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109 results on '"Vlasenko, Vladimir A."'

1. Quasi Two-dimensional Vortex Matter in ThH$_{10}$ Superhydride

Author

Sadakov, Andrey V., Vlasenko, Vladimir A., Semenok, Dmitrii V., Zhou, Di, Troyan, Ivan A., Usoltsev, Alexey S., and Pudalov, Vladimir M.

Subjects
Condensed Matter - Superconductivity
Abstract

A comprehensive study of the vortex phases and vortex dynamics is presented for a recently discovered high-temperature superconductor ThH$_{10}$ with $\textit{T}$$_C$ = 153 K at 170 GPa. The obtained results strongly suggest a quasi two-dimensional (2D) character of the vortex glass phase transition in ThH$_{10}$. The activation energy yields a logarithmic dependence $\textit{U}$$_0$ $\propto$ ln($\textit{H}$) on magnetic field in a low field region and a power law dependence $\textit{U}$$_0$ ~ $\textit{H}$$^{-1}$ in a high field region, signaling a crossover from 2D regime to 3D collective pinning regime, respectively. Additionally, a pinning force field dependence showcases dominance of surface-type pinning in the vicinity of $\textit{T}$$_C$. Thermal activation energy ($\textit{U}$$_0$), derived within thermally activated flux flow (TAFF) theory, takes very high values above 2$\times$10$^5$ K together with the Ginzburg number $\textit{Gi}$ = 0.039 - 0.085, which is lower only than those of BiSrCaCuO cuprates and 10-3-8 family of iron based superconductor. This indicates the enormous role of thermal fluctuations in the dynamics of the vortex lattice of superhydrides, the physics of which is similar to the physics of unconventional high-temperature superconductors.

Published
2023
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3. Synthesis and crystal growth of novel layered bismuthides ATM2Bi2, (A = K, Rb; TM = Zn, Cd) with significant electron-deficient structure

Author

Shilov, Andrey, Pervakov, Kirill, Lyssenko, Konstantin, Vlasenko, Vladimir, Efremov, Dmitri, Büchner, Bernd, Aswartham, Saicharan, and Morozov, Igor

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

Layered bismuthides of the family ATM2Bi2 are showing very interesting structural and physical properties. Here, we report crystal growth and characterization of new ternary layered bismuthides: RbCd2Bi2, RbZn2Bi2 and KZn2Bi2. Single crystals were grown by self-flux technique. As grown crystals were characterized by combination of powder X-ray diffraction, scanning electron microscopy, energy-dispersive X-ray spectroscopy and single crystal X-ray diffraction. All novel compounds crystallize in layered ThCr2Si2 structure type with plate-like morphology with weak bonding between layers. Significant structural difference between RbCd2Bi2 and AZn2Bi2 (A=K, Rb) was found., Comment: 10 pages, 6 figures, 4 tables

Published
2021

5. Synthesis of Electron- and Hole-Doped Bulk BaFe2As2 Superconductors by Mechanical Alloying

Author

Pervakov, Kirill and Vlasenko, Vladimir

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

Here, we report the successful synthesis of electron- (Ni) and hole- (K) doped bulk BaFe2As2 compounds by means of mechanical alloying (MA) process. The MA technique allows one to obtain amorphous phase BaFe2As2 with a homogeneous distribution of doping atoms at room temperature without continuous heating. We found the optimum time for high-energy milling is in the range between 1-1.5 hours. Using pre-synthesised FeAs and NiAs precursors, we successfully obtained BaFe2-xNixAs2 and Ba1-xKxFe2As2 superconducting bulk samples after short-range heat treatment. This method can be easily scaled according to industrial needs to provide high-quality bulk superconducting material for wires, trapped field magnets and other applications., Comment: 20 pages, 8 figures, 1 table

Published
2019
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6. Implicit Methods

Author

Hartmann, Ralf, Bassi, Francesco, Bosnyakov, Igor, Botti, Lorenzo, Colombo, Alessandro, Crivellini, Andrea, Franciolini, Matteo, Leicht, Tobias, Martin, Emeric, Massa, Francescocarlo, Renac, Florent, Troshin, Alexey, Vlasenko, Vladimir, Wallraff, Marcel, Wolkov, Andrey, Hirschel, Ernst Heinrich, Founding Editor, Schröder, Wolfgang, Series Editor, Boersma, Bendiks Jan, Editorial Board Member, Fujii, Kozo, Editorial Board Member, Haase, Werner, Editorial Board Member, Leschziner, Michael A., Editorial Board Member, Periaux, Jacques, Editorial Board Member, Pirozzoli, Sergio, Editorial Board Member, Rizzi, Arthur, Editorial Board Member, Roux, Bernard, Editorial Board Member, Shokin, Yurii I., Editorial Board Member, Mäteling, Esther, Managing Editor, Hirsch, Charles, editor, Hillewaert, Koen, editor, Hartmann, Ralf, editor, Couaillier, Vincent, editor, Boussuge, Jean-Francois, editor, Chalot, Frederic, editor, and Bosniakov, Sergey, editor

Published
2021
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7. Selection of the Reference Stars for Astrometric Reduction of CCD-Frames

Author

Savanevych, Vadym, Akhmetov, Volodymyr, Khlamov, Sergii, Dikov, Eugene, Briukhovetskyi, Alexsander, Vlasenko, Vladimir, Khramtsov, Vladislav, Movsesian, Iana, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Shakhovska, Natalya, editor, and Medykovskyy, Mykola O., editor

Published
2020
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12. DEVISING AN EDGE EFFECT COMPENSATION PROCEDURE TO ELIMINATE STRUCTURAL DISTORTIONS DURING FREQUENCY FILTERING.

Author

Vlasenko, Vladimir, Khlamov, Sergii, Savanevych, Vadym, Vovk, Oleksandr, Hadzhyiev, Emil, Bondar, Yehor, and Netrebin, Yuriy

Subjects
HIGHPASS electric filters, SIGNAL-to-noise ratio, SOLAR system, PROBLEM solving, PIXELS
Abstract

The object of this study is the process of filtering astronomical frames that contain images of potential objects in the Solar System. To recognize the image of each such object in contrast with the background of the frame, it is necessary to carry out frequency filtering of the image. Any frequency filtering using various image filters is aimed at reducing the dynamic range of the background substrate. Also, frequency filtering leads to an increase in the signalto-noise ratio of the entire image or its fragments, depending on the configuration. However, the identified problem area of each image during frequency filtering is the distortion of the structure of its edges. Therefore, to solve this problem, an edge effect compensation procedure has been proposed to eliminate structural distortions during frequency filtering. Complementing the image with borders on all sides and the augmented extended image made it possible to introduce a formal connection between the pixel values of the extended image fragment and the pixel values of the extended original image. Testing was carried out using a high-pass Gaussian filter. The use of the devised edge effect compensation procedure made it possible to remove distortion of the structure of the image edges. The devised edge effect compensation procedure was tested in practice within the CoLiTec project. It was implemented during the in-frame processing stage of the Lemur software. The study showed that the use of the devised edge effect compensation procedure makes it possible to remove image artifacts compared to conventional filtering without taking into account the edge effect. Also, owing to edge effect compensation, structural image distortions were eliminated, and the signal-to-noise ratio was increased by 7-10 times. [ABSTRACT FROM AUTHOR]

Published
2024
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13. DEVELOPMENT OF A PROCEDURE FOR FRAGMENTING ASTRONOMICAL FRAMES TO ACCELERATE HIGH FREQUENCY FILTERING.

Author

Vlasenko, Vladimir, Khlamov, Sergii, Savanevych, Vadym, Trunova, Tetiana, Deineko, Zhanna, and Tabakova, Iryna

Subjects
HIGHPASS electric filters, SIGNAL-to-noise ratio, SOLAR system, PROBLEM solving, HIGH dynamic range imaging
Abstract

The object of this study is the process of filtering astronomical frames that contain images of potential objects in the Solar System. To contour the image of each such object and recognize it in contrast with the background of the frame, it is necessary to filter the image. Most often, a variety of high-pass filters are used to determine the high-frequency component of the image, which can be removed as a coarse-grained component. Any image filtering is aimed at increasing the signal-to-noise ratio and reducing the dynamic range of the background image. However, the filtering process is quite resource- and time-consuming. This is especially true for systems for parallel processing of series of astronomical frames in real time (online). Therefore, to solve the problem of lack of frame fragmentation, which leads to high consumption of RAM, a procedure for fragmenting astronomical frames has been proposed. Owing to the introduction of a formal connection between the values of frame pixels and fragments, as well as determining their number, it was possible to reduce RAM utilization. Testing was carried out using the following high-pass filters ‒ ideal filter, Butterworth filter, and Gaussian filter. Using the devised procedure for fragmenting astronomical frames has made it possible to reduce the utilization of RAM during filtering. As a result, with parallel processing, this has also made it possible to speed up the high-frequency filtering procedure itself. The procedure devised for fragmenting astronomical frames was tested in practice within the framework of the CoLiTec project. It was implemented in the On-Line Data Analysis System (OLDAS) of the Lemur software. The study showed that when using the devised procedure, RAM utilization was reduced by 7–10 times. And the speed of filtration itself increased by 2–3 times. Accordingly, the processing time for each astronomical frame was reduced by 2–3 times. [ABSTRACT FROM AUTHOR]

Published
2024
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14. DEVISING A PROCEDURE FOR THE BRIGHTNESS ALIGNMENT OF ASTRONOMICAL FRAMES BACKGROUND BY A HIGH FREQUENCY FILTRATION TO IMPROVE ACCURACY OF THE BRIGHTNESS ESTIMATION OF OBJECTS.

Author

Vlasenko, Vladimir, Khlamov, Sergii, and Savanevych, Vadym

Subjects
FILTERS & filtration, HIGHPASS electric filters, ASTRONOMICAL catalogs, OBJECT recognition (Computer vision), SIGNAL-to-noise ratio, STANDARD deviations, IDENTIFICATION, HIGH dynamic range imaging
Abstract

The object of this study is the background substrate of astronomical frames. To detect and compare the image of an object in a frame with its real image from astronomical catalogs, it is necessary to uniformly distribute the brightness of the background image substrate. Most often, the background alignment of astronomical frames is performed using the hardware calibration method applying the construction of service frames. However, it does not make it possible to eliminate the background from temporary stray light. Therefore, to solve this problem, a procedure has been proposed for brightness alignment of the background frame using high-pass filtering. For high-pass filtering of images, three high-pass filters were considered – an ideal filter, a Butterworth filter, and a Gaussian filter. To remove coarse-grained image components from the image, a highpass filter was used, which attenuates lowfrequency harmonics of the image spectrum while simultaneously passing high-frequency harmonics. Applying the devised procedure for brightness alignment of the background substrate of the frame has made it possible to increase the signal-to-noise ratio and reduce the dynamic range of the background substrate of the image. The study showed that when assessing brightness and identifying frames, the fitting provides better accuracy of reference to the starry sky. Also, the standard deviation of frame identification errors in this case is 5–7 times less than without using the devised procedure. The devised procedure for brightness alignment of the background frame substrate was tested in practice within the framework of the CoLiTec project. It was implemented at the stage of intra-frame processing in the Lemur software for automated detection of new objects and tracking of known objects. [ABSTRACT FROM AUTHOR]

Published
2024
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23. Synthesis and crystal growth of novel layered bismuthides ATM 2 Bi 2 ( A =K, Rb, Cs; TM =Zn, Cd), electron‐deficient compounds with the ThCr 2 Si 2 structure

Author

Shilov, Andrey I., primary, Pervakov, Kirill S., additional, Lyssenko, Konstantin A., additional, Vlasenko, Vladimir A., additional, Efremov, Dmitri V., additional, Aswartham, Saicharan, additional, Simonov, Sergey V., additional, Morozov, Igor V., additional, and Shevelkov, Andrei V., additional

Published
2023
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27. Improved Delayed Detached Eddy Simulation of Combustion of Hydrogen Jets in a High-Speed Confined Hot Air Cross Flow II: New Results.

Author

Bakhne, Sergei, Vlasenko, Vladimir, Troshin, Alexei, Sabelnikov, Vladimir, and Savelyev, Andrey

Subjects
*AIR flow, *COMBUSTION, *EDDIES, *AIR ducts, *CHEMICAL models, *PLASMA turbulence, *COUNTERFLOWS (Fluid dynamics)
Abstract

The improved delayed detached Eddy simulation (IDDES) approach used in the part I of this investigation to study the self-ignition and combustion of hydrogen jets in a high-speed transverse flow of hot vitiated air in a duct is extended in the following directions: (i) the wall boundary conditions are modified to take into account the optical windows employed in the experiments; (ii) the detailed chemical kinetic model with 19 reactions is used; (iii) a nonlinear turbulence model is implemented in the code to capture the secondary flows in the duct corners; (iv) the wall roughness model is adapted; (v) the synthetic turbulence generator is imposed upstream of the fuel injection. As a result of improving the mathematical and physical problem statements, a good agreement between the simulation and the experimental database obtained at the LAERTE workbench (ONERA) is achieved. [ABSTRACT FROM AUTHOR]

Published
2023
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33. IMPROVING THE ACCURACY OF IDENTIFYING OBJECTS IN DIGITAL FRAMES OF ONE SERIES THROUGH THE PROCEDURE OF PRELIMINARY IDENTIFICATION OF MEASUREMENTS.

Author

Khlamov, Sergii, Savanevych, Vadym, Vlasenko, Vladimir, Trunova, Tetiana, Troianskyi, Volodymyr, Shvedun, Viktoriya, and Tabakova, Iryna

Subjects
SOLAR system, IDENTIFICATION, PARAMETER estimation, STANDARD deviations, PROBLEM solving
Abstract

The object of this study is images of various objects of the Solar System on a series of digital frames. The variety and quality of shooting conditions make it difficult to identify a frame with the corresponding part of the sky. This fact significantly reduces the quality indicators of detection and estimation of the position of objects of the Solar System using already known computational methods and international astronomical astrometric and photometric catalogs. To solve this problem, a procedure for preliminary identification of measurements of digital frames of one series was devised. This procedure is based on the determination of the shift parameters between the dimensions of a frame and the forms of a catalog or another frame. Also, taking into account the possibility of forming false measurements has made it possible to increase the accuracy of identification and resistance to various kinds of destabilizing factors. Based on this, the final estimation of the shift parameters between frames was performed. Due to these features, the use of the devised preliminary identification procedure makes it possible to improve identification with reference astronomical objects and reduce the number of false detections. The study showed that when identifying frames, the fitting gives the best accuracy of binding to the starry sky. Also, the standard deviation of frame identification errors in this case is 7–10 times less than without using the devised procedure. The procedure developed for preliminary identification of measurements of digital frames of one series was tested in practice within the framework of the CoLiTec project. It has been incorporated into the Lemur software for automated detection of new and tracking of known objects. Owing to the use of the Lemur software and the proposed procedure implemented in it, more than 700,000 measurements of various astronomical objects under study were successfully identified. [ABSTRACT FROM AUTHOR]

Published
2023
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35. DEVELOPMENT OF A METHOD FOR DETERMINING THE APERTURE BRIGHTNESS OF AN OBJECT USING A TYPICAL FORM OF ITS IMAGE.

Author

Khlamov, Sergii, Savanevych, Vadym, Vlasenko, Vladimir, Trunova, Tetiana, Shvedun, Viktoriia, Postupna, Оlenа, and Tabakova, Iryna

Subjects
FALSE positive error, LEAST squares, VARIABLE stars
Abstract

The object of this study is the aperture brightness of the image of the object, which has a variety of typical shapes in the frames of the series. It directly depends on the stability of the shooting conditions of the objects under study. Thus, determining the exact aperture brightness of an object in the frame becomes more difficult. For this purpose, a method was devised for determining the aperture brightness of an object using the typical shape of its image on a series of frames. This method is based on the formation of a typical shape of a digital image of an object based on data from all frames of the series. The typical shape makes it possible to take into account the peculiarities of the formation of the image of the object on each frame of the series. Based on this, a more accurate estimate of the initial approximation of the parameters of all Gaussian images of the object is performed. In addition, the adaptation of the method to the standard shape makes it possible to perform a more accurate assessment of the aperture brightness of the object in comparison with the analytically defined profile. An estimate of the aperture brightness of the object was derived using the least squares method. Due to minimization using the Levenberg-Marquardt algorithm, the use of the method improved identification with reference objects and reduced the number of false positives. The study showed a decrease in the standard deviation of frame identification errors by 5–7 times when using a typical shape of a digital image. The devised method for determining an object's aperture brightness using its image's typical shape was tested in practice within the framework of the CoLiTec project. It was implemented in the intra-frame processing unit of the CoLiTecVS software for the automated construction of brilliance curves of the studied variable stars. Owing to the use of the CoLiTecVS software and the proposed computational method implemented in it, more than 700,000 measurements of various objects under study were successfully processed and identified. [ABSTRACT FROM AUTHOR]

Published
2023
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36. Synthesis and crystal growth of novel layered bismuthides ATM2Bi2 (A=K, Rb, Cs; TM=Zn, Cd), electron‐deficient compounds with the ThCr2Si2 structure.

Author

Shilov, Andrey I., Pervakov, Kirill S., Lyssenko, Konstantin A., Vlasenko, Vladimir A., Efremov, Dmitri V., Aswartham, Saicharan, Simonov, Sergey V., Morozov, Igor V., and Shevelkov, Andrei V.

Subjects
CRYSTAL growth, ELECTRON-deficient compounds, ALKALI metals, X-ray powder diffraction, SINGLE crystals, SCANNING electron microscopy
Abstract

We report crystal growth and characterization of 4 new ternary layered bismuthides with compositions KZn2Bi2 (I), RbZn2Bi2 (II), RbCd2Bi2 (III), and CsCd2Bi2 (IV) that belong to the vast 122 family of compounds. Single crystals were grown by self‐flux technique and characterized by a combination of powder X‐ray diffraction, scanning electron microscopy, energy‐dispersive X‐ray spectroscopy, and single crystal X‐ray diffraction. All new compounds crystallize in the layered ThCr2Si2 structure type and exhibit the plate‐like morphology with weak bonding between layers. A significant structural difference between ACd2Bi2 and AZn2Bi2 is found and discussed. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Synthesis and HRTEM Investigation of EuRbFe 4 As 4 Superconductor.

Author

Degtyarenko, Alena Yu., Karateev, Igor A., Ovcharov, Alexey V., Vlasenko, Vladimir A., and Pervakov, Kirill S.

Subjects
SUPERCONDUCTORS, IRON-based superconductors, TRANSMISSION electron microscopy, SUPERCONDUCTIVITY, MAGNETIZATION measurement, ATOMIC structure
Abstract

In the stoichiometric iron-based superconductor EuRbFe4As4, superconductivity coexists with a long-range magnetic ordering in Eu layers. Using high-resolution transmission electron microscopy (HRTEM), we observed an atomic structure of as-grown EuRbFe4As4 crystals. HRTEM shows that crystals have two-dimensional intrinsic nanoinclusions established to be the RbFe2As2 (122) phase with a volume fraction of ~5.6%. In contrast with the CaKFe4As4 compound, similar inclusions are not superconducting down to 2 K, and no second magnetization peak was observed in the magnetization measurements at low temperature with B ‖ ab. We show that the non-superconducting 122 phase nanoinclusions could act as 2D pinning centers. [ABSTRACT FROM AUTHOR]

Published
2022
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38. Novel magnetic stoichiometric superconductor EuRbFe4As4

Author

Kim, Timur K., Pervakov, Kirill S., Vlasenko, Vladimir A., Sadakov, Andrei V., Usol’tsev, A.S., Evtushinsky, Daniil V., Jung, Sungwon, Poelchen, Georg, Kummer, Kurt, Roditchev, Dmitrii, Stoliarov, Vasily S., Golovchanskiy, Igor A., Vyalikh, Denis V., Borisov, Vladislav, Valentí, Roser, Ernst, Arthur, Eremeev, Sergey V., Chulkov, Evgenii V., Pudalov, Vladimir M., Kim, Timur K., Pervakov, Kirill S., Vlasenko, Vladimir A., Sadakov, Andrei V., Usol’tsev, A.S., Evtushinsky, Daniil V., Jung, Sungwon, Poelchen, Georg, Kummer, Kurt, Roditchev, Dmitrii, Stoliarov, Vasily S., Golovchanskiy, Igor A., Vyalikh, Denis V., Borisov, Vladislav, Valentí, Roser, Ernst, Arthur, Eremeev, Sergey V., Chulkov, Evgenii V., and Pudalov, Vladimir M.

Abstract

In the novel stoichiometric iron-based material RbEuFe4As4 superconductivity coexists with a peculiar long-range magnetic order of Eu 4f states; their coexistance is puzzling and represents a challenge for both experiment and theory. Using angle-resolved photoemission spectroscopy, resonant photoemission spectroscopy, Andreev reflection spectroscopy and scanning tunneling spectroscopy we have addressed this puzzle and unambigously shown that Fe- and Eu-derived states are largely decoupled and that superconducting and a long range magnetic orders exist almost independently from each other.

Published
2021

39. Novel magnetic stoichiometric superconductor compound EuRbFe4As4

Author

Kim, Timur K., primary, Pervakov, Kirill S., additional, Vlasenko, Vladimir A., additional, Sadakov, Andrei V., additional, Usol'tsev, A.S., additional, Evtushinsky, Daniil V., additional, Jung, Sungwon, additional, Poelchen, Georg, additional, Kummer, Kurt, additional, Roditchev, Dmitrii, additional, Stoliarov, Vasily S., additional, Golovchanskiy, Igor' A., additional, Vyalikh, Denis V., additional, Borisov, Vladislav, additional, Valenti, Roser, additional, Ernst, Arhur, additional, Eremeev, Sergey V., additional, Chulkov, Evgenii V., additional, and Pudalov, Vladimir M., additional

Published
2021
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40. Novel magnetic stoichiometric superconductor compound EuRbFe4As4

Author

Kim, Timur, primary, Pervakov, Kirill S., additional, Vlasenko, Vladimir A., additional, Sadakov, Andrei V., additional, Usol'tsev, A.S., additional, Evtushinsky, Daniil, additional, Jung, Sungwon, additional, Poelchen, Georg, additional, Kummer, Kurt, additional, Roditchev, Dmitrii, additional, Stoliarov, Vasily S., additional, Golovchanskii, Igor' A., additional, Vyalikh, Denis V., additional, Borisov, Vladislav, additional, Valenti, Roser, additional, Ernst, Arhur, additional, Eremeev, Sergey V., additional, Chulkov, Evgenii V., additional, and Pudalov, Vladimir M., additional

Published
2021
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41. Electronic Structures and Surface Reconstructions in Magnetic Superconductor RbEuFe4As4

Author

Stolyarov, Vasily S., primary, Pervakov, Kirill S., additional, Astrakhantseva, Anna S., additional, Golovchanskiy, Igor A., additional, Vyalikh, Denis V., additional, Kim, Timur K., additional, Eremeev, Sergey V., additional, Vlasenko, Vladimir A., additional, Pudalov, Vladimir M., additional, Golubov, Alexander A., additional, Chulkov, Eugene V., additional, and Roditchev, Dimitri, additional

Published
2020
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43. Analysis of subsonic premixed turbulent reacting flow in a backward-step combustor using PaSR models

Author

SHIRYAEVA, Anna, TROSHIN, Alexey, VLASENKO, Vladimir, and SABELNIKOV, Vladimir

Subjects
Physics::Fluid Dynamics, NUMERICAL SIMULATION, Physics::Chemical Physics, CFD, TURBULENT COMBUSTION, SUBSONIC
Abstract

An example of Partially Stirred Reactor (PaSR) models application within RANS framework to the description of flows with turbulent combustion is presented. P. Magre et al. experiment of a methane/air premixed combustion in a subsonic flow in duct with a reverse step is simulated numerically. The focus is on Turbulence/Combustion Interaction contribution, on the analysis of combustion stabilization mechanism and on arising in calculations oscillations study. Influence of turbulent transport coefficients is considered. The simulation results are compared with the experiment and with calculations by other authors. Preliminary results of LES calculations are presented.

Published
2019
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44. Large eddy simulation of a transverse hydrogen jet in supersonic crossflow

Author

TROSHIN, Alexey, VLASENKO, Vladimir, and SABELNIKOV, Vladimir

Subjects
Physics::Fluid Dynamics, LARGE EDDY SIMULATION, TURBULENT COMBUSTION
Abstract

Simulations of a transverse hydrogen jet injection in supersonic air flow are presented carried out using TsAGI in-house finite volume code zFlare. Hybrid SST-IDDES model with SLA subgrid length scale was employed. The computational mesh contained 22 million cells. In the paper, vortex structure of the flow is analyzed, combustion zones are detected and compared to the experimental data, separation zone length is determined, and hydrogen flow penetration depth is estimated. At least qualitative correspondence to the experiment is found, and for certain flow characteristics, quantitative improvement is obtained as compared with the data available in the literature.

Published
2019
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49. Vortex pinning and magnetic phase diagram of EuRbFe4As4 iron-based superconductor.

Author

Vlasenko, Vladimir, Pervakov, Kirill, and Gavrilkin, Sergey

Subjects
*MAGNETIC transitions, *IRON-based superconductors, *SPHEROMAKS, *MAGNETIC measurements, *MAGNETIC susceptibility, *MAGNETIC moments, *ANTIFERROMAGNETISM
Abstract

We performed systematic AC susceptibility and magnetic moment measurements to investigate the vortex dynamics and pinning in single crystals as a function of temperature, frequency, and DC magnetic field. The vortex solid-liquid line was determined, and it can be fitted well with using β = 1.74 ± 0.1–1.91 ± 0.1, where Tp is the peak position on an imaginary part of the AC susceptibility plot (), for H ab. It indicates a rather high pinning strength of the vortex system. The activation energy U0 was determined from thermally activated flux creep theory and reached 6700 ± 1100 K at low fields, suggesting strong vortex pinning. A field dependence of U0(H ab) ∼ Ha with a = 0.47(4) suggests thermally activated plastic pinning or caused by planar defects. Magnetic moment measurements also confirmed strong pinning in the superconductor, and the superconducting response gives the main contribution to the M(H) hysteresis. Additionally, we show long-range ordering of the Eu2 + sublattice according to the AC susceptibility measurement data. [ABSTRACT FROM AUTHOR]

Published
2020
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