluster Particles Due to Parametric Instability Caused by Nanosecond Electric Pulses

Author

S. P. Vetchinin, D. N. Polyakov, L. M. Vasilyak, Vladimir E. Fortov, M. Y. Pustylnik, Gregor E. Morfill, Hubertus M. Thomas, and A. V. Ivlev

Subjects
Physics, Dusty plasma, Amplitude, Electric field, Phase (waves), Particle, Nanosecond, Atomic physics, Condensed Matter Physics, Kinetic energy, Instability
Abstract

Experimental investigations of high voltage nanosecond pulses influence on charged dust particles in low pressure rf–plasma were carried out. Application of repetitive pulses leads to the vertical oscillations of the mi-croparticles. Evolution of the total kinetic energy for the cluster consisting of 14 particles is investigated. Flat clusters exhibit parametric instabilities of horizontal modes. In the initial phase the kinetic energy oscillates around a certain value and its amplitude grows very slowly. At a certain moment during the instability it goes into the exponential growth phase and then saturates under the effect of repetitive pulses. It is possible if the eigenfrequency is the function of height and the dust particle oscillates vertically in the non uniform electric field (© 2011 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim)

Published
2010

47. Direct-current glow discharge in neon at cooling

Author

L. M. Vasilyak, V V Shumova, and D. N. Polyakov

Subjects
History, Glow discharge, Materials science, Direct current, chemistry.chemical_element, Liquid nitrogen, Cathode, Computer Science Applications, Education, law.invention, Neon, chemistry, law, Electric field, Constant current, Current (fluid), Atomic physics
Abstract

The paper presents the results of the experimental measurement and the simulation of electric characteristics of dc glow discharge with the hollow cathode in neon, carried out during cooling of the discharge to the temperature of liquid nitrogen. The experiments were performed at pressure P = 18–187 Pa and discharge currents I = 0.01–3.5 mA. The behavior of the border of transition to the normal glow discharge during cooling was studied. Cooling in a subnormal discharge mode at constant current led to a change in the discharge regime. Upon cooling, the boundary of the transition to the normal glow discharge shifted to lower current, the electric field in the positive column of discharge and at the boundary of the normal glow discharge increased, but the reduced electric field decreased throughout the entire range of pressure and the discharge current.

Published
2018

48. Overvoltage effect on electrical discharge type in medium-conductivity water in inhomogeneous pulsed electric field

Author

L M Vasilyak, V A Panov, Eduard Son, S. P. Vetchinin, and V.Ya. Pecherkin

Subjects
010302 applied physics, History, Materials science, Conductivity, 01 natural sciences, 010305 fluids & plasmas, Computer Science Applications, Education, Physics::Plasma Physics, Overvoltage, Electric field, Ionization, 0103 physical sciences, Thermal, Electrode, Electric discharge, Atomic physics, Voltage
Abstract

The transition between thermal and streamer discharges has been observed experimentally in water solution with conductivity 100 μS/cm applying positive voltage pulses to pin-to-rod electrodes. The transition happens at five-fold pulse amplitude. Considering streamer propagation as an ionization wave helped to establish relation between the parameters governing transition from one to another discharge mechanism.

Published
2018

49. Dust particle trapping of ions in a dc glow discharge in neon

Author

D. N. Polyakov, V. V. Shumova, and L. M. Vasilyak

Subjects
010302 applied physics, History, Glow discharge, Materials science, chemistry.chemical_element, 01 natural sciences, 010305 fluids & plasmas, Computer Science Applications, Education, Ion, Neon, chemistry, 0103 physical sciences, Particle trapping, Atomic physics
Published
2018

50. Application of pulsed electrical discharge lamps for bactericidal treatment

Author

L. M. Vasilyak

Subjects
genetic structures, business.industry, chemistry.chemical_element, Surfaces and Interfaces, eye diseases, Industrial and Manufacturing Engineering, Surfaces, Coatings and Films, Mercury (element), Pulse radiation, Xenon, chemistry, Optoelectronics, Electric discharge, sense organs, business
Abstract

A bactericidal treatment analytical analysis of the potentialities of pulsed UV lamps has been carried out. A comparison of traditional low- and high-pressure mercury lamps has been performed. Devices with pulsed xenon lamps are characterized by higher power consumption, lower resources, and higher exploitation expenditures than low-pressure mercury lamps. Xenon lamps may be used in equipment or under conditions in which the mercury presence is barred.

Published
2009

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