Your search keyword '"Popov AI"' showing total 90 results

1. Computer modelling of radiation damage in cation sublattice of corundum

Author

Kotomin, EA, Popov, AI, Stashans, A, Kotomin, EA, Popov, AI, and Stashans, A

Abstract

Results of quantum chemical computer simulations of close Frenkel defects in corundum crystals are presented and discussed. The conclusion is drawn that the energy barrier for a back recombination up to fourth nearest neighbours is less than 0.3 eV, i.e., Kotomin EA, Latvian State Univ, Inst Solid State Phys, 8 Kengaraga Str, LV-1063 Riga, Latvia. Latvian State Univ, Inst Solid State Phys, LV-1063 Riga, Latvia. Univ Uppsala, Dept Quantum Chem, S-75105 Uppsala, Sweden.

Published

1998

2. CALCULATIONS OF THE GEOMETRY AND OPTICAL-PROPERTIES OF F-MG CENTERS AND DIMER (F-2-TYPE) CENTERS IN CORUNDUM CRYSTALS

Author

KOTOMIN, EA, STASHANS, A, KANTOROVICH, LN, LIFSHITZ, AI, POPOV, AI, TALE, IA, CALAIS, JL, KOTOMIN, EA, STASHANS, A, KANTOROVICH, LN, LIFSHITZ, AI, POPOV, AI, TALE, IA, and CALAIS, JL

Abstract

UNIV LATVIA, RIGA 1050, LATVIA. UNIV UPPSALA, DEPT QUANTUM CHEM, S-75120 UPPSALA, SWEDEN.

Published

1995

3. A multinuclear magnetic resonance study of the tetraphenylarsonium and tetraphenylphosphonium tetraphenylborates in nonaqueous solvents

Author

Farmer, RM, Sasaki, Y, and Popov, AI

Abstract

Arsenic-75, phosphorus-31, boron-11, carbon-13 and lH n.m.r. measurements are reported for Ph4As+, Ph4P+ and Ph4B- ions in a number of nonaqueous solvents. The resonance frequencies of the first three nuclei are very nearly independent of the solvent and of the salt concentration indicating an effective shielding of the central atom from the solvent by the four phenyl groups. In contrast the resonance frequencies of the ortho, meta and para carbons and protons of the phenyl rings vary with the solvent. The resonances of the cationic and the anionic carbons and protons are different and the differences are solvent-dependent. The results indicate that the two cations and the anion are solvated to a different extent and that the 'reference electrolyte' assumption, used to obtain single ion transfer activity coefficients, has to be used cautiously.

Published

1983

4. International Ecological Forum 'Saving the Earth'

Author

Aparin, Bf, Popov, Ai, Rastvorova, Og, Elena Sukhacheva, and Chukov, Sn

5. Quantum theory of the spin dynamics excited by ultrashort THz laser pulses in rare earth antiferromagnets. DyFeO 3 .

Author

Popov AI, Gareeva ZV, and Zvezdin AK

Abstract

A quantum theory of spin dynamics in the rare-earth orthoferrites excited by terahertz laser pulses is developed. The study demonstrates that dynamic magnetic configurations, triggered by a light pulse, exhibit stability even after the excitation source is ceased. The magnitude of post-excitation oscillations is linked to the ratio between the frequency of rare-earth ion excitations and the frequency of the external source. According to the analysis presented, dynamic response is significantly amplified when the system is exposed to ultrashort terahertz pulses. The physical characteristics of the oscillations emerging after the pulse are determined, and the factors governing their amplitude and phase are identified. The response signal is found to be dependent on the initial part of the pulse, specifically the half-period of the ultrashort light wave, while the subsequent part of the pulse contributes minimally to post-pulse magnetization dynamics. The findings highlight that in DyFeO 3 , terahertz dynamics primarily result from the influence of the magnetic field of the light, leading to excitations of electrons from the ground state to low-lying electronic levels of Dy 3+ ions. Additionally, the dynamic magnetoelectric effect excited by the electric field of the pulse is explored, revealing the emergence of odd magnetic modes., (© 2024 IOP Publishing Ltd. All rights, including for text and data mining, AI training, and similar technologies, are reserved.)

Published

2024

6. Annealing Effect on Structural, Optical and Electrophysical Properties of ZnSe Nanocrystals Synthesized into SiO 2 /Si Ion Track Template.

Author

Akylbekova A, Dauletbekova A, Baimukhanov Z, Vlasukova LA, Usseinov A, Saduova N, Akilbekov AT, Pankratov VA, and Popov AI

Abstract

We report the results of synthesis of zinc selenide (ZnSe) nanocrystals into SiO 2 /Si track templates formed by irradiation with 200 MeV Xe ions up to a fluence of 10 7 ions/cm 2 . Zinc selenide nanocrystals were obtained by chemical deposition from the alkaline aqueous solution. Scanning electron microscopy, X-ray diffractometry, Raman and photoluminescence spectroscopy, and electrical measurements were used for characterization of synthesized ZnSe/SiO 2nanoporous /Si nanocomposites. XRD data for as-deposited precipitates revealed the formation of ZnSe nanocrystals with cubic crystal structure, spatial syngony F-43m (216). According to non-empirical calculations using GGA-PBE and HSE06 functionals, ZnSe crystal is a direct-zone crystal with a minimum bandgap width of 2.36 eV and anisotropic electronic distribution. It was found that a thermal treatment of synthesized nanocomposites at 800 °C results in an increase in ZnSe nanocrystallites size as well as an increase in emission intensity of created precipitates in a broad UV-VIS spectra range. However, vacuum conditions of annealing still do not completely prevent the oxidation of zinc selenide, and a formation of hexagonal ZnO phase is registered in the annealed samples. The current-voltage characteristics of the synthesized nanocomposites proved to have n-type conductivity, as well as increased conductivity after annealing.

Published

2024

7. Color Centers in BaFBr Crystals: Experimental Study and Theoretical Modeling.

Author

Inerbaev T, Akilbekov A, Kenbayev D, Dauletbekova A, Shalaev A, Polisadova E, Konuhova M, Piskunov S, and Popov AI

Abstract

This study presents theoretical and experimental investigations into the electron and hole color centers in BaFBr crystals, characterizing their electronic and optical properties. Stoichiometric BaFBr crystals grown by the Steber method were used in the experiments. Radiation defects in BaFBr crystals were created by irradiation with 147 MeV 84 Kr ions with up to fluences of 10 10 -10 14 ions/cm 2 . The formation of electron color centers (F(F - ), F 2 (F - ), F 2 (Br - )) and hole aggregates was experimentally established by optical absorption spectroscopy. Performed measurements are compared with theoretical calculations. It allows us to determine the electron transition mechanisms and investigate the processes involved in photoluminescence emission in Eu-doped BaFBr materials to enhance the understanding of the fundamental electronic structure and properties of electron and hole color centers formed in BaFBr crystals.

Published

2024

8. Influence of the Hubbard U Correction on the Electronic Properties and Chemical Bands of the Cubic ( P m3¯m) Phase of SrTiO 3 Using GGA/PBE and LDA/CA-PZ Approximations.

Author

Derkaoui I, Achehboune M, Eglitis RI, Popov AI, Boukhoubza I, Basyooni-M Kabatas MA, and Rezzouk A

Abstract

By using DFT simulations employing the GGA/PBE and LDA/CA-PZ approximations, the effects of the Hubbard U correction on the crystal structure, electronic properties, and chemical bands of the cubic phase ( P m3¯m) of STO were investigated. Our findings showed that the cubic phase ( P m3¯m) STO's band gaps and lattice parameters/volume are in reasonably good accordance with the experimental data, supporting the accuracy of our model. By applying the DFT + U method, we were able to obtain band gaps that were in reasonably good agreement with the most widely used experimental band gaps of the cubic ( P m3¯m) phase of STO, which are 3.20 eV, 3.24 eV, and 3.25 eV. This proves that the Hubbard U correction can overcome the underestimation of the band gaps induced by both GGA/PBE and LDA/CA-PZ approximations. On the other hand, the Sr-O and Ti-O bindings appear predominantly ionic and covalent, respectively, based on the effective valence charges, electron density distribution, and partial density of states analyses. In an attempt to enhance the performance of STO for new applications, these results might also be utilized as theoretical guidance, benefitting from our precise predicted values of the gap energies of the cubic phase ( P m3¯m).

Published

2024

9. Electronic Structure of Mg-, Si-, and Zn-Doped SnO 2 Nanowires: Predictions from First Principles.

Author

Platonenko A, Piskunov S, Yang TC, Juodkazyte J, Isakoviča I, Popov AI, Junisbekova D, Baimukhanov Z, and Dauletbekova A

Abstract

We investigated the electronic structure of Mg-, Si-, and Zn-doped four-faceted [001]- and [110]-oriented SnO 2 nanowires using first-principles calculations based on the linear combination of atomic orbitals (LCAO) method. This approach, employing atomic-centered Gaussian-type functions as a basis set, was combined with hybrid density functional theory (DFT). Our results show qualitative agreement in predicting the formation of stable point defects due to atom substitutions on the surface of the SnO 2 nanowire. Doping induces substantial atomic relaxation in the nanowires, changes in the covalency of the dopant-oxygen bond, and additional charge redistribution between the dopant and nanowire. Furthermore, our calculations reveal a narrowing of the band gap resulting from the emergence of midgap states induced by the incorporated defects. This study provides insights into the altered electronic properties caused by Mg, Si, and Zn doping, contributing to the further design of SnO 2 nanowires for advanced electronic, optoelectronic, photovoltaic, and photocatalytic applications.

Published

2024

10. Advanced Synthesis and Characterization of CdO/CdS/ZnO Heterostructures for Solar Energy Applications.

Author

Suchikova Y, Kovachov S, Bohdanov I, Karipbayev ZT, Zhydachevskyy Y, Lysak A, Pankratov V, and Popov AI

Abstract

This study introduces an innovative method for synthesizing Cadmium Oxide /Cadmium Sulfide/Zinc Oxide heterostructures (CdO/CdS/ZnO), emphasizing their potential application in solar energy. Utilizing a combination of electrochemical deposition and oxygen annealing, the research provides a thorough analysis of the heterostructures through scanning electron microscopy (SEM), energy-dispersive X-ray (EDX) spectroscopy, X-ray diffraction (XRD), Raman spectroscopy, and photoluminescence (PL) spectroscopy. The findings reveal a complex surface morphology and a composite structure with significant contributions from hexagonal CdS and cubic CdO phases. The study highlights the uniformity in the distribution of luminescent centers and the crystalline quality of the heterostructures, which is evident from the PL analysis. The redshift observed in the emission peak and the additional peaks in the excitation spectrum indicate intricate optical properties influenced by various factors, including quantum confinement and lattice strain. The research demonstrates these heterostructures' potential in enhancing solar cells' efficiency and applicability in optoelectronic devices. This comprehensive characterization and analysis pave the way for future optimization and application in efficient and sustainable solar energy solutions.

Published

2024

11. Luminescence Properties of ZrO 2 : Ti Ceramics Irradiated with Electrons and High-Energy Xe Ions.

Author

Dauletbekova A, Zvonarev S, Nikiforov S, Akilbekov A, Shtang T, Karavannova N, Akylbekova A, Ishchenko A, Akhmetova-Abdik G, Baymukhanov Z, Aralbayeva G, Baubekova G, and Popov AI

Abstract

Samples of ZrO 2 ceramics with different concentrations of impurity titanium ions were synthesized by mixing zirconium and titanium oxide powders in different mass ratios. The X-ray diffraction analysis was used to determine the phase composition, lattice parameters, and crystallite size of the ceramics with varying dopant concentrations. Upon irradiation of the samples with 220 MeV Xe ions to a fluence of 10 10 ions/cm 2 , a decrease in the intensity of the pulsed cathodoluminescence band at 2.5 eV was observed. Additionally, ion irradiation resulted in the emergence of a new thermoluminescence peak at 450-650 K attributed to radiation-induced traps of charge carriers. Further analysis revealed that the thermoluminescence curves of samples irradiated with electrons and ions comprise a superposition of several elementary peaks. Notably, a complex non-monotonic dependence of cathodo- and thermoluminescence intensity on titanium concentration was observed, suggesting the influence of concentration quenching and the presence of tunneling transitions.

Published

2024

12. Synthesis of Orthorhombic Tin Dioxide Nanowires in Track Templates.

Author

Baimukhanov Z, Dauletbekova A, Junisbekova D, Kalytka V, Akilbekov A, Akylbekova A, Baubekova G, Aralbayeva G, Bazarbek AD, Usseinov A, and Popov AI

Abstract

Electrochemical deposition into a prepared SiO 2 /Si-p ion track template was used to make orthorhombic SnO 2 vertical nanowires (NWs) for this study. As a result, a SnO 2 -NWs/SiO 2 /Si nanoheterostructure with an orthorhombic crystal structure of SnO 2 nanowires was obtained. Photoluminescence excited by light with a wavelength of 240 nm has a low intensity, arising mainly due to defects such as oxygen vacancies and interstitial tin or tin with damaged bonds. The current-voltage characteristic measurement showed that the SnO 2 -NWs/SiO 2 /Si nanoheterostructure made this way has many p-n junctions.

Published

2024

13. Electronic, Optical, and Vibrational Properties of an AgAlS 2 Crystal in a High-Pressure Phase.

Author

Rudysh MY, Fedorchuk AO, Brik MG, Grechenkov J, Bocharov D, Piskunov S, Popov AI, and Piasecki M

Abstract

The aim of this study is to comprehensively examine the structural composition and properties of the AgAlS 2 crystal during its high-pressure phase. This analysis delves into the second coordination environment of the crystal structure and elucidates the distinct transformations it undergoes during the phase transition. The band energy structure was calculated, and the origin of electronic levels was clarified. It is shown that the crystal becomes non-stratified during the phase transition. This study also determined the values of the crystal's carrier effective masses, underscoring its spatial anisotropy. It was found that the calculated optical functions are similar to the crystal in the chalcopyrite structure, and their differences are shown. Further, this study involved the calculation of the crystal's phonon spectrum, revealing the spectrum's transformation during the phase transition. The vibrational frequencies were also obtained, with a symmetrical classification of vibrational modes. Finally, this study derived the infrared and Raman spectra of the AgAlS 2 crystal, thereby providing a comprehensive picture of the crystal during its high-pressure phase.

Published

2023

14. Study of β-Ga 2 O 3 Ceramics Synthesized under Powerful Electron Beam.

Author

Usseinov AB, Karipbayev ZT, Purans J, Kakimov AB, Bakytkyzy A, Zhunusbekov AM, Koketai TA, Kozlovskyi AL, Suchikova Y, and Popov AI

Abstract

The synthesis of β-Ga 2 O 3 ceramic was achieved using high-energy electron beams for the first time. The irradiation of gallium oxide powder in a copper crucible using a 1.4 MeV electron beam resulted in a monolithic ceramic structure, eliminating powder particles and imperfections. The synthesized β-Ga 2 O 3 ceramic exhibited a close-to-ideal composition of O/Ga in a 3:2 ratio. X-ray diffraction analysis confirmed a monoclinic structure (space group C2/m) that matched the reference diagram before and after annealing. Photoluminescence spectra revealed multiple luminescence peaks at blue (~2.7 eV) and UV (3.3, 3.4, 3.8 eV) wavelengths for the synthesized ceramic and commercial crystals. Raman spectroscopy confirmed the bonding modes in the synthesized ceramic. The electron beam-assisted method offers a rapid and cost-effective approach for β-Ga 2 O 3 ceramic production without requiring additional equipment or complex manipulations. This method holds promise for fabricating refractory ceramics with high melting points, both doped and undoped.

Published

2023

15. Optical Characteristics of MgAl 2 O 4 Single Crystals Irradiated by 220 MeV Xe Ions.

Author

Akilbekov A, Kiryakov A, Baubekova G, Aralbayeva G, Dauletbekova A, Akylbekova A, Ospanova Z, and Popov AI

Abstract

In In this study, the optical properties of magnesium-aluminate spinel were examined after being irradiated with 220 MeV Xe ions. The research aimed to simulate the impact of nuclear fuel fission fragments on the material. The following measurements were taken during the experiments: transmission spectra in the IR region (190-7000) nm, optical absorption spectra in the range (1.2-6.5) eV, and Raman spectra were measured along the depth of ion penetration from the surface to 30 µm. A peak with a broad shape at approximately 5.3 eV can be observed in the optical absorption spectrum of irradiated spinel crystals. This band is linked to the electronic color centers of F + and F. Meanwhile, the band with a maximum at ~(3-4) eV is attributed to hole color centers. Apart from the typical Raman modes of an unirradiated crystal, additional modes, A1g* (720 cm -1 ), and Eg* (385 cm -1 ), manifested mainly as an asymmetric shoulder of the main Eg mode, are also observed. In addition, the Raman spectroscopy method showed that the greatest disordering of crystallinity occurs in the near-surface layer up to 4 μm thick. At the same time, Raman scattering spectroscopy is sensitive to structural changes almost up to the simulated value of the modified layer, which is an excellent express method for certifying the structural properties of crystals modified by swift heavy ions.

Published

2023

16. Study of the Relationship between Changes in the Structural, Optical, and Strength Properties of AlN Ceramics Subjected to Irradiation with Heavy Xe 23+ Ions.

Author

Bikhert YV, Kozlovskiy AL, Popov AI, and Zdorovets MV

Abstract

The purpose of this study is to comprehensively analyze the influence of different fluences of irradiation with Xe 23+ heavy ions on alterations in the structural, optical, and strength properties of AlN ceramics and to establish a connection between structural distortions and alterations in the optical and mechanical properties of the ceramics. X-ray diffraction, UV-Vis and Raman spectroscopy, and indentation and single-compression methods were used as research methods. During the study, it was demonstrated that at low irradiation fluences, the main role in the changes in the properties of the AlN ceramics is played by effects related to changes in their optical properties and a fundamental absorption edge shift, which characterizes changes in the electronic properties of the ceramics (changes in the distribution of electron density). A study of the variations in the optical properties of the examined samples in relation to the irradiation fluence showed that when the fluence surpasses 5 × 10 11 ion/cm 2 , an extra-spectral absorption band emerges within the range of 3.38-3.40 eV. This band is distinctive for the creation of vacancy O N - V Al complexes within the damaged layer's structure. The presence of these complexes signifies structural deformations and the accumulation of defective inclusions within the damaged layer. An analysis of changes in the parameters of the crystal lattice showed that structural distortions in the damaged layer are due to the accumulation of tensile residual mechanical stresses, an increase in the concentration of which leads to the swelling and destruction of the damaged layer. Some correlations between the mechanical properties of ceramics and the irradiation fluence indicate the ceramics' remarkable resistance to radiation-induced brittleness and weakening. These effects become apparent only when structural damage accumulates, resulting in the swelling of the crystal lattice exceeding 2.5-3%., Competing Interests: The authors declare no conflict of interest.

Published

2023

17. Experimental study on stabilometric complex for terrainkur in overweight people.

Author

Fesyun AD, Grishechkina IA, Lobanov AA, Andronov SV, Popov AI, Eremushkin MA, Terentev KV, Bogdanov RR, Sanina NP, and Reverchuk IV

Abstract

Overweight and obesity is a multifactorial, multisystem disease declared a global epidemic by the World Health Organization (WHO) as early as in 1997. At least 30% of the working-age population in Russia is overweight. Only the use of physical activity as an integral (basic) part of obesity treatment and maintenance of the body weight achieved in the course of treatment can achieve durable and long-lasting treatment results as well as significant changes in the body structure (fat/non-fat body weight ratio). Terrainkur (therapeutic walking) is a method of spa treatment that combines climatotherapy and physical therapy. One of the problems in physical activity in obese people is the difficulty they experience in exercising due to the impaired walking pattern caused by imbalances in the muscle chains, including pelvic region, cervical region, which reduces endurance and commitment to physical activity. The study found that the exposure group (Terrainkur) showed lower values of "total fat", "metabolic age", "basic caloric value" compared to initial results and the control group; the exposure group (Terrainkur) showed a decrease in the deviation of the centre of body axis projection from the proper axis, the percentage of non-compliance with the proper fluctuations of the foot underextension. These changes contributed to the elimination of terrainkur restrictions and, as a result, improved the patient compliance during the terrainkur exercises.

Published

2023

18. Study of the Influence of the Irradiation Flux Density on the Formation of a Defect Structure in AlN in the Case of the Effect of Overlapping of the Heavy Ion Motion Trajectories in the Near-Surface Layer.

Author

Bikhert YV, Kozlovskiy AL, Popov AI, and Zdorovets MV

Abstract

The aim of this paper is to test the previously stated hypothesis and several experimental facts about the effect of the ion flux or ion beam current under irradiation with heavy ions on the radiation damage formation in the ceramic near-surface layer and their concentration. The hypothesis is that, when considering the possibilities of using ion irradiation (usually with heavy ions) for radiation damage simulation at a given depth, comparable to neutron irradiation, it is necessary to consider the rate factor for the set of atomic displacements and their accumulation. Using the methods of X-ray diffraction analysis, Raman and UV-Vis spectroscopy, alongside photoluminescence, the mechanisms of defect formation in the damaged layer were studied by varying the current of the Xe 23+ ion beam with an energy of 230 MeV. As a result of the experimental data obtained, it was found that, with the ion beam current elevation upon the irradiation of nitride ceramics (AlN) with heavy Xe 23+ ions, structural changes have a pronounced dependence on the damage accumulation rate. At the same time, the variation of the ion beam current affects the main mechanisms of defect formation in the near-surface layer. It has been found that at high values of flux ions, the dominant mechanism in damage to the surface layer is the mechanism of the formation of vacancy defects associated with the replacement of nitrogen atoms by oxygen atoms, as well as the formation of ON-VAl complexes.

Published

2023

19. Mineral water inhalations for bronchial asthma: a meta-analysis.

Author

Fesyun AD, Solimene U, Grishechkina IA, Lobanov AA, Andronov SV, Popov AI, Yakovlev MY, Ivanova E, Sanina NP, Reverchuk IV, Maccarone MC, and Masiero S

Abstract

Bronchial asthma (BA) is a common disease that contributes significantly to the incidence rate and death rate worldwide. A widespread treatment method is the use of inhalations of mineral waters, with conflicting information about their effectiveness. Purpose of the study was to assess the generalized effect power of the course of inhalations of mineral waters on the disease progress in patients with BA. A search of randomized clinical studies in data bases Pubmed, EMBASE, ELibrary, MedPilot amd CyberLeninka, according to PRISMA strategy, published between 1986 and July 2021. Standardized difference of mean values and their 95% of CI were employed for calculation using the random effects model. The meta-analysis drawing on 1266 sources included 14 studies, with 2 of them being randomized controlled clinical studies, including the results of the treatment of 525 patients. All 14 articles contain a conclusion that the inhalation of mineral water has a positive effect on the course of the disease in patients with BA. The analysis demonstrated that the group of patients after mineral water inhalations, compared with the control group, showed improvement of forced expiratory volume (FEV1), expressed both in % of the norm and in liters. The standardized difference of mean values FEV1 (%) (Hedge's g) was 8.2 (95% CI: 5.87 - 10.59; 100%), FEV1 values (liter.) (Hedge's g) was 0.69 (95% CI: -0.33-1.05). A significant heterogeneity of the results of individual studies was found (Q=124.96; tau2 = 14.55, I2 = 69.13%, p<0.0001 and Q=2.35; tau2 = 0, I2 = 0%, p<0.0001). Patients with mild, moderate, and hormone-dependent BA with a controlled and partially controlled disease course, after mineral water inhalations, compared with the control group, demonstrated a statistically significant decrease in the frequency and intensity of the cardinal symptoms of BA and improvement of FEV1.

Published

2023

20. Overview of the Structural, Electronic and Optical Properties of the Cubic and Tetragonal Phases of PbTiO 3 by Applying Hubbard Potential Correction.

Author

Derkaoui I, Achehboune M, Eglitis RI, Popov AI, and Rezzouk A

Abstract

We have performed a systematic study resulting in detailed information on the structural, electronic and optical properties of the cubic ( P m3¯m) and tetragonal ( P 4mm) phases of PbTiO 3 applying the GGA/PBE approximation with and without the Hubbard U potential correction. Through the variation in Hubbard potential values, we establish band gap predictions for the tetragonal phase of PbTiO 3 that are in rather good agreement with experimental data. Furthermore, the bond lengths for both phases of PbTiO 3 were assessed with experimental measurements, confirming the validity of our model, while chemical bond analysis highlights the covalent nature of the Ti-O and Pb-O bonds. In addition, the study of the optical properties of the two phases of PbTiO 3 , by applying Hubbard' U potential, corrects the systematic inaccuracy of the GGA approximation, as well as validating the electronic analysis and offering excellent concordance with the experimental results. Therefore, our results underline that the GGA/PBE approximation with the Hubbard U potential correction could be an effective method for obtaining reliable band gap predictions with moderate computational cost. Therefore, these findings will enable theorists to make use of the precise values of these two phases' gap energies to enhance PbTiO 3 's performance for new applications.

Published

2023

21. Electron Beam-Assisted Synthesis of YAG:Ce Ceramics.

Author

Karipbayev ZT, Lisitsyn VM, Golkovski MG, Zhilgildinov ZS, Popov AI, Zhunusbekov AM, Polisadova E, Tulegenova A, Mussakhanov DA, Alpyssova G, and Piskunov S

Abstract

In this work, we present the results of the structure and luminescence properties of YAG:Ce (Y 3 Al 5 O 12 doped with Ce 3+ ions) ceramic samples. Their synthesis was carried out by sintering samples from the initial oxide powders under the powerful action of a high-energy electron beam with an energy of 1.4 MeV and a power density of 22-25 kW/cm 2 . The measured diffraction patterns of the synthesized ceramics are in good agreement with the standard for YAG. Luminescence characteristics at stationary/time-resolved regimes were studied. It is shown that under the influence of a high-power electron beam on a mixture of powders, it is possible to synthesize YAG:Ce luminescent ceramics with characteristics close to the well-known YAG:Ce phosphor ceramics obtained by traditional methods of solid-state synthesis. Thus, it has been demonstrated that the technology of radiation synthesis of luminescent ceramics is very promising.

Published

2023

22. Ir impurities in [Formula: see text]- and [Formula: see text]-[Formula: see text] and their detrimental effect on p-type conductivity.

Author

Zachinskis A, Grechenkov J, Butanovs E, Platonenko A, Piskunov S, Popov AI, Purans J, and Bocharov D

Abstract

Recently gallium oxide ([Formula: see text]) has become one of the most actively studied materials due to its competitive electronic properties such as wide bandgap, high breakdown field, simple control of carrier concentration, and high thermal stability. These properties make gallium oxide a promising candidate for potential applications in high-power electronic devices. [Formula: see text]-[Formula: see text] crystals are commonly grown by the Czochralski method in an iridium (Ir) crucible. For this reason, Ir is often present in [Formula: see text] crystals as an unintentional dopant. In this work the impact of Ir incorporation defects on potential p-type conductivity in [Formula: see text]-[Formula: see text] is studied by means of density functional theory. The metastable [Formula: see text]-[Formula: see text] phase was investigated as the model object to understand the processes caused by iridium doping in gallium oxide-based systems. Obtained results allow us to understand better the influence of Ir on [Formula: see text] electronic structure, as well as provide interpretation for optical transitions reported in recent experiments., (© 2023. The Author(s).)

Published

2023

23. Investigation of the Effect of PbO Doping on Telluride Glass Ceramics as a Potential Material for Gamma Radiation Shielding.

Author

Kozlovskiy AL, Shlimas DI, Zdorovets MV, Elsts E, Konuhova M, and Popov AI

Abstract

The purpose of this paper is to study the effect of PbO doping of multicomponent composite glass-like ceramics based on TeO 2 , WO 3 , Bi 2 O 3 , MoO 3 , and SiO 2 , which are one of the promising materials for gamma radiation shielding. According to X-ray diffraction data, it was found that the PbO dopant concentration increase from 0.10 to 0.20-0.25 mol results in the initialization of the phase transformation and structural ordering processes, which are expressed in the formation of SiO 2 and PbWO 4 phases, and the crystallinity degree growth. An analysis of the optical properties showed that a change in the ratio of the contributions of the amorphous and ordered fractions leads to the optical density increase and the band gap alteration, as well as a variation in the optical characteristics. During the study of the strength and mechanical properties of the synthesized ceramics, depending on the dopant concentration, it was found that when inclusions in the form of PbWO 4 are formed in the structure, the strength characteristics increase by 70-80% compared to the initial data, which indicates the doping efficiency and a rise in the mechanical strength of ceramics to external influences. During evaluation of the shielding protective characteristics of the synthesized ceramics, it was revealed that the formation of PbWO 4 in the structure results in a rise in the high-energy gamma ray absorption efficiency.

Published

2023

24. ITO Thin Films for Low-Resistance Gas Sensors.

Author

Almaev AV, Kopyev VV, Novikov VA, Chikiryaka AV, Yakovlev NN, Usseinov AB, Karipbayev ZT, Akilbekov AT, Koishybayeva ZK, and Popov AI

Abstract

Indium tin oxide thin films were deposited by magnetron sputtering on ceramic aluminum nitride substrates and were annealed at temperatures of 500 °C and 600 °C. The structural, optical, electrically conductive and gas-sensitive properties of indium tin oxide thin films were studied. The possibility of developing sensors with low nominal resistance and relatively high sensitivity to gases was shown. The resistance of indium tin oxide thin films annealed at 500 °C in pure dry air did not exceed 350 Ohms and dropped by about 2 times when increasing the annealing temperature to 100 °C. Indium tin oxide thin films annealed at 500 °C were characterized by high sensitivity to gases. The maximum responses to 2000 ppm hydrogen, 1000 ppm ammonia and 100 ppm nitrogen dioxide for these films were 2.21 arbitrary units, 2.39 arbitrary units and 2.14 arbitrary units at operating temperatures of 400 °C, 350 °C and 350 °C, respectively. These films were characterized by short response and recovery times. The drift of indium tin oxide thin-film gas-sensitive characteristics during cyclic exposure to reducing gases did not exceed 1%. A qualitative model of the sensory effect is proposed.

Published

2022

25. Paramagnetic Defects and Thermoluminescence in Irradiated Nanostructured Monoclinic Zirconium Dioxide.

Author

Ananchenko DV, Nikiforov SV, Sobyanin KV, Konev SF, Dauletbekova AK, Akhmetova-Abdik G, Akilbekov AT, and Popov AI

Abstract

The ESR spectra of nanostructured samples of monoclinic ZrO 2 irradiated by electrons with energies of 130 keV, 10 MeV, and by a beam of Xe ions (220 MeV) have been studied. It has been established that irradiation of samples with electrons (10 MeV) and ions leads to the formation of radiation-induced F + centers in them. Thermal destruction of these centers is observed in the temperature range of 375-550 K for electron-irradiated and 500-700 K for ion-irradiated samples. It is shown that the decrease in the concentration of F + centers is associated with the emptying of traps responsible for thermoluminescence (TL) peaks in the specified temperature range. In the samples irradiated with an ion beam, previously unidentified paramagnetic centers with g = 1.963 and 1.986 were found, the formation of which is likely to involve Zr 3+ ions and oxygen vacancies. Thermal destruction of these centers occurs in the temperature range from 500 to 873 K., Competing Interests: The authors declare no conflict of interest

Published

2022

26. Study of the Effect of Two Phases in Li 4 SiO 4 -Li 2 SiO 3 Ceramics on the Strength and Thermophysical Parameters.

Author

Kozlovskiy A, Shlimas DI, Zdorovets MV, Moskina A, Pankratov V, and Popov AI

Abstract

The paper studies the effect of Li 2 SiO 3 /Li 4 SiO 4 phase formation in lithium-containing ceramics on the strength and thermophysical characteristics of lithium-containing ceramics, which have great prospects for use as blanket materials for tritium propagation. During the phase composition analysis of the studied ceramics using the X-ray diffraction method, it was found that an increase in the lithium component during synthesis leads to the formation of an additional orthorhombic Li 2 SiO 3 phase, and the main phase in ceramics is the monoclinic Li 4 SiO 4 phase. An analysis of the morphological features of the synthesized ceramics showed that an increase in the Li 2 SiO 3 impurity phase leads to ceramic densification and the formation of impurity grains near grain boundaries and joints. During determination of the strength characteristics of the studied ceramics, a positive effect of an increase in the Li 2 SiO 3 impurity phase and dimensional factors on the strengthening and increase in the resistance to external influences during compression of ceramics was established. During tests for resistance to long-term thermal heating, it was found that for two-phase ceramics, the decrease in strength and thermophysical characteristics after 500 h of annealing was less than 5%, which indicates a high resistance and stability of these ceramics in comparison with single-phase orthosilicate ceramics.

Published

2022

27. Investigation of the Efficiency of Shielding Gamma and Electron Radiation Using Glasses Based on TeO 2 -WO 3 -Bi 2 O 3 -MoO 3 -SiO to Protect Electronic Circuits from the Negative Effects of Ionizing Radiation.

Author

Kozlovskiy A, Shlimas DI, Zdorovets MV, Popova E, Elsts E, and Popov AI

Abstract

This article considers the effect of MoO 3 and SiO additives in telluride glasses on the shielding characteristics and protection of electronic microcircuits operating under conditions of increased radiation background or cosmic radiation. MoO 3 and SiO dopants were chosen because their properties, including their insulating characteristics, make it possible to avoid breakdown processes caused by radiation damage. The relevance of the study consists in the proposed method of using protective glasses to protect the most important components of electronic circuits from the negative effects of ionizing radiation, which can cause failures or lead to destabilization of the electronics. Evaluation of the shielding efficiency of gamma and electron radiation was carried out using a standard method for determining the change in the threshold voltage (∆U) value of microcircuits placed behind the shield and subjected to irradiation with various doses. It was established that an increase in the content of MoO 3 and SiO in the glass structure led to an increase of up to 90% in the gamma radiation shielding efficiency, while maintaining the stability of microcircuit performance under prolonged exposure to ionizing radiation. The results obtained allow us to conclude that the use of protective glasses based on TeO 2 -WO 3 -Bi 2 O 3 -MoO 3 -SiO is highly promising for creating local protection for the main components of microcircuits and semiconductor devices operating under conditions of increased background radiation or cosmic radiation.

Published

2022

28. Oxygen Vacancy Formation and Migration within the Antiphase Boundaries in Lanthanum Scandate-Based Oxides: Computational Study.

Author

Mastrikov YA, Gryaznov D, Sokolov MN, Zvejnieks G, Popov AI, Eglitis RI, Kotomin EA, and Ananyev MV

Abstract

The atomic structure of antiphase boundaries in Sr-doped lanthanum scandate (La 1- x Sr x ScO 3- δ ) perovskite, promising as the proton conductor, was modelled by means of DFT method. Two structural types of interfaces formed by structural octahedral coupling were constructed: edge- and face-shared. The energetic stability of these two interfaces was investigated. The mechanisms of oxygen vacancy formation and migration in both types of interfaces were modelled. It was shown that both interfaces are structurally stable and facilitate oxygen ionic migration. Oxygen vacancy formation energy in interfaces is lower than that in the regular structure, which favours the oxygen vacancy segregation within such interfaces. The calculated energy profile suggests that both types of interfaces are advantageous for oxygen ion migration in the material.

Published

2022

29. Positron Annihilation Lifetime Spectroscopy Insight on Free Volume Conversion of Nanostructured MgAl 2 O 4 Ceramics.

Author

Klym H, Karbovnyk I, Piskunov S, and Popov AI

Abstract

Herein we demonstrate the specifics of using the positron annihilation lifetime spectroscopy (PALS) method for the study of free volume changes in functional ceramic materials. Choosing technological modification of nanostructured MgAl 2 O 4 spinel as an example, we show that for ceramics with well-developed porosity positron annihilation is revealed through two channels: positron trapping channel and ortho-positronium decay. Positron trapping in free-volume defects is described by the second component of spectra and ortho-positronium decay process by single or multiple components, depending on how well porosity is developed and on the experimental configuration. When using proposed positron annihilation lifetime spectroscopy approaches, three components are the most suitable fit in the case of MgAl 2 O 4 ceramics. In the analysis of the second component, it is shown that technological modification (increasing sintering temperature) leads to volume shrinking and decreases the number of defect-related voids. This process is also accompanied by the decrease of the size of nanopores (described by the third component), while the overall number of nanopores is not affected. The approach to the analysis of positron annihilation lifetime spectra presented here can be applied to a wide range of functional nanomaterials with pronounced porosity.

Published

2021

30. Vacancy Defects in Ga 2 O 3 : First-Principles Calculations of Electronic Structure.

Author

Usseinov A, Koishybayeva Z, Platonenko A, Pankratov V, Suchikova Y, Akilbekov A, Zdorovets M, Purans J, and Popov AI

Abstract

First-principles density functional theory (DFT) is employed to study the electronic structure of oxygen and gallium vacancies in monoclinic bulk β-Ga 2 O 3 crystals. Hybrid exchange-correlation functional B3LYP within the density functional theory and supercell approach were successfully used to simulate isolated point defects in β-Ga 2 O 3 . Based on the results of our calculations, we predict that an oxygen vacancy in β-Ga 2 O 3 is a deep donor defect which cannot be an effective source of electrons and, thus, is not responsible for n-type conductivity in β-Ga 2 O 3 . On the other hand, all types of charge states of gallium vacancies are sufficiently deep acceptors with transition levels more than 1.5 eV above the valence band of the crystal. Due to high formation energy of above 10 eV, they cannot be considered as a source of p-type conductivity in β-Ga 2 O 3 .

Published

2021

31. Evidence for the formation of two types of oxygen interstitials in neutron-irradiated α-Al 2 O 3 single crystals.

Author

Lushchik A, Kuzovkov VN, Kotomin EA, Prieditis G, Seeman V, Shablonin E, Vasil'chenko E, and Popov AI

Abstract

Due to unique optical/mechanical properties and significant resistance to harsh radiation environments, corundum (α-Al 2 O 3 ) is considered as a promising candidate material for windows and diagnostics in forthcoming fusion reactors. However, its properties are affected by radiation-induced (predominantly, by fast neutrons) structural defects. In this paper, we analyze thermal stability and recombination kinetics of primary Frenkel defects in anion sublattice - the F-type electronic centers and complementary oxygen interstitials in fast-neutron-irradiated corundum single crystals. Combining precisely measured thermal annealing kinetics for four types of primary radiation defects (neutral and charged Frenkel pairs) and the advanced model of chemical reactions, we have demonstrated for the first time a co-existence of the two types of interstitial defects - neutral O atoms and negatively charged O - ions (with attributed optical absorption bands peaked at energies of 6.5 eV and 5.6 eV, respectively). From detailed analysis of interrelated kinetics of four oxygen-related defects, we extracted their diffusion parameters (interstitials serve as mobile recombination partners) required for the future prediction of secondary defect-induced reactions and, eventually, material radiation tolerance., (© 2021. The Author(s).)

Published

2021

32. First Principles Calculations of Atomic and Electronic Structure of TiAl3+- and TiAl2+-Doped YAlO 3 .

Author

Piskunov S, Gopejenko A, Pankratov V, Isakoviča I, Ma CG, Brik MG, Piasecki M, and Popov AI

Abstract

In this paper, the density functional theory accompanied with linear combination of atomic orbitals (LCAO) method is applied to study the atomic and electronic structure of the Ti 3+ and Ti 2+ ions substituted for the host Al atom in orthorhombic Pbnm bulk YAlO 3 crystals. The disordered crystalline structure of YAlO 3 was modelled in a large supercell containing 160 atoms, allowing simulation of a substitutional dopant with a concentration of about 3%. In the case of the Ti 2+ -doped YAlO 3 , compensated F -center (oxygen vacancy with two trapped electrons) is inserted close to the Ti to make the unit cell neutral. Changes of the interatomic distances and angles between the chemical bonds in the defect-containing lattices were analyzed and quantified. The positions of various defect levels in the host band gap were determined.

Published

2021

33. The efficiency of application of bacterial and humic preparations to enhance of wheat ( Triticum aestivum L.) plant productivity in the arid regions of Egypt.

Author

Hafez M, Mohamed AE, Rashad M, and Popov AI

Abstract

Lower nitrogen use efficiency is major crop productivity limiting factor in semi-arid regions due to its poor organic contents in the soil; our research work is considered to optimize crop productivity by soil and plant chem-biological correction. This study designed and aimed to use soil inoculation with plant growth-promoting rhizobacteria of the genus Azospirillum and foiler application by humic preparations ALCRI-CropHelp and ALCRI-CropHelp-M compared with control and NPK fertilizer under wheat plants in arid regions of Egypt. Experimental data showed that biological correction contributed to a significant increase in wheat yield in the arid regions. The specific results for Azospirillum, ALCRI-CropHelp, and ALCRI-CropHelp-M were significantly increased wheat grain yield on 256, 267, and 278 % relative to the control, respectively. Simultaneously, water use efficiency has increased by more than 2.5 times, compared with control and NPK treatments. This effect was achieved due to multiple effects on the metabolism of agricultural plants, and applications of ALCRI-CropHelp and ALCRI-CropHelp-M treatments revealed an increase in the biological yield, spike length, harvest index compared with control and NPK treatments. In conclusion, this study has shown that the ALCRI-CropHelp Az and ALCRI-CropHelp-M foliar applications significantly (P < 0.05) increased grain yield status, N, P, and K in plants, plant growth rate, and plant productivity under growing wheat plant in arid regions. We recommended these treatments for the enhancement of wheat plant productivity in arid regions., Competing Interests: The authors report no declarations of interest., (© 2020 The Authors. Published by Elsevier B.V.)

Published

2020

34. First principles calculations of the vibrational properties of single and dimer F-type centers in corundum crystals.

Author

Platonenko A, Gryaznov D, Popov AI, Dovesi R, and Kotomin EA

Abstract

The present paper investigates the F-type centers in α-Al 2 O 3 through their electronic and vibrational properties from first principle calculations using a periodic supercell approach, a hybrid functional, and all-electron Gaussian basis sets as implemented in the CRYSTAL17 code. Single F-type and dimer F 2 -type centers related to oxygen vacancies in various charge states were considered. The defect-induced vibrational modes were identified and found to appear mainly in the low (up to 300 cm -1 ) and high (above 700 cm -1 ) frequency regions, depending on the defect charge. The perturbation introduced by the defects to the thermal nuclear motion in the crystal lattice is discussed in terms of atomic anisotropic displacement parameters. The calculated Raman spectra are discussed for the first time for such defects in α-Al 2 O 3 , suggesting important information for future experimental and theoretical studies and revealing deeper insight into their behavior.

Published

2020

35. Atomic, electronic and magnetic structure of an oxygen interstitial in neutron-irradiated Al 2 O 3 single crystals.

Author

Seeman V, Lushchik A, Shablonin E, Prieditis G, Gryaznov D, Platonenko A, Kotomin EA, and Popov AI

Abstract

A single radiation-induced superoxide ion [Formula: see text] has been observed for the first time in metal oxides. This structural defect has been revealed in fast-neutron-irradiated (6.9×10 18 n/cm 2 ) corundum (α-Al 2 O 3 ) single crystals using the EPR method. Based on the angular dependence of the EPR lines at the magnetic field rotation in different planes and the determined g tensor components, it is shown that this hole-type [Formula: see text] center (i) incorporates one regular and one interstitial oxygen atoms being stabilized by a trapped hole (S = 1/2), (ii) occupies one oxygen site in the (0001) plane being oriented along the a axis, and (iii) does not contain any other imperfection/defect in its immediate vicinity. The thermal stepwise annealing (observed via the EPR signal and corresponding optical absorption bands) of the [Formula: see text] centers, caused by their destruction with release of a mobile ion (tentatively the oxygen ion with the formal charge -1), occurs at 500-750 K, simultaneously with the partial decay of single F-type centers (mostly with the EPR-active F + centers). The obtained experimental results are in line with the superoxide defect configurations obtained via density functional theory (DFT) calculations employing the hybrid B3PW exchange-correlation functional. In particular, the DFT calculations confirm the [Formula: see text] center spin S = 1/2, its orientation along the a axis. The [Formula: see text] center is characterized by a short O-O bond length of 1.34 Å and different atomic charges and magnetic moments of the two oxygens. We emphasize the important role of atomic charges and magnetic moments analysis in order to identify the ground state configuration.

Published

2020

36. Impact of Gadolinium on the Structure and Magnetic Properties of Nanocrystalline Powders of Iron Oxides Produced by the Extraction-Pyrolytic Method.

Author

Serga V, Burve R, Maiorov M, Krumina A, Skaudžius R, Zarkov A, Kareiva A, and Popov AI

Abstract

Interest in magnetic nanoparticles is primarily due to their practical use. In this work, for the production of nanocrystalline powders of pure and gadolinium doped iron oxides, the extraction-pyrolytic method (EPM) was used. As a precursor, either iron-containing extract (iron (III) caproate in caproic acid) or its mixture with gadolinium-containing extract (gadolinium (III) valerate in valeric acid) was used. The mixed precursor contained 0.5 mol %, 2.5 mol %, 12.5 mol %, 50 mol %, and 75 mol % gadolinium in relation to the iron content. The formation of iron oxide phases, depending on the preparation conditions, was investigated. According to the results obtained, it was demonstrated that the presence of more than 2.5 mol % gadolinium additive in the mixed precursor inhibits the magnetite-to-hematite transformation process during thermal treatment. Produced samples were characterized by XRD and SEM methods, and the magnetic properties were studied.

Published

2020

37. Distinctive features of diffusion-controlled radiation defect recombination in stoichiometric magnesium aluminate spinel single crystals and transparent polycrystalline ceramics.

Author

Lushchik A, Feldbach E, Kotomin EA, Kudryavtseva I, Kuzovkov VN, Popov AI, Seeman V, and Shablonin E

Abstract

MgAl 2 O 4 spinel is important optical material for harsh radiation environment and other important applications. The kinetics of thermal annealing of the basic electron (F, F + ) and hole (V) centers in stoichiometric MgAl 2 O 4 spinel irradiated by fast neutrons and protons is analyzed in terms of diffusion-controlled bimolecular reactions. Properties of MgAl 2 O 4 single crystals and optical polycrystalline ceramics are compared. It is demonstrated that both transparent ceramics and single crystals, as well as different types of irradiation show qualitatively similar kinetics, but the effective migration energy E a and pre-exponent D 0 are strongly correlated. Such correlation is discussed in terms of the so-called Meyer-Neldel rule known in chemical kinetics of condensed matter. The results for the irradiated spinel are compared with those for sapphire, MgO and other radiation-resistant materials.

Published

2020

38. [Autoantibodies to thyroid antigens levels in the population of the Russian Arctic at different levels of blood dopamine.]

Author

Potutkin DS, Tipisova EV, Devyatova EN, Popkova VA, Lobanov AA, Andronov SV, and Popov AI

Subjects

Adult, Aged, Arctic Regions, Female, Humans, Male, Middle Aged, Russia, Young Adult, Autoantibodies blood, Dopamine blood, Thyroid Gland immunology

Abstract

Neuroimmunoendocrine regulation of the thyroid gland involves the use of autoantibodies as regulatory molecules to stimulate or reduce the activity of the tissues of the organ itself. A huge number of regulatory signal molecules and factors, acting directly or indirectly, often plays a much more significant role, both in ensuring normal activity and in pathological processes. In this regard, it was interesting for us to determine the possible effect of dopamine at its various concentrations in the blood on the levels of thyroglobulin and antibodies to thyroid antigens. A survey of 110 men and 206 women aged 22 to 75 years who were born and lived in the Arctic zone of the Russian Federation and had no diseases of the endocrine and immune system was conducted. Dopamine concentrations were determined in blood plasma, thyroid stimulating hormone (TSH), thyroglobulin (TG), antibodies to thyroperoxidase (at-TPO) and thyroglobulin (at-TG) in serum. Higher concentrations of thyrotropin and thyroglobulin and lower concentrations of at-TG and at-TPO were shown with increasing dopamine levels from undetectable values to normative and excess levels. We explain this by the influence of dopamine on a-adrenoreceptors of antibody-producing cells and changes in the secretion of immunoglobulins class G, subclasses of which include at-TG and at-TPO. The appearance of different from zero values of autoantibodies concentrations in themselves, we associate with the negative impact of the conditions of the North and the prenosological state of the organism. Their higher values in women with low levels of dopamine can be explained by the lack of its immunomodulatory activity., Competing Interests: The authors declare no conflict of interest.

Published

2020

39. [Traditional nutrition and demography in the Arctic zone of Western Siberia].

Author

Andronov SV, Lobanov AA, Bichkaeva FA, Popov AI, Fesyun AD, Mukhina AA, Rachin AP, Kochkin RA, Lobanova LP, Bogdanova EN, Shaduyko OM, and Nikitin MV

Subjects

Adolescent, Adult, Aged, Arctic Regions epidemiology, Arctic Regions ethnology, Female, Humans, Middle Aged, Pregnancy, Pregnancy Complications epidemiology, Pregnancy Complications ethnology, Pregnancy Complications prevention & control, Siberia epidemiology, Siberia ethnology, Food Preferences ethnology, Nutritional Status ethnology, Surveys and Questionnaires

Abstract

High requirements for macro- and micronutrients of the organism of a pregnant woman living in the Far North are associated with the influence of extreme factors of high latitudes, and the needs of the mother and the growing fetus. Only the products of the unique food culture of the Arctic people - the Nenets, make it possible to meet the emerging needs. The aim of the work was to study the impact of traditional nutrition on the reproductive health of Nenets women living in the Arctic zone of Western Siberia. Material and methods . 619 indigenous inhabitants (Nenets) of the Yamal, Nadym and Taz districts of the Yamal-Nenets Autonomous Okrug at the age of 18-65 years were examined. The influence of the type of nutrition (traditional or imported products) on reproductive health indicators (the number of pregnancies, the number of children, the number of spontaneous abortions, frequency of gestosis, threats of termination of pregnancy, operative deliveries) for the period 2013-2018 was studied by analyzing official statistics and by questioning of the female population in own research. Results . The consumption of traditional products (venison, local fishery products, at least 3 times a week) by Nenets women was more often accompanied by a normal physiological course of pregnancy and childbirth (75.2 versus 64.2%, χ 2 =8.7; p=0.003). It led to a 1.5-fold decrease in the frequency of complications during pregnancy (gestosis, the threat of abortion) (χ 2 =5.8; p=0.01) and a 20% decrease in the frequency of delivery by cesarean section (χ 2 =16.6; p<0.001). As a result, a family whose diet was dominated by traditional products had a statistically significantly larger number of children (per child). Conclusion . The preservation of the consumption of reindeer and river fishery products by indigenous women will contribute to the sufficient intake of macro- and micronutrients, that will make it possible to gestate and give birth to a healthier generation of the Nenets society., Competing Interests: The authors declare no overt and potential conflict of interest related to the publication of this article., (Copyright© GEOTAR-Media Publishing Group.)

Published

2020

40. Afterglow, TL and OSL properties of Mn 2+ -doped ZnGa 2 O 4 phosphor.

Author

Luchechko A, Zhydachevskyy Y, Ubizskii S, Kravets O, Popov AI, Rogulis U, Elsts E, Bulur E, and Suchocki A

Abstract

Zinc gallate (ZnGa 2 O 4 ) spinel ceramics doped with Mn 2+ ions was prepared by a solid-state reaction at 1200 °C in air. Manganese concentration was equal to 0.05 mol.% of MnO with respect to ZnO. Ceramics produced in this way show an efficient green emission at about 505 nm under UV or X-ray excitations, which is caused by Mn 2+ ions. This green emission is observed also as a relatively long afterglow (visible to the naked eye in the dark for about one hour) after switching-off the X-ray excitation. Time profiles of the beginning of glow and afterglow have been studied together with thermally stimulated (TSL) and optically stimulated (OSL) luminescence. Experimental results demonstrate a presence of few types of shallow and deep traps responsible for the observed afterglow and TSL/OSL emission of the material. The possibility of pulsed optical stimulation and time-resolved OSL characteristics of ZnGa 2 O 4 : Mn 2+ has been reported for the first time. The presented results suggest the ZnGa 2 O 4 : Mn 2+ spinel as a promising material for further fundamental research and possibility of application as a green long-lasting phosphor or storage phosphor for TSL/OSL radiation dosimetry.

Published

2019

41. Anomalous Kinetics of Diffusion-Controlled Defect Annealing in Irradiated Ionic Solids.

Author

Kotomin E, Kuzovkov V, Popov AI, Maier J, and Vila R

Abstract

The annealing kinetics of the primary electronic F-type color centers (oxygen vacancies with trapped one or two electrons) is analyzed for three ionic materials (Al 2 O 3 , MgO, and MgF 2 ) exposed to intensive irradiation by electrons, neutrons, and heavy swift ions. Phenomenological theory of diffusion-controlled recombination of the F-type centers with much more mobile interstitial ions (complementary hole centers) allows us to extract from experimental data the migration energy of interstitials and pre-exponential factor of diffusion. The obtained migration energies are compared with available first-principles calculations. It is demonstrated that with the increase of radiation fluence both the migration energy and pre-exponent are decreasing in all three materials, irrespective of the type of irradiation. Their correlation satisfies the Meyer-Neldel rule observed earlier in glasses, liquids, and disordered materials.The origin of this effect is discussed. This study demonstrates that in the quantitative analysis of the radiation damage of real materials the dependence of the defect migration parameters on the radiation fluence plays an important role and cannot be neglected.

Published

2018

42. [Levels of sex hormones, sex hormone binding globulin, antisperm antibodies and dopamine in postmanopausal women of nomadic and settled aboriginal and local caucasoid populations of the arctic territories.]

Author

Potutkin DS, Tipisova EV, Kipriyanova KE, Gorenko IN, Popkova VA, Elfimova AE, Lobanov AA, Popov AI, and Andronov SV

Subjects

Arctic Regions, Ethnicity, Female, Humans, Luteinizing Hormone blood, Russia, Testosterone blood, Dopamine blood, Gonadal Steroid Hormones blood, Postmenopause, Sex Hormone-Binding Globulin analysis

Abstract

Positive changes in the society led to an improvement in quality and lifetime; as a result the menopause in women lengthens much longer, in light of this the relevance of studying hormonal changes increases, especially among the representatives of different groups living in the Arctic territories. The study was carried out on 138 women who included nomadic and settled aboriginal and local Caucasoid postmenopausal populations, permanently residing in the Arctic territories of Russia. The greatest difference in the studied blood indicators was shown between the local Caucasoid and aboriginal population. A greater imbalance in the content of dopamine in Aborigines compared with the European population was combined with a higher levels of prolactin, sex hormone binding globulin, antisperm antibodies and with lower concentrations of lutropine, progesterone, total and free testosterone. In the settled aboriginal population compared with nomadic one there were shown the larger proportion of people with low levels of dopamine, lutropine, follitropin and high levels of prolactin, sex hormone binding globulin in the presence of increased number of feedbacks in the hypothalamic-pituitary-gonadal system, which suggested more pronounced reduction of its activity. The evident imbalance of the dopamine content in the aboriginal population was combined with the absence of connections between dopamine level and the parameters of the hypothalamic-pituitary-gonadal system. Positive correlation between the contents of dopamine and lutropin in the European population suggested the stimulating effect of dopamine on the hypothalamic-pituitary-gonadal system. Affected by imbalanced dopamine content the decreased activity of gonadotropic pituitary gland function as well as the peripheral part of the hypothalamic-pituitary-gonadal system was registered in the aboriginal Arctic population in comparison with the local European one, which was more pronounced in the settled aboriginals., Competing Interests: The authors declare no conflict of interest.

Published

2018

43. [THE PREVALENCE OF RESPIRATORY SYMPTOMS AMONG RESIDENTS OF THE RUSSIAN FAR NORTH].

Author

Andronov SV, Lobanov AA, Popov AI, and Emelyanov AV

Subjects

Adult, Cross-Sectional Studies, Female, Humans, Male, Middle Aged, Population Groups statistics & numerical data, Prevalence, Risk Factors, Russia epidemiology, Spirometry methods, Spirometry statistics & numerical data, Symptom Assessment methods, Cold Climate adverse effects, Respiratory Tract Diseases classification, Respiratory Tract Diseases diagnosis, Respiratory Tract Diseases epidemiology

Abstract

Aim: To study the frequency of respiratory symptoms among the reindeer herders of the Yamal region in the Far North of Russia. We conducted a cross-sectional study of the occurrence of respiratory symptoms among 500 subjects of the tundra Nenets population (28.1% of the adult Nenets population in the district), of which 38.3% were men and 61.7% women (average age 40.1 years). All patients were matched for age and occupation. Medical examination was carried out by a pulmonologist with the use of the GARD questionnaire (WHO, 2004) and spirometry. Spirometry was performed with a SpiroUSB device (UK) according to a unified standard and the criteria of ATS/ERS 2005. The frequency of respiratory symptoms among the tundra population was estimated at 71.8%. Cough with expectoration and dyspnea were found in 22.8% of the respondents. 70.0% of the examined subjects worked in the cold, 33% were exposed to the open flame at home, and 34.4% smoked. Respiratory symptoms developed in 16.3% of those working in the cold and in 37% exposed to open fire. The combination of such complaints as cough and sputum production occurred in smokers twice as frequently as in non-smokers (54.1%) (p<0.01).The combination of such complaints as cough and sputum production was twice as likely note in his those who smoked (54.1% vs 20.2%) (p<0.01). The combination of these problems dyspnea was three times more common in the smokers (23,3%vs 7,3%) (p<0.001). At presence at patients of such a factor as work in the cold and the absence of other only 16.3% of them have respiratory symptoms. When using at home the open flame and the absence of other factors leading up 37.0% of the individuals with symptoms of chronic bronchitis. Cough, sputum and dyspnea are formed only among 26.3% of the smokers face when smoking is the only risk factor. If the surveyed residents of all three negative factors respiratory symptoms met at 62.1%. Disorders of respiratory function according to spirometry were not observed in none of the study participants. Respiratory symptoms developed in 62.1% of the subjects exposed to all three risk factors. External respiration indices remain normal in all he examine subjects. It is concluded that residents of the Far North frequently suffer respiratory symptoms without disorders in the external respiratory function. In most cases they associated with three factors (work in the cold, exposure to open fire at home, and smoking). Compensatory stimulation of lung functions may create additional difficulties for diagnostics of bronchial obstruction.

Published

2017

44. [The content of dopamine and hormones of system "hypophysis - thyroid" in blood of nomadic, settled and local population of the Arctic.]

Author

Tipisova EV, Kipriyanova KE, Gorenko IN, Lobanov AA, Popov AI, Andronov SV, Popkova VA, and Elfimova AE

Abstract

The examination was applied to the groups of nomadic, settled aboriginal and local Caucasian population of the Arctic, permanently residing in the North. The study was carried out in the same period of the year - the period of increasing of duration of daylight hours. The study covered 253 individuals aged from 21 to 50 years. Despite differences in life-style of nomadic and settled aborigines, the similar signs were established consisting in the higher functional activity of hypophyseal section of the "hypophysis - thyroid" system against the background of lower content of auto-antibodies to thyroid peroxidase under increasing of the level of dopamine in blood as compared with local Caucasian population of the Arctic. The variation of analyzed parameters in aboriginal population depending on life-style also is demonstrated. So, nomadic aboriginal population is characterized by higher content in blood of global and free fractions of triiodothyronine, lower index of peripheral conversion of iodothyronines, increasing of level of dopamine and adenosine mono-phosphate. In case of settled aboriginal population increasing of content of global and free thyroxine is typical. In case of nomadic aborigines an expressed dissonance in content of iodothyronines is established: shifting of limits of variations of global and free triiodothyronine aside of higher bounds of standard at shifting of limits of variations of free fractions of thyroxine aside lower bounds of standard. The positive correlation relationships are registered between content of dopamine, thyroid hormones and adenosine mono-phosphate are registered. They are more expressed nomadic aboriginal population., Competing Interests: The authors declare no conflict of interest.

Published

2017

45. Optical and Vibrational Spectra of CsCl-Enriched GeS2-Ga2S3 Glasses.

Author

Klym H, Karbovnyk I, Guidi MC, Hotra O, and Popov AI

Abstract

Optical and FTIR spectroscopy was employed to study the properties of 80GeS2-20Ga2S3-CsCl chalcohalide glasses with CsCl additives in a temperature range of 77-293 K. It is shown that CsCl content results in the shift of fundamental absorption edge in the visible region. Vibrational bands in FTIR spectra of (80GeS2-20Ga2S3)100 - х (СsCl) x (x = 5, 10, and 15) are identified near 2500 cm(-1), 3700 cm(-1),, around 1580 cm(-1), and a feature at 1100 cm(-1). Low energy shifts of vibrational frequencies in glasses with a higher amount of CsCl can be caused by possible thermal expansion of the lattice and nanovoid agglomeration formed by CsCl additives in the inner structure of the Ge-Ga-S glass.

Published

2016

46. Ferroelectricity of domain walls in rare earth iron garnet films.

Author

Popov AI, Zvezdin KA, Gareeva ZV, Mazhitova FA, Vakhitov RM, Yumaguzin AR, and Zvezdin AK

Abstract

In this paper, we report on electric polarization arising in a vicinity of Bloch-like domain walls in rare-earth iron garnet films. The domain walls generate an intrinsic magnetic field that breaks an antiferroelectric structure formed in the garnets due to an exchange interaction between rare earth and iron sublattices. We explore 180° domain walls whose formation is energetically preferable in the films with perpendicular magnetic anisotropy. Magnetic and electric structures of the 180° quasi-Bloch domain walls have been simulated at various relations between system parameters. Singlet, doublet ground states of rare earth ions and strongly anisotropic rare earth Ising ions have been considered. Our results show that electric polarization appears in rare earth garnet films at Bloch domain walls, and the maximum of magnetic inhomogeneity is not always linked to the maximum of electric polarization. A number of factors including the temperature, the state of the rare earth ion and the type of a wall influence magnetically induced electric polarization. We show that the value of polarization can be enhanced by the shrinking of the Bloch domain wall width, decreasing the temperature, and increasing the deviations of magnetization from the Bloch rotation that are regulated by impacts given by magnetic anisotropies of the films.

Published

2016

47. Indigenous and tribal peoples' health (The Lancet-Lowitja Institute Global Collaboration): a population study.

Author

Anderson I, Robson B, Connolly M, Al-Yaman F, Bjertness E, King A, Tynan M, Madden R, Bang A, Coimbra CE Jr, Pesantes MA, Amigo H, Andronov S, Armien B, Obando DA, Axelsson P, Bhatti ZS, Bhutta ZA, Bjerregaard P, Bjertness MB, Briceno-Leon R, Broderstad AR, Bustos P, Chongsuvivatwong V, Chu J, Deji, Gouda J, Harikumar R, Htay TT, Htet AS, Izugbara C, Kamaka M, King M, Kodavanti MR, Lara M, Laxmaiah A, Lema C, Taborda AM, Liabsuetrakul T, Lobanov A, Melhus M, Meshram I, Miranda JJ, Mu TT, Nagalla B, Nimmathota A, Popov AI, Poveda AM, Ram F, Reich H, Santos RV, Sein AA, Shekhar C, Sherpa LY, Skold P, Tano S, Tanywe A, Ugwu C, Ugwu F, Vapattanawong P, Wan X, Welch JR, Yang G, Yang Z, and Yap L

Subjects

Adult, Child, Educational Status, Global Health, Humans, Infant, Infant, Low Birth Weight, Infant, Newborn, Obesity ethnology, Population Groups statistics & numerical data, Socioeconomic Factors, Child Nutrition Disorders ethnology, Fetal Macrosomia ethnology, Health Status Disparities, Infant Mortality ethnology, Life Expectancy ethnology, Maternal Mortality ethnology, Pediatric Obesity ethnology, Population Groups ethnology, Poverty ethnology

Abstract

Background: International studies of the health of Indigenous and tribal peoples provide important public health insights. Reliable data are required for the development of policy and health services. Previous studies document poorer outcomes for Indigenous peoples compared with benchmark populations, but have been restricted in their coverage of countries or the range of health indicators. Our objective is to describe the health and social status of Indigenous and tribal peoples relative to benchmark populations from a sample of countries., Methods: Collaborators with expertise in Indigenous health data systems were identified for each country. Data were obtained for population, life expectancy at birth, infant mortality, low and high birthweight, maternal mortality, nutritional status, educational attainment, and economic status. Data sources consisted of governmental data, data from non-governmental organisations such as UNICEF, and other research. Absolute and relative differences were calculated., Findings: Our data (23 countries, 28 populations) provide evidence of poorer health and social outcomes for Indigenous peoples than for non-Indigenous populations. However, this is not uniformly the case, and the size of the rate difference varies. We document poorer outcomes for Indigenous populations for: life expectancy at birth for 16 of 18 populations with a difference greater than 1 year in 15 populations; infant mortality rate for 18 of 19 populations with a rate difference greater than one per 1000 livebirths in 16 populations; maternal mortality in ten populations; low birthweight with the rate difference greater than 2% in three populations; high birthweight with the rate difference greater than 2% in one population; child malnutrition for ten of 16 populations with a difference greater than 10% in five populations; child obesity for eight of 12 populations with a difference greater than 5% in four populations; adult obesity for seven of 13 populations with a difference greater than 10% in four populations; educational attainment for 26 of 27 populations with a difference greater than 1% in 24 populations; and economic status for 15 of 18 populations with a difference greater than 1% in 14 populations., Interpretation: We systematically collated data across a broader sample of countries and indicators than done in previous studies. Taking into account the UN Sustainable Development Goals, we recommend that national governments develop targeted policy responses to Indigenous health, improving access to health services, and Indigenous data within national surveillance systems., Funding: The Lowitja Institute., (Copyright © 2016 Elsevier Ltd. All rights reserved.)

Published

2016

48. [Blood free radical oxidation indices in the inhabitants of the Yamal-Nenets Autonomous District].

Author

Buiak MA, Buganov AA, Lobanov AA, and Popov AI

Subjects

Adult, Humans, Middle Aged, Russia, Young Adult, Cold Climate adverse effects, Environmental Health, Free Radical Scavengers blood, Oxidation-Reduction, Oxidative Stress physiology

Abstract

The paper gives the data of examination of 1333 residents from different areas of the Yamal-Nenets Autonomous District. The examination has demonstrated that oxidative process increase from south to north and from west to east, antioxidative defense becoming weaker.

Published

2010

49. [Arterial hypertension and risk factors in automobile drivers of Far North].

Author

Popov AI, Salamatina LV, Prokopenko LV, and Buganov AA

Subjects

Adult, Disease Progression, Follow-Up Studies, Humans, Hypertension etiology, Hypertension physiopathology, Male, Middle Aged, Occupational Diseases etiology, Occupational Diseases physiopathology, Prevalence, Retrospective Studies, Risk Factors, Russia epidemiology, Blood Pressure physiology, Hypertension epidemiology, Motor Vehicles, Occupational Diseases epidemiology, Occupational Exposure adverse effects

Abstract

The authors revealed peculiarities of arterial hypertension in automobile drivers working in Far North and subjected to variety of occupational hazards, so this disease could be considered occupational entity. Facts show that work conditions of automobile drivers in Far North deteriorate course of arterial hypertension and increase importance of risk factors in its prevalence.

Published

2007

50. [Surgical treatment of hydrocele in elderly and aged patients].

Author

Popov AI, Iurchuk SM, and Ostrovskiĭ VI

Subjects

Age Factors, Aged, Aged, 80 and over, Anesthesia, Local, Follow-Up Studies, Humans, Male, Time Factors, Testicular Hydrocele surgery

Abstract

The authors present their personal results of surgical treatment of hydrocele in 163 elderly and senile patients according to modified Alferov's operation. Good long-term results were obtained.

Published

2003