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1. Tutorial on Silicon Photonics Integrated Platform Fiber Edge Coupling

Author

Avdeev, Sergey S., Baburin, Aleksandr S., Sergeev, Evgeniy V., Kramarenko, Alexei B., Belyaev, Arseniy V., Kushnev, Danil V., Buzaverov, Kirill A., Stepanov, Ilya A., Echeistov, Vladimir V., Bukatin, Sergey V., Amiraslanov, Ali Sh., Lotkov, Evgeniy S., Baklykov, Dmitriy A., and Rodionov, Ilya A.

Subjects
Physics - Optics
Abstract

Photonic integrated circuits (PICs) play a crucial role in almost every aspect of modern life, such as data storage, telecommunications, medical diagnostics, green energy, autonomous driving, agriculture, and high-performance computing. To fully harness their benefits, an efficient coupling mechanism is required to successfully launch light into waveguides from fibers. This study introduces low-loss coupling strategies and their implementation for a silicon nitride integrated platform. Here we present an overview of coupling technologies, optimized designs, and a tutorial on manufacturing techniques for inverted tapers, which enable effective coupling for both transverse-magnetic and transverse-electric modes. The optimized coupling losses for the UHNA-7 fiber and the inverted taper Si3N4 coupler reached -0.15 dB at 1550 nm per connection for single-mode waveguides with 220x1200 nm cross section. The measured coupling losses in the inverted taper coupler with a standard single-mode fiber were -1.50 dB at 1550 nm per connection for the same platform., Comment: 14 pages, 8 figures

Published
2024

2. Silicon nitride integrated photonics from visible to mid-infrared spectra

Author

Buzaverov, Kirill A., Baburin, Aleksandr S., Sergeev, Evgeny V., Avdeev, Sergey S., Lotkov, Evgeniy S., Bukatin, Sergey V., Stepanov, Ilya A., Kramarenko, Aleksey B., Amiraslanov, Ali Sh., Kushnev, Danil V., Ryzhikov, Ilya A., and Rodionov, Ilya A.

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Recently, silicon nitride (Si3N4) photonic integrated circuits (PICs) are of a great interest due to their extremely low waveguides losses. The number of Si3N4 integrated photonics platform applications is constantly growing including the Internet of Things (IoT), artificial intelligence (AI), light detection and ranging (LiDAR) devices, hybrid neuromorphic and quantum computing. Their heterogeneous integration with a III-V platform leads to a new advanced large scale PICs with thousands of elements. Here, we review key trends in Si3N4 integrated circuits technology and fill an information gap in the field of state-of-the-art photonic devices operating from visible to mid-infrared spectra. A comprehensive overview of Si3N4 integrared circtuis microfabrication process details (deposition, lithography, etching, etc.) is introduced. Finally, we point out the limits and challenges of silicon nitride photonics performance in an ultrawide range providing routes and prospects for their future scaling and optimization., Comment: 62 pages, 20 figures

Published
2024

4. Ubiquitous order-disorder transition in the Mn antisite sublattice of the (MnBi$_2$Te$_4$)(Bi$_2$Te$_3$)$_n$ magnetic topological insulators

Author

Sahoo, M., Onuorah, I. J., Folkers, L. C., Chulkov, E. V., Otrokov, M. M., Aliev, Z. S., Amiraslanov, I. R., Wolter, A. U. B., Büchner, B., Corredor, L. T., Wang, Ch., Salman, Z., Isaeva, A., De Renzi, R., and Allodi, G.

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

Magnetic topological insulators (TIs) herald a wealth of applications in spin-based technologies, relying on the novel quantum phenomena provided by their topological properties. Particularly promising is the (MnBi$_2$Te$_4$)(Bi$_2$Te$_3$)$_n$ layered family of established intrinsic magnetic TIs that can flexibly realize various magnetic orders and topological states. High tunability of this material platform is enabled by manganese-pnictogen intermixing, whose amounts and distribution patterns are controlled by synthetic conditions. Positive implication of the strong intermixing in MnSb$_2$Te$_4$ is the interlayer exchange coupling switching from antiferromagnetic to ferromagnetic, and the increasing magnetic critical temperature. On the other side, intermixing also implies atomic disorder which may be detrimental for applications. Here, we employ nuclear magnetic resonance and muon spin spectroscopy, sensitive local probe techniques, to scrutinize the impact of the intermixing on the magnetic properties of (MnBi$_2$Te$_4$)(Bi$_2$Te$_3$)$_n$ and MnSb$_2$Te$_4$. Our measurements not only confirm the opposite alignment between the Mn magnetic moments on native sites and antisites in the ground state of MnSb$_2$Te$_4$, but for the first time directly show the same alignment in (MnBi$_2$Te$_4$)(Bi$_2$Te$_3$)$_n$ with n = 0, 1 and 2. Moreover, for all compounds, we find the static magnetic moment of the Mn antisite sublattice to disappear well below the intrinsic magnetic transition temperature, leaving a homogeneous magnetic structure undisturbed by the intermixing. Our findings provide a microscopic understanding of the crucial role played by Mn-Bi intermixing in (MnBi$_2$Te$_4$)(Bi$_2$Te$_3$)$_n$ and offer pathways to optimizing the magnetic gap in its surface states., Comment: 13 pages, 4 figures (Main) and 8 pages, 10 figures (Supplemental)

Published
2024
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5. The Institute of Enhanced Cooperation in European Union Law: Evolution of Legal Regulation

Author

V. V. Voinikov and R. R. Amiraslanov

Subjects
eu law, enhanced cooperation, flexible integration, differentiation, multispeed integration, Law of nations, KZ2-6785, Comparative law. International uniform law, K520-5582
Abstract

INTRODUCTION. The article presents the evolution of legal regulation of the institution of enhanced cooperation as a legal form of flexible integration in European Union (EU) law. Flexible integration is a fairly widespread and objectively existing legal phenomenon in the practice of various integration associations. However, it is within the framework of EU law that the concept of enhanced cooperation has received the greatest development and legal regulation. This was largely due to the EU's desire to regularize and subordinate alternative forms of co natural that interstate cooperation within the framework of one or another integration cooperation acquires more and more complex character, and cooperation of the member states of an integration association within the framework of one or another direction of interaction has uneven and heterogeneous character. MATERIALS AND METHODS. The methodological basis of the study was traditional general scientific and special methods of cognition of legal phenomena: comparative legal method; method of scientific analysis; formal legal method; method of synthesis of social and legal phenomena.RESEARCH RESULTS. As a result of the analysis, the main stages of development of prerequisites and reasons for the legal regulation of enhanced cooperation have been identified and the periodization of the development of legal regulation of this institution has been proposed. DISCUSSION AND CONCLUSIONS. Within the framework of the proposals on the periodization of the development of legal regulation of the institution of enhanced cooperation the following stages can be distinguished. The first stage can be labeled as “pre-Amsterdam”. This period is characterized by the formation of conceptual foundations of enhanced cooperation as a legal form of flexible integration. Within the framework of the “pre-Amsterdam” period there is an application of some form of flexible integration (Schengen, euro zone, etc.). The conceptualization of enhanced cooperation as a form of flexible integration was the basis for the normative-legal consolidation of this institution in the founding treaties of the EU. The next stage can be called “Amsterdam-Nicean”. Although the institution of enhanced cooperation received different names in the Amsterdam and Nice versions of the establishing treaties, it seems possible to unite this period into one: despite the normative-legal consolidation of enhanced cooperation as a form of flexible integration, the relevant norms of the establishing treaties have not actually received practical application. Finally, the next stage – the “Lisbon” period is characterized by the active ap[1]plication of the norms of the establishing treaties in the EU practice, including judicial.

Published
2024
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7. Ubiquitous Order‐Disorder Transition in the Mn Antisite Sublattice of the (MnBi2Te4)(Bi2Te3)n Magnetic Topological Insulators

Author

Manaswini Sahoo, Ifeanyi John Onuorah, Laura Christina Folkers, Ekaterina Kochetkova, Evgueni V. Chulkov, Mikhail M. Otrokov, Ziya S. Aliev, Imamaddin R. Amiraslanov, Anja U. B. Wolter, Bernd Büchner, Laura Teresa Corredor, Chennan Wang, Zaher Salman, Anna Isaeva, Roberto De Renzi, and Giuseppe Allodi

Subjects
cation intermixing, magnetic topological insulators, magnetic transitions, Science
Abstract

Abstract Magnetic topological insulators (TIs) herald a wealth of applications in spin‐based technologies, relying on the novel quantum phenomena provided by their topological properties. Particularly promising is the (MnBi2Te4)(Bi2Te3)n layered family of established intrinsic magnetic TIs that can flexibly realize various magnetic orders and topological states. High tunability of this material platform is enabled by manganese–pnictogen intermixing, whose amounts and distribution patterns are controlled by synthetic conditions. Here, nuclear magnetic resonance and muon spin spectroscopy, sensitive local probe techniques, are employed to scrutinize the impact of the intermixing on the magnetic properties of (MnBi2Te4)(Bi2Te3)n and MnSb2Te4. The measurements not only confirm the opposite alignment between the Mn magnetic moments on native sites and antisites in the ground state of MnSb2Te4, but for the first time directly show the same alignment in (MnBi2Te4)(Bi2Te3)n with n = 0, 1 and 2. Moreover, for all compounds, the static magnetic moment of the Mn antisite sublattice is found to disappear well below the intrinsic magnetic transition temperature, leaving a homogeneous magnetic structure undisturbed by the intermixing. The findings provide a microscopic understanding of the crucial role played by Mn–Bi intermixing in (MnBi2Te4)(Bi2Te3)n and offer pathways to optimizing the magnetic gap in its surface states.

Published
2024
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9. Crystal structure and Raman active lattice vibrations of magnetic topological insulators MnBi2Te4 n(Bi2Te3) (n = 0, 1, . . . , 6)

Author

Amiraslanov, I. R., Aliev, Z. S., Askerova, P. A., Alizade, E. H., Aliyeva, Y. N., Abdullayev, N. A., Jahangirli, Z. A., Otrokov, M. M., Mamedov, N. T., and Chulkov, E. V.

Subjects
Condensed Matter - Materials Science
Abstract

Further to the structure of the intrinsic magnetic topological insulators MnBi2Te4 n(Bi2Te3) with n<4, where index n is the number of quintuple Te-Bi-Te-Bi-Te building blocks inserted between the neighboring septuple Te-Bi-Te-Mn-Te-Bi-Te building blocks, the structure of the members with n=4, 5 and 6 was studied using X-ray powder diffraction. The unit cell parameters and atomic positions were calculated. The obtained and available structural data were summarized to show that the crystal structure of all members of MnBi2Te4 n(Bi2Te3) follows the cubic close packing principle, independently of the space group of the given member. Confocal Raman spectroscopy was then applied. Comparative analysis of the number, frequency, symmetry, and broadening of the vibration modes responsible for the lines in the Raman spectra of the systems with n=1,. . . ,6, as well as MnBi2Te4 (n=0) and Bi2Te3 (n=infinity) has shown that lattice dynamics of MnBi2Te4 n(Bi2Te3) with n>0 overwhelmingly dominates by the cooperative atomic displacements in the quintuple building blocks.

Published
2022
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12. Native point defects and their implications for the Dirac point gap at MnBi$_2$Te$_4$(0001)

Author

Garnica, M., Otrokov, M. M., Aguilar, P. Casado, Klimovskikh, I. I., Estyunin, D., Aliev, Z. S., Amiraslanov, I. R., Abdullayev, N. A., Zverev, V. N., Babanly, M. B., Mamedov, N. T., Shikin, A. M., Arnau, A., de Parga, A. L. Vázquez, Chulkov, E. V., and Miranda, R.

Subjects
Condensed Matter - Materials Science
Abstract

The Dirac point gap at the surface of the antiferromagnetic topological insulator MnBi$_2$Te$_4$ is a highly debated issue. While the early photoemission measurements reported on large gaps in agreement with theoretical predictions, other experiments found vanishingly small splitting of the MnBi$_2$Te$_4$ Dirac cone. Here, we study the crystalline and electronic structure of MnBi$_2$Te$_4$(0001) using scanning tunneling microscopy/spectroscopy (STM/S), micro($\mu$)-laser angle resolved photoemission spectroscopy (ARPES), and density functional theory (DFT) calculations. Our topographic STM images clearly reveal features corresponding to point defects in the surface Te and subsurface Bi layers that we identify with the aid of STM simulations as Bi$_\text{Te}$ antisites (Bi atoms at the Te sites) and Mn$_\text{Bi}$ substitutions (Mn atoms at the Bi sites), respectively. X-ray diffraction (XRD) experiments further evidence the presence of cation (Mn-Bi) intermixing. Altogether, this affects the distribution of the Mn atoms, which, inevitably, leads to a deviation of the MnBi$_2$Te$_4$ magnetic structure from that predicted for the ideal crystal structure. Our transport measurements suggest that the degree of this deviation varies from sample to sample. Consistently, the ARPES/STS experiments reveal that the Dirac point gap of the topological surface state is different for different samples/sample cleavages. Our DFT surface electronic structure calculations show that, due to the predominant localization of the topological surface state near the Bi layers, Mn$_\text{Bi}$ defects can cause a strong reduction of the MnBi$_2$Te$_4$ Dirac point gap, given the recently proved antiparallel alignment of the Mn$_\text{Bi}$ moments with respect to those of the Mn layer. Our results provide a key to puzzle out the MnBi$_2$Te$_4$ Dirac point gap mystery.

Published
2021

14. Nature of the Dirac gap modulation and surface magnetic interaction in axion antiferromagnetic topological insulator MnBi$_2$Te$_4$

Author

Shikin, A. M., Estyunin, D. A., Klimovskikh, I. I., Filnov, S. O., Schwier, E. F., Kumar, S., Myamoto, K., Okuda, T., Kimura, A., Kuroda, K., Yaji, K., Shin, S., Takeda, Y., Saitoh, Y., Aliev, Z. S., Mamedov, N. T., Amiraslanov, I. R., Babanly, M. B., Otrokov, M. M., Eremeev, S. V., and Chulkov, E. V.

Subjects
Condensed Matter - Materials Science
Abstract

Modification of the gap at the Dirac point (DP) in antiferromagnetic (AFM) axion topological insulator MnBi$_2$Te$_4$ and its electronic and spin structure has been studied by angle- and spin-resolved photoemission spectroscopy (ARPES) under laser excitation with variation of temperature (9-35~K), light polarization and photon energy. We have distinguished both a large (62-67~meV) and a reduced (15-18~meV) gap at the DP in the ARPES dispersions, which remains open above the N\'eel temperature ($T_\mathrm{N}=24.5$~K). We propose that the gap above $T_\mathrm{N}$ remains open due to short-range magnetic field generated by chiral spin fluctuations. Spin-resolved ARPES, XMCD and circular dichroism ARPES measurements show a surface ferromagnetic ordering for large-gap sample and significantly reduced effective magnetic moment for the reduced-gap sample. These effects can be associated with a shift of the topological DC state towards the second Mn layer due to structural defects and mechanical disturbance, where it is influenced by a compensated effect of opposite magnetic moments.

Published
2020

15. Variety of magnetic topological phases in the (MnBi$_2$Te$_4$)(Bi$_2$Te$_3$)$_m$ family

Author

Klimovskikh, I. I., Otrokov, M. M., Estyunin, D., Eremeev, S. V., Filnov, S. O., Koroleva, A., Shevchenko, E., Voroshnin, V., Rusinov, I. P., Blanco-Rey, M., Hoffmann, M., Aliev, Z. S., Babanly, M. B., Amiraslanov, I. R., Abdullayev, N. A., Zverev, V. N., Kimura, A., Tereshchenko, O. E., Kokh, K. A., Petaccia, L., Di Santo, G., Ernst, A., Echenique, P. M., Mamedov, N. T., Shikin, A. M., and Chulkov, E. V.

Subjects
Condensed Matter - Materials Science
Abstract

Quantum states of matter combining non-trivial topology and magnetism attract a lot of attention nowadays; the special focus is on magnetic topological insulators (MTIs) featuring quantum anomalous Hall and axion insulator phases. Feasibility of many novel phenomena that \emph{intrinsic} magnetic TIs may host depends crucially on our ability to engineer and efficiently tune their electronic and magnetic structures. Here, using angle- and spin-resolved photoemission spectroscopy along with \emph{ab initio} calculations we report on a large family of intrinsic magnetic TIs in the homologous series of the van der Waals compounds (MnBi$_2$Te$_4$)(Bi$_2$Te$_3$)$_m$ with $m=0, ..., 6$. Magnetic, electronic and, consequently, topological properties of these materials depend strongly on the $m$ value and are thus highly tunable. The antiferromagnetic (AFM) coupling between the neighboring Mn layers strongly weakens on moving from MnBi2Te4 (m=0) to MnBi4Te7 (m=1), changes to ferromagnetic (FM) one in MnBi6Te10 (m=2) and disappears with further increase in m. In this way, the AFM and FM TI states are respectively realized in the $m=0,1$ and $m=2$ cases, while for $m \ge 3$ a novel and hitherto-unknown topologically-nontrivial phase arises, in which below the corresponding critical temperature the magnetizations of the non-interacting 2D ferromagnets, formed by the \MBT\, building blocks, are disordered along the third direction. The variety of intrinsic magnetic TI phases in (MnBi$_2$Te$_4$)(Bi$_2$Te$_3$)$_m$ allows efficient engineering of functional van der Waals heterostructures for topological quantum computation, as well as antiferromagnetic and 2D spintronics.

Published
2019
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19. Prediction and observation of the first antiferromagnetic topological insulator

Author

Otrokov, Mikhail M., Klimovskikh, Ilya I., Bentmann, Hendrik, Zeugner, Alexander, Aliev, Ziya S., Gass, Sebastian, Wolter, Anja U. B., Koroleva, Alexandra V., Estyunin, Dmitry, Shikin, Alexander M., Blanco-Rey, María, Hoffmann, Martin, Vyazovskaya, Alexandra Yu., Eremeev, Sergey V., Koroteev, Yury M., Amiraslanov, Imamaddin R., Babanly, Mahammad B., Mamedov, Nazim T., Abdullayev, Nadir A., Zverev, Vladimir N., Büchner, Bernd, Schwier, Eike F., Kumar, Shiv, Kimura, Akio, Petaccia, Luca, Di Santo, Giovanni, Vidal, Raphael C., Schatz, Sonja, Kißner, Katharina, Min, Chul-Hee, Moser, Simon K., Peixoto, Thiago R. F., Reinert, Friedrich, Ernst, Arthur, Echenique, Pedro M., Isaeva, Anna, and Chulkov, Evgueni V.

Subjects
Condensed Matter - Materials Science
Abstract

Despite immense advances in the field of topological materials, the antiferromagnetic topological insulator (AFMTI) state, predicted in 2010, has been resisting experimental observation up to now. Here, using density functional theory and Monte Carlo method we predict and by means of structural, transport, magnetic, and angle-resolved photoemission spectroscopy measurements confirm for the first time realization of the AFMTI phase, that is hosted by the van der Waals layered compound MnBi$_2$Te$_4$. An interlayer AFM ordering makes MnBi$_2$Te$_4$ invariant with respect to the combination of the time-reversal ($\Theta$) and primitive-lattice translation ($T_{1/2}$) symmetries, $S=\Theta T_{1/2}$, which gives rise to the $Z_2$ topological classification of AFM insulators, $Z_2$ being equal to 1 for this material. The $S$-breaking (0001) surface of MnBi$_2$Te$_4$ features a giant bandgap in the topological surface state thus representing an ideal platform for the observation of such long-sought phenomena as the quantized magnetoelectric coupling and intrinsic axion insulator state.

Published
2018
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23. Ubiquitous Order‐Disorder Transition in the Mn Antisite Sublattice of the (MnBi2Te4)(Bi2Te3)n Magnetic Topological Insulators.

Author

Sahoo, Manaswini, Onuorah, Ifeanyi John, Folkers, Laura Christina, Kochetkova, Ekaterina, Chulkov, Evgueni V., Otrokov, Mikhail M., Aliev, Ziya S., Amiraslanov, Imamaddin R., Wolter, Anja U. B., Büchner, Bernd, Corredor, Laura Teresa, Wang, Chennan, Salman, Zaher, Isaeva, Anna, De Renzi, Roberto, and Allodi, Giuseppe

Subjects
MAGNETIC insulators, MUON spin rotation, MAGNETIC structure, MAGNETIC transitions, TOPOLOGICAL insulators
Abstract

Magnetic topological insulators (TIs) herald a wealth of applications in spin‐based technologies, relying on the novel quantum phenomena provided by their topological properties. Particularly promising is the (MnBi2Te4)(Bi2Te3)n layered family of established intrinsic magnetic TIs that can flexibly realize various magnetic orders and topological states. High tunability of this material platform is enabled by manganese–pnictogen intermixing, whose amounts and distribution patterns are controlled by synthetic conditions. Here, nuclear magnetic resonance and muon spin spectroscopy, sensitive local probe techniques, are employed to scrutinize the impact of the intermixing on the magnetic properties of (MnBi2Te4)(Bi2Te3)n and MnSb2Te4. The measurements not only confirm the opposite alignment between the Mn magnetic moments on native sites and antisites in the ground state of MnSb2Te4, but for the first time directly show the same alignment in (MnBi2Te4)(Bi2Te3)n with n = 0, 1 and 2. Moreover, for all compounds, the static magnetic moment of the Mn antisite sublattice is found to disappear well below the intrinsic magnetic transition temperature, leaving a homogeneous magnetic structure undisturbed by the intermixing. The findings provide a microscopic understanding of the crucial role played by Mn–Bi intermixing in (MnBi2Te4)(Bi2Te3)n and offer pathways to optimizing the magnetic gap in its surface states. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Native point defects and their implications for the Dirac point gap at MnBi2Te4(0001)

Author

M. Garnica, M. M. Otrokov, P. Casado Aguilar, I. I. Klimovskikh, D. Estyunin, Z. S. Aliev, I. R. Amiraslanov, N. A. Abdullayev, V. N. Zverev, M. B. Babanly, N. T. Mamedov, A. M. Shikin, A. Arnau, A. L. Vázquez de Parga, E. V. Chulkov, and R. Miranda

Subjects
Materials of engineering and construction. Mechanics of materials, TA401-492, Atomic physics. Constitution and properties of matter, QC170-197
Abstract

Abstract We study the surface crystalline and electronic structures of the antiferromagnetic topological insulator MnBi2Te4 using scanning tunneling microscopy/spectroscopy (STM/S), micro(μ)-laser angle-resolved photoemission spectroscopy (ARPES), and density functional theory calculations. Our STM images reveal native point defects at the surface that we identify as BiTe antisites and MnBi substitutions. Bulk X-ray diffraction further evidences the presence of the Mn-Bi intermixing. Overall, our characterizations suggest that the defects concentration is nonuniform within crystals and differs from sample to sample. Consistently, the ARPES and STS experiments reveal that the Dirac point gap of the topological surface state is different for different samples and sample cleavages, respectively. Our calculations show that the antiparallel alignment of the MnBi moments with respect to those of the Mn layer can indeed cause a strong reduction of the Dirac point gap size. The present study provides important insights into a highly debated issue of the MnBi2Te4 Dirac point gap.

Published
2022
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28. Erratum to: Several Articles in JETP Letters

Author

Bogomolov, Yu. V., Alekseev, V. V., Levanova, O. A., Maiorov, A. G., Malakhov, V. V., Yazynin, S. G., Kataev, A. L., Molokoedov, V. S., Maksimovskaya, A. A., Ruzhickiy, V. I., Klenov, N. V., Bakurskiy, S. V., Kupriyanov, M. Yu., Soloviev, I. I., Abdullaev, N. A., Amiraslanov, I. R., Aliev, Z. S., Jahangirli, Z. A., Sklyadneva, I. Yu., Alizade, E. G., Aliyeva, Y. N., Otrokov, M. M., Zverev, V. N., Mamedov, N. T., and Chulkov, E. V.

Published
2022
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31. Latent iron deficiency and iron deficiency anemia in pregnancy: effects on maternal and fetal health, possible ways to solve the problem

Author

A. P. Magomedova, N. A. Lomova, T. Eh. Karapetyan, and E. Yu. Amiraslanov

Subjects
latent iron deficiency, anemia, screening, perinatal complications, compliance, Medicine
Abstract

Iron deficiency with or without anemia in pregnant women is quite common today. In fact, anemia affects nearly 30% of women of reproductive age, and its prevalence among pregnant women is estimated to be 38% worldwide. Although iron deficiency (IR) is not the only cause of anemia, it is the most prevalent one. Anemia-reduction strategies among pregnant women are often ineffective, and severe anemia can greatly increase the risk of maternal mortality, as reported by WHO. Now therefore, the current guidelines for screening and treatment of ID-anemia (IDA) in pregnant women and new-borns require change. Severe anemia can greatly increase the risk of maternal death and adversely affect a developing fetus and new-born. In this review, we analyse the available data on the epidemiology and the effects of iron deficiency on mothers and infants, current treatment strategies and screening recommendations, as well as examine the treatment of IDA in pregnant women and newborns and the problem of poor compliance in patients with latent iron deficiency. A continuous long-term course of administration of oral iron supplements is one of the components of success in the treatment of IDA, and particularly latent forms of iron deficiency in pregnant women. It is often the case that poor patients’ compliance with therapy leads to poor treatment outcomes and misleading conclusions about the ineffectiveness of oral iron dosage forms in the battle against IDA. The data we have analysed suggest the possibility of increasing compliance with IDA treatment in pregnant women.

Published
2021
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32. Intercalation of p-Aminopyridine and p-Ethylenediamine Molecules into Orthorhombic In1.2Ga0.8S3 Single Crystals

Author

Aysel B. Rahimli, Imamaddin R. Amiraslanov, Zakir A. Jahangirli, Naila H. Aliyeva, Pascal Boulet, Marie-Christine Record, and Ziya S. Aliev

Subjects
gallium indium sulfide, single crystal, intercalation compounds, X-ray powder diffraction, Rietveld refinement, Raman scattering, Technology, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Engineering (General). Civil engineering (General), TA1-2040, Microscopy, QH201-278.5, Descriptive and experimental mechanics, QC120-168.85
Abstract

A single crystalline layered semiconductor In1.2Ga0.8S3 phase was grown, and by intercalating p-aminopyridine (NH2-C5H4N or p-AP) molecules into this crystal, a new intercalation compound, In1.2Ga0.8S3·0.5(NH2-C5H4N), was synthesized. Further, by substituting p-AP molecules with p-ethylenediamine (NH2-CH2-CH2-NH2 or p-EDA) in this intercalation compound, another new intercalated compound—In1.2Ga0.8S3·0.5(NH2-CH2-CH2-NH2) was synthesized. It was found that the single crystallinity of the initial In1.2Ga0.8S3 samples was retained after their intercalation despite a strong deterioration in quality. The thermal peculiarities of both the intercalation and deintercalation of the title crystal were determined. Furthermore, the unit cell parameters of the intercalation compounds were determined from X-ray diffraction data (XRD). It was found that increasing the c parameter corresponded to the dimension of the intercalated molecule. In addition to the intercalation phases’ experimental characterization, the lattice dynamical properties and the electronic and bonding features of the stoichiometric GaInS3 were calculated using the Density Functional Theory within the Generalized Gradient Approximations (DFT-GGA). Nine Raman-active modes were observed and identified for this compound. The electronic gap was found to be an indirect one and the topological analysis of the electron density revealed that the interlayer bonding is rather weak, thus enabling the intercalation of organic molecules.

Published
2023
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33. Phase Equilibria of the MnTe-Sb2Te3 System and Synthesis of Novel Ternary Layered Compound – MnSb4Te7

Author

E.N. Orujlu, Z.S. Aliev, I.R. Amiraslanov, and M.B. Babanly

Subjects
mnte-sb2te3 system, manganese antimony tellurides, magnetic topological insulators, x-ray diffraction, phase diagram, Physics, QC1-999
Abstract

By using Differential Thermal Analysis (DTA) and Powder X-ray Diffraction (PXRD) techniques, the phase diagram of the MnTe-Sb2Te3 system has been constructed for the first time in the entire composition range. The system features two ternary layered van der Waals (vdW) compounds. Apart from known MnSb2Te4, novel MnSb4Te7 which a structural analogous of the known MnBi4Te7 was found in the system. Crystal structure parameters of both compounds were determined by Rietveld refinement using the fundamental parameter approach. Both compounds were found to decompose via peritectic reactions and possess significant homogeneity ranges. The title system is also characterized by the existence of the wide solid solution field based on the starting Sb2Te3. The present results would be useful for the bulk single crystal growth of both compounds from the liquid phase via the determination of primary crystallization areas.

Published
2021
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35. A comparative study of lappaconitine hydrobromide extended release and propafenone in patients with paroxysmal atrial fibrillation

Author

Revishvili, А., primary, Golitsyn, S., additional, Aksentiev, S., additional, Amiraslanov, А., additional, Artyukhina, А., additional, Duplyakov, D., additional, Zubov, Е., additional, Isaeva, Е., additional, Loginova, А., additional, Malkina, Т., additional, Miloserdov, G., additional, Rivin, А., additional, Teplykh, S., additional, Tsygankova, I., additional, Shvarts, Yu., additional, Yuricheva, Yu., additional, Kanorsky, S., additional, and Sokolov, S., additional

Published
2024
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37. Prediction and observation of an antiferromagnetic topological insulator

Author

Otrokov, M.M., Klimovskikh, I.I., Bentmann, H., Estyunin, D., Zeugner, A., Aliev, Z.S., Gass, S., Wolter, A.U.B., Koroleva, A.V., Shikin, A.M., Blanco-Rey, M., Hoffmann, M., Rusinov, I.P., Vyazovskaya, A.Yu., Eremeev, S.V., Koroteev, Yu.M., Kuznetsov, V.M., Freyse, F., Sanchez-Barriga, J., Amiraslanov, I.R., Babanly, M.B., Mamedov, N.T., Abdullayev, N.A., Zverev, V.N., Alfonsov, A., Kataev, V., Buchner, B., Schwier, E.F., Kumar, S., Kimura, A., Petaccia, L., Di Santo, G., Vidal, R.C., Schatz, S., Kissner, K., Unzelmann, M., Min, C.H., Moser, Simon, Peixoto, T.R.F., Reinert, F., Ernst, A., Echenique, P.M., Isaeva, A., and Chulkov, E.V.

Subjects
Ferromagnetism -- Observations, Semiconductors -- Testing, Magnesium compounds -- Atomic properties -- Magnetic properties, Quantum theory -- Methods, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Magnetic topological insulators are narrow-gap semiconductor materials that combine non-trivial band topology and magnetic order.sup.1. Unlike their nonmagnetic counterparts, magnetic topological insulators may have some of the surfaces gapped, which enables a number of exotic phenomena that have potential applications in spintronics.sup.1, such as the quantum anomalous Hall effect.sup.2 and chiral Majorana fermions.sup.3. So far, magnetic topological insulators have only been created by means of doping nonmagnetic topological insulators with 3d transition-metal elements; however, such an approach leads to strongly inhomogeneous magnetic.sup.4 and electronic.sup.5 properties of these materials, restricting the observation of important effects to very low temperatures.sup.2,3. An intrinsic magnetic topological insulator--a stoichiometric well ordered magnetic compound--could be an ideal solution to these problems, but no such material has been observed so far. Here we predict by ab initio calculations and further confirm using various experimental techniques the realization of an antiferromagnetic topological insulator in the layered van der Waals compound MnBi.sub.2Te.sub.4. The antiferromagnetic ordering that MnBi.sub.2Te.sub.4 shows makes it invariant with respect to the combination of the time-reversal and primitive-lattice translation symmetries, giving rise to a Z.sub.2 topological classification; Z.sub.2 = 1 for MnBi.sub.2Te.sub.4, confirming its topologically nontrivial nature. Our experiments indicate that the symmetry-breaking (0001) surface of MnBi.sub.2Te.sub.4 exhibits a large bandgap in the topological surface state. We expect this property to eventually enable the observation of a number of fundamental phenomena, among them quantized magnetoelectric coupling.sup.6-8 and axion electrodynamics.sup.9,10. Other exotic phenomena could become accessible at much higher temperatures than those reached so far, such as the quantum anomalous Hall effect.sup.2 and chiral Majorana fermions.sup.3. An intrinsic antiferromagnetic topological insulator, MnBi.sub.2Te.sub.4, is theoretically predicted and then realized experimentally, with implications for the study of exotic quantum phenomena., Author(s): M. M. Otrokov [sup.1] [sup.2] [sup.3] [sup.4] , I. I. Klimovskikh [sup.4] , H. Bentmann [sup.5] , D. Estyunin [sup.4] , A. Zeugner [sup.6] , Z. S. Aliev [sup.7] [...]

Published
2019
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44. Observation of a Highly Spin Polarized Topological Surface State in GeBi$_{2}$Te$_{4}$

Author

Okamoto, K., Kuroda, K., Miyahara, H., Miyamoto, K., Okuda, T., Aliev, Z. S., Babanly, M. B., Amiraslanov, I. R., Shimada, K., Namatame, H., Taniguchi, M., Chulkov, E. V., and Kimura, A.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Spin polarization of a topological surface state for GeBi$_2$Te$_4$, the newly discovered three-dimensional topological insulator, has been studied by means of the state of the art spin- and angle-resolved photoemission spectroscopy. It has been revealed that the disorder in the crystal has a minor effect on the surface state spin polarization and it exceeds 75% near the Dirac point in the bulk energy gap region ($\sim$180 meV). This new finding for GeBi$_{2}$Te$_{4}$ promises not only to realize a highly spin polarized surface isolated transport but to add new functionality to its thermoelectric and thermomagnetic properties., Comment: 5 pages, 4 figures

Published
2012
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45. Surface and bulk Fermiology and band dispersion in non-centrosymmetric BiTeI

Author

Landolt, Gabriel, Eremeev, Sergey V., Koroteev, Yury M., Slomski, Bartosz, Muff, Stefan, Kobayashi, Masaki, Strocov, Vladimir N., Schmitt, Thorsten, Aliev, Ziya S., Babanly, Mahammad B., Amiraslanov, Imamaddin R., Chulkov, Evgueni V., Osterwalder, Jurg, and Dil, J. Hugo

Subjects
Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

BiTeI has a layered and non-centrosymmetric structure where strong spin-orbit interaction leads to a giant spin splitting in the bulk bands. Here we present high-resolution angle-resolved photoemission (ARPES) data in the UV and soft x-ray regime that clearly disentangle the surface from the bulk electronic structure. Spin-resolved UV-ARPES measurements on opposite, non-equivalent surfaces show identical spin structures, thus clarifying the surface state character. Soft x-ray ARPES data clearly reveal the spindle-torus shape of the bulk Fermi surface, induced by the spin-orbit interaction., Comment: 10 pages, 4 figures, submitted to PRL

Published
2012
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46. Phase Equilibria in The MnGa2Tе4-MnIn2Tе4 System, Crystal Structure and Physical Properties of MnGaInTе4

Author

Faig Мamedagha Mammadov, Imameddin Rajabali Amiraslanov, Yegana Rasul Aliyeva, Sadiyar Sultan Ragimov, Leyla Farkhad Mashadiyeva, and Mahammad Baba Babanly

Subjects
MnGa2Tе4-MnIn2Tе4 system, phase diagram, MnGaInTe4 crystal structure, Rietveld method, Raman spectroscopy, Chemistry, QD1-999
Abstract

The phase equilibria in the MnGa2Tе4-MnIn2Tе4 system were experimentally investigated by means of differential thermal analysis and powder X-ray diffraction technique. It was found that this system is quasi-binary and characterized by dystectic and eutectic equilibria and the formation of a wide area of solid solutions based on the starting compounds. The crystal structures of the MnGaInTe4 and MnIn2Tе4 were refined by the Rietveld method using powder X-ray diffraction data. It was established, that both phases crystallize in the tetragonal system (Space group I-42m). Electron paramagnetic resonance and Raman spectra, as well as the temperature dependences of the electrical conductivity and the Hall effect for the MnGaInTe4 crystal, were studied.

Published
2019
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47. THE PHASE DIAGRAM OF THE FeGa2Se4-FeIn2Se4 SYSTEM AND THE CRYSTAL STRUCTURE OF FeGaInSe4

Author

Faik M. Mammadov, Samira Z. Imamaliyeva, Imamaddin R. Amiraslanov, and Mahammad B. Babanly

Subjects
FeGa2Se4-FeIn2Se4 system, phase diagram, solid solutions, crystal structure of FeGaInSe4, Rietveld method., Chemistry, QD1-999
Abstract

The compounds of the MB2X4 type (M-Mn, Fe, Co, Ni, B-Ga, In, Sb, Bi; X- S, Se, Te) exhibit the phenomenon of electron- or optically-controlled magnetism; therefore, they are very promising for creation of lasers, modulators of light, photodetectors and other magnetic fi eld controllable functional devices. Recent studies have shown that the range of functional characteristics of these compounds can be substantially improved and expanded due the changing the composition of these compounds and the obtaining solid solutions of various types of substitution. The abovementioned shows the relevance of researches aimed to obtain and study the properties of solid solutions based on the MB2X4 compounds. The development and optimization of processes for the preparation of new complex phases are based on the data on phase equilibria and thermodynamic characteristics of the corresponding system. The aim of the present study was determining the phase relations in the FeGa2Se4-FeIn2Se4 system. We used the differential thermal analysis (DTA) and X-ray diffraction (XRD) in order to analyze the samples of the system. The temperatures of the thermal effects were determined using a NETZSCH 404 F1 Pegasus differential scanning calorimeter within room temperature and ~1300 K. The phase composition of the powdered samples was identifi ed by powder X-ray diffraction D2 Phaser diffractometer at room temperature. The defi nition and refi nement of the structure, as well as calculation of the unit cell parameters of intermediate alloys, were carried out by the Rietveld method using Topas-4.2 software. It is established that the studied system is quasi-binary, and characterized by the presence of the distectic and eutectic equilibria, as well as the formation of broad areas of solid solutions FeGa2Se4 (α-phase) and FeIn2Se4 (β-phase). β-phase with composition of FeGaInSe4 melts congruently at 1222 K and crystallizes in the trigoinal system: Sp.gr. R3m, а = 0.39290(1) nm, с = 3.8542(6) nm, V =515.28 (15) nm3. Using the powder diffraction data, the occupation of the crystallographic positions in FeGaInSe4 was determined by the Rietveld method. It was shown that the occupation of the crystallographic positions in FeGaInSe4 qualitatively differs from FeIn2Se4. Obtained experimental results can be used for choosing the composition of solution-melt for the growth of the high-quality crystals of intermediate phases which are of interest as magnetic semiconductors.

Published
2018
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48. Features of subcutaneous cardioverter-defibrillators implantation

Author

Anar Yu. Amiraslanov, Elena A. Artyukhina, and Amiran Sh. Revishvili

Subjects
General Medicine
Abstract

According to global statistics, 25% of deaths every year are cases of sudden cardiac death. Implantation of cardioverter-defibrillators is currently used as its prevention. In the coming years, the world is projected to see an increase in the number of implantations of cardioverter-defibrillators in high-income countries, as well as an expansion of the range of medical devices offered, including subcutaneous cardioverter-defibrillators, which are currently being considered as a promising alternative. We systematized the literature data presented in various international studies evaluating the efficacy and safety of the use of subcutaneous cardioverter-defibrillators. Areview of the medical literature published in the period from 2015 to 2022 was carried out using the information and analytical systems MEDLINE, Scopus, Clinicaltrials.gov, Google Scholar and Web of Science. The review was performed in accordance with the checklist of preferred reporting items for systematic reviews and meta-analyses. 398original publications were selected, of which 50original scientific articles on the research topic were included in the analysis. Modern international studies have demonstrated the efficacy and safety of the use of subcutaneous implantable cardioverter defibrillators. An improvement in the performance of unmotivated discharges over time was noted, which was associated with the improvement of implantable cardioverter-defibrillators. The operating time for implantation of subcutaneous cardioverter-defibrillators was significantly less compared to transvenous cardioverter-defibrillators. Subcutaneous cardioverter-defibrillators were associated with a lower incidence of perioperative complications and high efficacy of shock therapy. Subcutaneous cardioverter-defibrillators were as effective as transvenous implantable cardioverter-defibrillators and did not have the risk of complications associated with implantation of endocardial electrodes. The main limitations of the technique were the impossibility of pacing and the absence of antitachycardic stimulation.

Published
2023

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