Your search keyword '"A. Kushnirenko"' showing total 1,544 results

1. Driven by Brownian motion Cox-Ingersoll-Ross and squared Bessel processes: interaction and phase transition

Author

Mishura, Yuliya, Ralchenko, Kostiantyn, and Kushnirenko, Svitlana

Subjects

Mathematics - Probability, 60H10

Abstract

This paper studies two related stochastic processes driven by Brownian motion: the Cox-Ingersoll-Ross (CIR) process and the Bessel process. We investigate their shared and distinct properties, focusing on time-asymptotic growth rates, distance between the processes in integral norms, and parameter estimation. The squared Bessel process is shown to be a phase transition of the CIR process and can be approximated by a sequence of CIR processes. Differences in stochastic stability are also highlighted, with the Bessel process displaying instability, while the CIR process remains ergodic and stable., Comment: 21 pages

Published

2024

2. Band structure and charge ordering of Dirac semimetal EuAl$_4$ at low temperatures

Author

Eaton, Andrew, Kuthanazhi, Brinda, Canfield, Paul C., Schrunk, Benjamin, Jo, Na Hyun, Kushnirenko, Yevhen, O'Leary, Evan, Wang, Lin-Lin, and Kaminski, Adam

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

EuAl$_4$ is proposed to host a topological Hall state. This material also undergoes four consecutive antiferromagnetic (AFM) transitions upon cooling below TN1 = 15.4 K in the presence of charge density wave (CDW) order that sets in below TCDW = 140 K. We use angle-resolved photoemission spectroscopy and density-functional-theory calculations to study how magnetic ordering affects the electronic properties in EuAl$_4$. We found changes in the band structure upon each of the four consecutive AFM transitions including band splitting, renormalizations, and appearance of new bands forming additional Fermi sheets. In addition we also found significant enhancement of the quasiparticles' lifetime due to suppression of spin flip scattering, similar to what was previously reported for ferromagnetic EuCd$_2$As$_2$. Surprisingly, we observe that most significant changes in electronic properties occur not at TN1, but instead at the AFM3 to AFM4 transition, which coincides with the largest drop in resistivity.

Published

2024

3. Unexpected changes in the band structure within AFM1 state of CeBi

Author

Kushnirenko, Yevhen, Kuthanazhi, Brinda, Schrunk, Benjamin, O'Leary, Evan, Eaton, Andrew, Slager, Robert-Jan, Ahn, Junyeong, Wang, Lin-Lin, Canfield, Paul C., and Kaminski, Adam

Subjects

Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Other Condensed Matter

Abstract

We perform angle-resolved photoemission spectroscopy (ARPES) measurements in conjunction with density functional theory (DFT) calculations to investigate the evolution of the electronic structure of CeBi upon a series of antiferromagnetic (AFM) transitions. We find evidence for a new AFM transition in addition to two previously known from transport studies. We demonstrate the development of an additional Dirac state in the (+-+-) ordered phase and a transformation of unconventional surface-state pairs in the (++--) ordered phase. This revises the phase diagram of this intriguing material, where there are now three distinct AFM states below TN in zero magnetic field instead of two as it was previously thought., Comment: 16 pages, 4 figures

Published

2024

4. Long-range magnetic order induced surface state in GdBi and DyBi

Author

Kushnirenko, Yevhen, Wang, Lin-Lin, Li, Zhuoqi, Kuthanazhi, Brinda, Schrunk, Benjamin, O'Leary, Evan, Eaton, Andrew, Canfield, Paul., and Kaminski, Adam

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The recent discovery of unconventional surface-state pairs, which give rise to Fermi arcs and spin textures, in antiferromagnetically ordered rare-earth monopnictides attracted the interest in these materials. We use angle-resolved photoemission spectroscopy (ARPES) measurements in conjunction with density functional theory (DFT) calculations to investigate the evolution of the electronic structure of GdBi and DyBi. We find that new surface states, including a Dirac cone, emerge in the AFM state. However, they are located along a direction in momentum space that is different than what was found in NdSb, NdBi, and CeBi. The observed changes in the electronic structure are consistent with the presence of AFM-II-A type order.

Published

2024

5. Band Structure and Fermi Surface Nesting in $LaSb_2$

Author

O'Leary, Evan, Wang, Lin-Lin, Kushnirenko, Yevhen, Schrunk, Ben, Eaton, Andrew, Herrera-Siklody, Paula, Canfield, Paul C., and Kaminski, Adam

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We use high-resolution angle resolved photoemission spectroscopy (ARPES) and density functional theory (DFT) to investigate the electronic structure of the charge density wave (CDW) system LaSb$_2$. This compound is among an interesting group of materials that manifests both a CDW transition and lower temperature superconductivity. We find the DFT calculations to be in good agreement with our ARPES data. The Fermi surface of LaSb$_2$ consists of two small hole pockets close to $\Gamma$ and four larger pockets near the Brillouin zone (BZ) boundary. The overall features of the Fermi surface do not vary with temperature. A saddle point is present at -0.19 $eV$ below the Fermi level at $\Gamma$. Critical points in band structure have more pronounced effects on a materials properties when they are located closer to the Fermi level, making doped LaSb$_2$ compounds a potential interesting subject of future research. Multiple peaks are present in the generalized, electronic susceptibility calculations indicating the presence of possible nesting vectors. We were not able to detect any signatures of the CDW transition at 355 K, pointing to the subtle nature of this transition. This is unusual, given that such a high transition temperature is expected to be associated with the presence of a large CDW gap. This is confirmed through investigation of the Fermi surface and through analysis of momentum distribution curves (MDC). It is possible that changes are subtle and occur below current sensitivity of our measurements.

Published

2024

6. Unexpected band structure changes within the higher-temperature antiferromagnetic state of CeBi

Author

Yevhen Kushnirenko, Brinda Kuthanazhi, Benjamin Schrunk, Evan O’Leary, Andrew Eaton, Robert-Jan Slager, Junyeong Ahn, Lin-Lin Wang, Paul C. Canfield, and Adam Kaminski

Subjects

Materials of engineering and construction. Mechanics of materials, TA401-492

Abstract

Abstract The interest in the rare-earth monopnictides was boosted after the discovery of unconventional surface-state pairs in antiferromagnetically ordered NdBi. In contrast to other materials in which such states were reported, CeBi is known to have multiple antiferromagnetic phases. In this study, we perform angle-resolved photoemission spectroscopy (ARPES) measurements in conjunction with density functional theory (DFT) calculations to investigate the evolution of the electronic structure of CeBi upon a series of antiferromagnetic (AFM) transitions. We find evidence for a new AFM transition in addition to two previously known from transport studies. We demonstrate the development of an additional Dirac state in the ( + − + − ) ordered phase and a transformation of unconventional surface-state pairs in the ( + + − − ) ordered phase. This revises the phase diagram of this intriguing material, where there are now three distinct AFM states below T N in zero magnetic field instead of two as it was previously thought.

Published

2024

7. The transverse momentum dependence of charged kaon Bose–Einstein correlations in the SELEX experiment

Author

G.A. Nigmatkulov, A.K. Ponosov, U. Akgun, G. Alkhazov, J. Amaro-Reyes, A. Asratyan, A.G. Atamantchouk, A.S. Ayan, M.Y. Balatz, A. Blanco-Covarrubias, N.F. Bondar, P.S. Cooper, L.J. Dauwe, G.V. Davidenko, U. Dersch, A.G. Dolgolenko, G.B. Dzyubenko, R. Edelstein, L. Emediato, A.M.F. Endler, J. Engelfried, I. Eschrich, C.O. Escobar, N. Estrada, A.V. Evdokimov, I.S. Filimonov, A. Flores-Castillo, F.G. Garcia, I. Giller, V.L. Golovtsov, P. Gouffon, E. Gülmez, M. Iori, S.Y. Jun, M. Kaya, J. Kilmer, V.T. Kim, L.M. Kochenda, I. Konorov, A.P. Kozhevnikov, A.G. Krivshich, H. Krüger, M.A. Kubantsev, V.P. Kubarovsky, A.I. Kulyavtsev, N.P. Kuropatkin, V.F. Kurshetsov, A. Kushnirenko, J. Lach, L.G. Landsberg, I. Larin, E.M. Leikin, G. López-Hinojosa, T. Lungov, V.P. Maleev, D. Mao, P. Mathew, M. Mattson, V. Matveev, E. McCliment, M.A. Moinester, V.V. Molchanov, A. Morelos, A.V. Nemitkin, P.V. Neoustroev, C. Newsom, A.P. Nilov, S.B. Nurushev, A. Ocherashvili, Y. Onel, S. Ozkorucuklu, A. Penzo, S.V. Petrenko, M. Procario, V.A. Prutskoi, B.V. Razmyslovich, D.A. Romanov, V.I. Rud, J. Russ, J.L. Sánchez-López, A.A. Savchenko, J. Simon, G.V. Sinev, A.I. Sitnikov, V.J. Smith, M. Srivastava, V. Steiner, V. Stepanov, L. Stutte, M. Svoiski, V.V. Tarasov, N.K. Terentyev, I. Torres, L.N. Uvarov, A.N. Vasiliev, D.V. Vavilov, E. Vázquez-Jáuregui, V.S. Verebryusov, V.A. Victorov, V.E. Vishnyakov, A.A. Vorobyov, K. Vorwalter, J. You, and R. Zukanovich-Funchal

Subjects

Correlation femtoscopy, HBT intensity interferometry, Kaon–kaon interactions, Bose–Einstein correlations, Physics, QC1-999

Abstract

We report the measurement of the one-dimensional charged kaon correlation functions using 600GeV/c Σ−, π− and 540GeV/c p beams from the SELEX (E781) experiment at the Fermilab Tevatron. K±K± correlation functions are studied for three transverse pair momentum, kT, ranges and parameterized by a Gaussian form. The emission source radii, R, and the correlation strength, λ, are extracted. The analysis shows a decrease of the source radii with increasing kaon transverse pair momentum for all beam types.

Published

2016

8. Directional effects of antiferromagnetic ordering on the electronic structure in NdSb

Author

Kushnirenko, Yevhen, Kuthanazhi, Brinda, Wang, Lin-Lin, Schrunk, Benjamin, O'Leary, Evan, Eaton, Andrew, Canfield, P. C., and Kaminski, Adam

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The recent discovery of unconventional surface state pairs, which give rise to Fermi arcs and spin textures, in antiferromagnetically ordered NdBi raised the interest in rare-earth monopnictides. Several scenarios of antiferromagnetic order have been suggested to explain the origin of these states with some of them being consistent with the presence of non-trivial topologies. In this study, we use angle-resolved photoemission spectroscopy (ARPES) and density-functional-theory (DFT) calculations to investigate the electronic structure of NdSb. We found the presence of distinct domains that have different electronic structure at the surface. These domains correspond to different orientations of magnetic moments in the AFM state with respect to the surface. We demonstrated remarkable agreement between DFT calculations and ARPES that capture all essential changes in the band structure caused by transition to a magnetically ordered state.

Published

2023

9. Prospects for maize processing for the development of bioeconomy and decarbonisation in Ukraine

Author

Oksana Kushnirenko, Vitalii Venger, Nataliia Valinkevych, Nataliia Hakhovych, and Oleksandr Bykonia

Subjects

sustainable development, green deal, carbon footprint, deep processing of agricultural raw materials, added value, green energy, Agriculture

Abstract

Under the terms of the European Green Deal, including the transition to a green economy, decarbonisation, and a sustainable model of inclusive growth, Ukraine has committed itself to achieving climate neutrality by 2060. The military challenges caused by Russia’s full-scale invasion of Ukraine require an in-depth investigation and substantiation of mechanisms for developing promising areas of deep processing of domestic agricultural raw materials to ensure food security, domestic market development, and post-war economic recovery. The purpose of this study was to analyse and assess the potential for processing Ukrainian maize in the context of bioeconomy development, specifically to produce starch, bioplastics, and bioethanol. The study was conducted using a systematic approach with extrapolation methods, exponential smoothing, and confidence interval construction to assess the forecast. It was proved that Ukraine has all the opportunities to increase the production of a wider product line of deeply processed maize products. Realising the potential of maize processing as a biological and energy feedstock in the Ukrainian economy for post-war recovery depends on the creation of an innovative bioeconomy infrastructure, through strengthening strategic partnerships between agricultural producers, research institutions and public authorities, cluster development and export promotion. The practical value of this study lies in the developed recommendations for the implementation of maize processing opportunities for the development of the bioeconomy and acceleration of decarbonisation in Ukraine

Published

2024

10. Correction of azotemia in patients with chronic kidney disease

Author

S.V. Kushnirenko, L.N. Savytska, T.B. Bevzenko, S.O. Rotova, O.Y. Lysianska, and O.V. Kushnirenko

Subjects

chronic kidney disease, acute kidney injury, estimated glomerular filtration rate, azotemia, lespedeza capitata, silymarin, duonephril®, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Chronic kidney disease (CKD) has become one of the most common non-infectious chronic diseases in the world. The World Health Organization predicts that CKD will become the 5th most common chronic disease in 2040. The causes of CKD are multifactorial and varied, but early symptoms are often subtle and silent. For most patients with CKD, pharmacological treatment involves a more general approach that does not depend on the nephrosclerosis. It is believed that in addition to the renoprotective effect, the issue of correcting azotemia in patients with CKD remains relevant. Azotemia is a biochemical abnormality defined as an increase or accumulation of nitro­genous products, creatinine in the blood and other secondary waste pro­ducts in the body. An increase in the level of nitrogenous wastes is associated with the inability of the renal system to adequately filter waste products. This is a typical sign of both acute kidney injury and CKD. For the correction of azotemia in patients with CKD, it is advi­sable and pathogenetically justified to use Duo­nefril® (Lespedeza capitata extract in combination with silymarin), which contains a scientifically based combination of substances of plant origin with nephroprotective properties. Duonefril® in combination with traditional approaches helps preserve and improve the filtration function of the kidneys, due to an increase in the estimated glomerular filtration rate and a hypoazotemic effect in CKD against the background of diabetes mellitus, hypertension and other kidney conditions

Published

2023

11. Electronic signatures of successive itinerant, magnetic transitions in hexagonal La2Ni7

Author

Lee, Kyungchan, Jo, Na Hyun, Wang, Lin-Lin, Ribeiro, R. A., Kushnirenko, Yevhen, Schrunk, Ben, Canfield, Paul C., and Kaminski, Adam

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

We use high-resolution angle-resolved photoemission spectroscopy (ARPES) and density functional theory (DFT) calculations to study the electronic and magnetic properties of La2Ni7, an itinerant magnetic system with a series of three magnetic transition temperatures upon cooling, which end in a weak itinerant antiferromagnetic (wAFM) ground state. Our APRES data reveal several electron and hole pockets that have hexagonal symmetry near the $\Gamma$ point. We observe significant reconstruction of the band structure upon successive magnetic transitions at T1 = 61 K, T2 = 57 K and T3 = 42 K. The experimental data are in a reasonable agreement with DFT calculations, demonstrating their applicability to itinerant antiferromagnet systems. Our results detail the effects of magnetic ordering on the electronic structure in a Ni-based weak antiferromagnet., Comment: 17 pages, 4 figures

Published

2022

12. Rare-earth monopnoctides -- family of antiferromagnets hosting magnetic Fermi arcs

Author

Kushnirenko, Yevhen, Schrunk, Benjamin, Kuthanazhi, Brinda, Wang, Lin-Lin, Ahn, Junyeong, O`Leary, Evan, Eaton, Andrew, Bud`ko, S. L., Slager, Robert-Jan, Canfield, P. C., and Kaminski, Adam

Subjects

Condensed Matter - Other Condensed Matter

Abstract

Since the discovery of topological insulators a lot of research effort has been devoted to magnetic topological materials, in which non-trivial spin properties can be controlled by magnetic fields, culminating in a wealth of fundamental phenomena and possible applications. The main focus was on ferromagnetic materials that can host Weyl fermions and therefore spin textured Fermi arcs. The recent discovery of Fermi arcs and new magnetic bands splitting in antiferromagnet (AFM) NdBi has opened up new avenues for exploration. Here we show that these uncharted effects are not restricted to this specific compound, but rather emerge in CeBi, NdBi, and NdSb when they undergo paramagnetic to AFM transition. Our data show that the Fermi arcs in NdSb have 2-fold symmetry, leading to strong anisotropy that may enhance effects of spin textures on transport properties. Our findings thus demonstrate that the RBi and RSb series are materials that host magnetic Fermi arcs and may be a potential platform for modern spintronics., Comment: 19 pages, five figures, supplemental information

Published

2022

13. Unconventional Surface State Pairs in a High-Symmetry Lattice with Anti-ferromagnetic Band-folding

Author

Wang, L. -L., Ahn, J., Slager, R. -J., Kushnirenko, Y., Ueland, B. G., Sapkota, A., Schrunk, B., Kuthanazhi, B., McQueeney, R. J., Canfield, P. C., and Kaminski, A.

Subjects

Condensed Matter - Materials Science

Abstract

Many complex magnetic structures in a high-symmetry lattice can arise from a superposition of well-defined magnetic wave vectors. These "multi-q" structures have garnered much attention because of interesting real-space spin textures such as skyrmions. However, the role multi-q structures play in the topology of electronic bands in momentum space has remained rather elusive. Here we show that the type-I anti-ferromagnetic 1q, 2q and 3q structures in an face-centered cubic sublattice with band inversion, such as NdBi, can induce unconventional surface state pairs inside the band-folding hybridization bulk gap. Our density functional theory calculations match well with the recent experimental observation of unconventional surface states with hole Fermi arc-like features and electron pockets below the Neel temperature. We further show that these multi-q structures have Dirac and Weyl nodes. Our work reveals the special role that band-folding from anti-ferromagnetism and multi-q structures can play in developing new types of surface states., Comment: 31 pages, 11 figures

Published

2022

14. Emergence of Fermi arcs and novel magnetic splitting in an antiferromagnet

Author

Schrunk, Benjamin, Kushnirenko, Yevhen, Kuthanazhi, Brinda, Ahn, Junyeong, Wang, Lin-Lin, O`Leary, Evan, Lee, Kyungchan, Eaton, Andrew, Fedorov, Alexander, Lou, Rui, Voroshnin, Vladimir, Clark, Oliver J., Sanchez-Barriga, Jaime, Bud`ko, Sergey L., Slager, Robert-Jan, Canfield, Paul C., and Kaminski, Adam

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

The Fermi arcs are signatures of exotic states in solids because they defy conventional concept of Fermi surfaces as closed contours in momentum space. Fermi arcs were first discovered in cuprates, and caused by the pseudogap. Weyl semimetals provided another way to generate Fermi arcs by breaking either the time reversal symmetry (TRS) or inversion symmetry of a 3D Dirac semimetal, which can result in a Weyl semimetal with pairs of Weyl nodes that have opposite chirality. The bulk-boundary correspondence associated with the Chern number leads to the emergence of Fermi arcs on the boundary. Here, we present experimental evidence that pairs of magnetically split hole- and electron-like Fermi arcs emerge below the Neel temperature, in the antiferromagnetic (AFM) state of cubic NdBi due to a novel band splitting effect. Whereas TRS is broken by the AFM order, both inversion and nonsymmorphic TRS are preserved in the bulk, precluding the possibility of a Weyl semimetal. The observed magnetic splitting is highly unusual, as it creates bands of opposing curvature, that changes with temperature and follows the antiferromagnetic order parameter. This is completely different from previously reported cases of magnetic splittings such as traditional Zeeman and Rashba, where the curvature of the bands is preserved. Therefore, our finding represents a new Fermionic state created by new type of magnetic band splitting in the presence of a long-range AFM order that are not readily explained by existing theoretical ideas., Comment: 16 pages, 4 figures main text and 20 pages, 12 figures supplement

Published

2022

15. KCo$_2$As$_2$: A New Portal for the Physics of High-Purity Metals

Author

Pandey, Abhishek, Liu, Y., Samal, Saroj L., Kushnirenko, Yevhen, Kaminski, A., Singh, D. J., and Johnston, D. C.

Subjects

Condensed Matter - Strongly Correlated Electrons

Abstract

High-quality single crystals of KCo$_2$As$_2$ with the body-centered tetragonal ThCr$_2$Si$_2$ structure were grown using KAs self flux. Structural, magnetic, thermal, and electrical transport were investigated. No clear evidence for any phase transitions was found in the temperature range 2 to 300 K. The in-plane electrical resistivity $\rho$ versus temperature $T$ is highly unusual, showing a $T^4$ behavior below 30 K and an anomalous positive curvature up to 300 K which is different from the linear behavior expected from the Bloch-Gr\"uneisen theory for electron scattering by acoustic phonons. This positive curvature has been previously observed in the in-plane resistivity of high-conductivity layered delafossites such as PdCoO$_2$ and PtCoO$_2$. The in-plane $\rho(T\to0) = 0.36~\mu\Omega$ cm of KCo$_2$As$_2$ is exceptionally small for this class of compounds. The material also exhibits a nearly linear magnetoresistance at low $T$ which attains a value of about 40% at $T=2$K and magnetic field $H= 80$ kOe. The magnetic susceptibility $\chi$ of KCo$_2$As$_2$ is isotropic and about an order of magnitude smaller than the values for the related compounds SrCo$_2$As$_2$ and BaCo$_2$As$_2$. The $\chi$ increases above 100 K which is found from our first-principles calculations to arise from a sharp peak in the electronic density of states just above the Fermi energy $E_{\rm F}$. Heat capacity $C_{\rm p}(T)$ data at low $T$ yield an electronic density of states $N(E_{\rm F})$ that is about 36% larger than predicted by the first-principles theory. The $C_{\rm p}(T)$ data near room temperature suggest the presence of excited optic vibration modes which may also be the source of the positive curvature in $\rho(T)$. Our results show that KCo$_2$As$_2$ provides a new avenue for investigating the physics of high-purity metals., Comment: 13 pages, 14 figures

Published

2022

16. Genetic Diversity of Promising Spring Wheat Accessions from Russia and Kazakhstan for Rust Resistance

Author

Elena Gultyaeva, Ekaterina Shaydayuk, Ekaterina Shreyder, Igor Kushnirenko, and Vladimir Shamanin

Subjects

molecular markers, Puccinia graminis, Puccinia striiformis, Puccinia triticina, resistance, resistance genes, Botany, QK1-989

Abstract

Spring bread wheat (Triticum aestivum) is a major crop in Russia and in Kazakhstan. The rust pathogens, leaf rust caused by the fungus Puccinia triticina, stem rust incited by P. graminis and yellow rust caused by P. striiformis, are the significant biotic factors affecting wheat production. In this study, 40 new promising spring wheat genotypes from the Kazakhstan-Siberia Network for Spring Wheat Improvement (KASIB) were tested for resistance to leaf, stem and yellow rust at the seedling stage, and for identification of rust resistance genes using molecular markers. In addition, the collection was tested for leaf rust resistance and grain yields in the South Urals agroclimatic zone of Russia in 2023. As a result, 16 accessions with seedling resistance to leaf rust, 21 to stem rust and 4 to yellow rust were identified. Three breeding accessions were resistant to all rust species, and nine to P. triticina and P. graminis. Wheat accessions resistant to leaf rust at the seedling stage were also resistant in the field. Molecular analysis showed the presence of cataloged resistance genes, Lr1, Lr3a, Lr9, Lr10, Lr19, Lr20, Lr24, Lr26, Sr15, Sr24, Sr25, Sr31, Sr38, Yr9 and Yr18; uncatalogued genes Lr6Agi1 and Lr6Agi2 from Thinopyrum intermedium and LrAsp from Aegilops speltoides; and 1AL.1RS translocation. The current analysis showed an increase in leaf and stem rust resistance of new KASIB genotypes and their genetic diversity due to the inclusion of alien genetic material in breeding.

Published

2024

17. Unconventional surface state pairs in a high-symmetry lattice with anti-ferromagnetic band-folding

Author

Wang, Lin-Lin, Ahn, Junyeong, Slager, Robert-Jan, Kushnirenko, Yevhen, Ueland, Benjamin G., Sapkota, Aashish, Schrunk, Benjamin, Kuthanazhi, Brinda, McQueeney, Robert J., Canfield, Paul C., and Kaminski, Adam

Published

2023

18. Fermi surface tomography

Author

Borisenko, Sergey, Fedorov, Alexander, Kuibarov, Andrii, Bianchi, Marco, Bezguba, Volodymyr, Majchrzak, Paulina, Hofmann, Philip, Baumgärtel, Peter, Voroshnin, Vladimir, Kushnirenko, Yevhen, Sanches-Barriga, Jaime, Varykhalov, Andrey, Ovsyannikov, Ruslan, Morozov, Igor, Aswartham, Saicharan, Feya, Oleg, Harnagea, Luminita, Wurmehl, Sabine, Kordyuk, Alexander, Yaresko, Alexander, Berger, Helmuth, and Büchner, Bernd

Subjects

Condensed Matter - Materials Science, Condensed Matter - Superconductivity

Abstract

Fermi surfaces, three-dimensional (3D) abstract interfaces that define the occupied energies of electrons in a solid, are important for characterizing and predicting the thermal, electrical, magnetic, and optical properties of crystalline metals and semiconductors [1]. Angle-resolved photoemission spectroscopy (ARPES) is the only technique directly probing the Fermi surface by measuring the Fermi momenta (kF) from energy and angular distribution of photoelectrons dislodged by monochromatic light [2]. Existing electron analyzers are able to determine a number of kF-vectors simultaneously, but current technical limitations prohibit a direct high-resolution 3D Fermi surface mapping. As a result, no such datasets exist, strongly limiting our knowledge about the Fermi surfaces and restricting a detailed comparison with the widely available nowadays calculated 3D Fermi surfaces. Here we show that using a simpler instrumentation, based on the Fourier electron optics combined with a retardation field of the detector, it is possible to perform 3D-mapping within a very short time interval and with very high resolution. We present the first detailed experimental 3D Fermi surface recorded in the full Brillouin zone along the kz-direction as well as other experimental results featuring multiple advantages of our technique. In combination with various light sources, including synchrotron radiation, our methodology and instrumentation offer new opportunities for high-resolution ARPES in the physical and life sciences., Comment: 14 pages, 4 figures

Published

2021

19. Steganalysis Method for Detecting LSB Embedding in Digital Video, Digital Image Sequence.

Author

Alla Kobozieva, Ivan Bobok, and Nataliya Kushnirenko

Published

2023

20. Error-Free 2d Pictogrammic Syntax in a Programming Learning Environment for Preschool Children

Author

Kushnirenko, A. G., Leonov, A. G., Polikarpov, S. A., Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Silhavy, Radek, editor, Silhavy, Petr, editor, and Prokopova, Zdenka, editor

Published

2023

21. Experimental Evidence of Stable 2$H$ Phase on the Surface of Layered 1$T'$-TaTe$_2$

Author

Kar, Indrani, Dolui, Kapildeb, Harnagea, Luminita, Kushnirenko, Y., Shipunov, G., Plumb, N. C., Shi, M., Büchner, B., and Thirupathaiah, S.

Subjects

Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

We report on the low-energy electronic structure of Tantalum ditelluride (1$T'$-TaTe$_2$), one of the charge density wave (CDW) materials from the group V transition metal dichalcogenides using angle-resolved photoemission spectroscopy (ARPES) and density functional theory (DFT). We find that the Fermi surface topology of TaTe$_2$ is quite complicated compared to its isovalent compounds such as TaS$_2$, TaSe$_2$, and isostructural compound NbTe$_2$. More importantly, we discover that the surface electronic structure of 1$T'$-TaTe$_2$ has more resemblance to the 2$H$-TaTe$_2$, while the bulk electronic structure has more resemblance to the hypothetical 1$T$-TaTe$_2$. These experimental observations are thoroughly compared with our DFT calculations performed on 1$T$-, 2$H$- and 2$H$ (monolayer)/1$T$- TaTe$_2$. We further notice that the Fermi surface topology is temperature independent up to 180 K, confirming that the 2$H$ phase on the surface is stable up to 180 K and the CDW order is not due to the Fermi surface nesting., Comment: 5 figures, 22 pages, Accepted for publication in JPCC

Published

2020

22. Electronic Structure Studies of FeSi: A Chiral Topological System

Author

Changdar, Susmita, Aswartham, S., Bose, Anumita, Kushnirenko, Y., Shipunov, G., Plumb, N. C., Shi, M., Narayan, Awadhesh, Büchner, B., and Thirupathaiah, S.

Subjects

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

Abstract

Most recent observation of topological Fermi arcs on the surface of manyfold degenerate B20 systems, CoSi and RhSi, have attracted enormous research interests. Although an another isostructural system, FeSi, has been predicted to show bulk chiral fermions, it is yet to be clear theoretically and as well experimentally that whether FeSi possesses the topological surface Fermi arcs associated with the exotic chiral fermions in vicinity of the Fermi level. In this contribution, using angle-resolved photoemission spectroscopy (ARPES) and density functional theory (DFT), we present the low-energy electronic structure of FeSi. We further report the surface state calculations to provide insights into the surface band structure of FeSi near the Fermi level. Unlike in CoSi or RhSi, FeSi has no topological Fermi arcs near the Fermi level as confirmed both from ARPES and surface state calculations. Further, the ARPES data show spin-orbit coupling (SOC) band splitting of 40 meV, which is in good agreement with bulk band structure calculations. We noticed an anomalous temperature dependent resistivity in FeSi which can be understood through the electron-phonon interactions as we find a Debye energy of 80 meV from the ARPES data., Comment: 9 pages, 7 figures

Published

2019

23. Implementation of Manchester codec for information transmission systems based on AVR and ARM architecture microcontrollers

Author

Sadchenko А. V., Kushnirenko O. A., Kushnirenko N. P., Sadchenko O. V., and Troyanskiy O. V.

Subjects

optical network, modem, manchester encoding, hardware codec, uart, microcontroller, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

ATmega series AVR microcontrollers (e.g., ATmega8A or ATmega16A) and ARM microcontrollers with a Cortex M3 core (e.g., STM32F103С8T6) are among the most popular controllers used in solving engineering problems related to servicing various fire and security alarm sensors and devices for metering household and industrial power consumption. At the same time, to transfer the data via a twisted pair or AC voltage network, it needs to be encoded using Manchester 1 or Manchester 2 code, and said AVR and ARM microcontroller units (MCU) contain no hardware encoder and decoder for the Manchester code. The study aimed at solving the engineering problem of implementing the codec (encoder-decoder) of the Manchester code based on the hardware interfaces of low-performance microcontrollers. The direct implementation of the encoding algorithm with the Manchester code using a purely software-driven approach significantly decreases the information transfer rate. At the same time, among the hardware interfaces of the MCU, there is always a serial universal asynchronous data transceiver (UART). However, the UART data transfer protocol is not generally suitable for Manchester encoding and, therefore, needs to be software adapted. In order to adapt the UART protocol to the conditions of Manchester encoding, the 8N1 mode is selected at the hardware level, which means 8 data bits, 1 stop and 1 start bit. The software implementation of the encoder consists in the fact that out of the total possible volume of 256 code combinations, 16 are selected that satisfy the Manchester 2 code, while the start and stop conditions for data bytes transmitted in a row also satisfy the structure of the Manchester code. To maximize the efficiency of the program code, all code words are stored in the memory of the MCU in such a way that their serial number corresponds to the decimal interpretation of 4 bits of the input data. The decoding of the received data is also performed as efficiently as possible using the decoding table. The implementation of the software and hardware codec of the Manchester code significantly expands the scope of popular AVR and ARM microcontrollers and reduces the cost of the finished product by excluding any additional units that perform the function of encoding and decoding the Manchester code.

Published

2022

24. Unconventional surface state pairs in a high-symmetry lattice with anti-ferromagnetic band-folding

Author

Lin-Lin Wang, Junyeong Ahn, Robert-Jan Slager, Yevhen Kushnirenko, Benjamin G. Ueland, Aashish Sapkota, Benjamin Schrunk, Brinda Kuthanazhi, Robert J. McQueeney, Paul C. Canfield, and Adam Kaminski

Subjects

Astrophysics, QB460-466, Physics, QC1-999

Abstract

Abstract Many complex magnetic structures in a high-symmetry lattice can arise from a superposition of well-defined magnetic wave vectors. These “multi-q” structures have garnered much attention because of interesting real-space spin textures such as skyrmions. However, the role multi-q structures play in the topology of electronic bands in momentum space has remained rather elusive. Here we show that the type-I anti-ferromagnetic 1q, 2q and 3q structures in an face-centered cubic sublattice with band inversion, such as NdBi, can induce unconventional surface state pairs inside the band-folding hybridization bulk gap. Our density functional theory calculations match well with the recent experimental observation of unconventional surface states with hole Fermi arc-like features and electron pockets below the Neel temperature. We further show that these multi-q structures have Dirac and Weyl nodes. Our work reveals the special role that band-folding from anti-ferromagnetism and multi-q structures can play in developing new types of surface states.

Published

2023

25. Complex correction of eating behaviour disorders, anthropometric and physiological indicators in patients with non-alcoholic fatty liver disease on the background of abdominal obesity

Author

Liudmyla Kiro, Maksym Zak, Inesa Kushnirenko, and Oleh Chernyshov

Subjects

obesity, cognitive-behavioural therapy, eating behaviour, non-alcoholic fatty liver disease, Sports, GV557-1198.995, Recreation leadership. Administration of recreation services, GV181.35-181.6

Abstract

Purpose: to evaluate the effectiveness of correction of eating behaviour disorders, anthropometric, physiological indicators by impFreelementing combined non-drug treatment for patients with non-alcoholic fatty liver disease on the background of abdominal obesity. Material and methods 85 patients with non-alcoholic fatty liver disease on the background of abdominal obesity of the 1st degree were examined. All patients were divided into two clinical groups: 1st group (research) - 48 people, with average body mass index BMI=32.55±1.07 kg/m2, who underwent a course of cognitive behavioural therapy, diet therapy, and physical activity for 6 months; the control group - 37 people with average BMI=31.95±1.03 kg/m2 followed only a rational diet and physical activity, without cognitive behavioural therapy. The examination of the patients included the measurement of anthropometric and physiological indicators, questionnaires according to the DEBQ (Dutch Eating Behaviour Questionnaire). Results On the 180th day, the number of patients with normal blood pressure in the 1st group increased in 2.38 times (D=2.3511, p=0.0015), healthy eating behavior was recorded in 2.38 times more often (D=0.2215, p=0.0047) and the number of restrictive type of EB decreased in 2.0 times (D=0.4321, p=0.0031), compared to the control group. Conclusion A combined course of therapy in the form of a rational diet, aerobic exercise and cognitive behavioural therapy should be an integral component of early non-drug treatment, as a guarantee not only of the correction of anthropometric and functional indicators, but also of the modification of the eating behavior and a guarantee of long-term maintenance of the desired weight.

Published

2023

26. Strongly correlated superconductor with polytypic 3D Dirac points

Author

Borisenko, Sergey, Bezguba, Volodymyr, Fedorov, Alexander, Kushnirenko, Yevhen, Voroshnin, Vladimir, Sturza, Mihai, Aswartham, Saicharan, and Yaresko, Alexander

Subjects

Condensed Matter - Superconductivity

Abstract

Topological superconductors should be able to provide essential ingredients for quantum computing, but are very challenging to realize. Spin-orbit interaction in iron-based superconductors opens the energy gap between the $p$-states of pnictogen and $d$-states of iron very close to the Fermi level, and such $p$-states have been recently experimentally detected. Density functional theory predicts existence of topological surface states within this gap in FeTe$_{1-x}$Se$_x$ making it an attractive candidate material. Here we use synchrotron-based angle-resolved photoemission spectroscopy and band structure calculations to demonstrate that FeTe$_{1-x}$Se$_x$ (x=0.45) is a superconducting 3D Dirac semimetal hosting type-I and type-II Dirac points and that its electronic structure remains topologically trivial. We show that the inverted band gap in FeTe$_{1-x}$Se$_x$ can possibly be realized by further increase of Te content, but strong correlations reduce it to a sub-meV size, making the experimental detection of this gap and corresponding topological surface states very challenging, not to mention exact matching with the Fermi level. On the other hand, the $p-d$ and $d-d$ interactions are responsible for the formation of extremely flat band at the Fermi level pointing to its intimate relation with the mechanism of high-T$_c$ superconductivity in IBS., Comment: 10 pages, 5 figures, 28 references

Published

2019

27. Metal-chalcogen bond-length induced electronic phase transition from semiconductor to topological semimetal in ZrX$_2$ (X = Se and Te)

Author

Kar, I., Chatterjee, Joydeep, Harnagea, Luminita, Kushnirenko, Y., Fedorov, A. V., Shrivastava, Deepika, Büchner, B., Mahadevan, P., and Thirupathaiah, S.

Subjects

Condensed Matter - Materials Science

Abstract

Using angle resolved photoemission spectroscopy (ARPES) and density functional theory (DFT) calculations we studied the low-energy electronic structure of bulk ZrTe$_2$. ARPES studies on ZrTe$_2$ demonstrate free charge carriers at the Fermi level, which is further confirmed by the DFT calculations. An equal number of hole and electron carrier density estimated from the ARPES data, points ZrTe$_2$ to a semimetal. The DFT calculations further suggest a band inversion between Te $p$ and Zr $d$ states at the $\Gamma$ point, hinting at the non-trivial band topology in ZrTe$_2$. Thus, our studies for the first time unambiguously demonstrate that ZrTe$_2$ is a topological semimetal. Also, a comparative band structure study is done on ZrSe$_2$ which shows a semiconducting nature of the electronic structure with an indirect band gap of 0.9 eV between $\Gamma (A) $ and $M (L)$ high symmetry points. In the below we show that the metal-chalcogen bond-length plays a critical role in the electronic phase transition from semiconductor to a topological semimetal ingoing from ZrSe$_2$ to ZrTe$_2$., Comment: 10 pages, 7 figures

Published

2019

28. Possible Experimental Realization of a Basic Z2 Topological Semimetal

Author

Haubold, Erik, Fedorov, Alexander, Rusinov, Igor P., Menshchikova, Tatiana V., Duppel, Viola, Friedrich, Daniel, Pielnhofer, Florian, Weihrich, Richard, Pfitzner, Arno, Zeugner, Alexander, Isaeva, Anna, Thirupathaiah, Setti, Kushnirenko, Yevhen, Rienks, Emile, Kim, Timur, Chulkov, Evgueni V., Büchner, Bernd, and Borisenko, Sergey V.

Subjects

Condensed Matter - Materials Science

Abstract

We report experimental and theoretical evidence that GaGeTe is a basic $Z_2$ topological semimetal with three types of charge carriers: bulk-originated electrons and holes as well as surface state electrons. This electronic situation is qualitatively similar to the primer 3D topological insulator Bi2Se3, but important differences account for an unprecedented transport scenario in GaGeTe. High-resolution angle-resolved photoemission spectroscopy combined with advanced band structure calculations show a small indirect energy gap caused by a peculiar band inversion in the \textit{T}-point of the Brillouin zone in GaGeTe. An energy overlap of the valence and conduction bands brings both electron- and hole-like carriers to the Fermi level, while the momentum gap between the corresponding dispersions remains finite. We argue that peculiarities of the electronic spectrum of GaGeTe have a fundamental importance for the physics of topological matter and may boost the material's application potential.

Published

2018

29. Error-Free 2d Pictogrammic Syntax in a Programming Learning Environment for Preschool Children

Author

Kushnirenko, A. G., primary, Leonov, A. G., additional, and Polikarpov, S. A., additional

Published

2023

30. Energy scale of nematic ordering in the parent iron-based superconductor:BaFe2As2

Author

Fedorov, Alexander, Yaresko, Alexander, Haubold, Erik, Kushnirenko, Yevhen, Kim, Timur, Buechner, Bernd, Aswartham, Saicharan, Wurmehl, Sabine, and Borisenko, Sergey

Subjects

Condensed Matter - Superconductivity

Abstract

Nematicity plays an important role in the physics of iron-based superconductors (IBS). Its microscopic origin and in particular its importance for the mechanism of high-temperature superconductivity itself are highly debated. A crucial knowledge in this regard is the degree to which the nematic order influences the electronic structure of these materials. Earlier angle-resolved photoemission spectroscopy (ARPES) studies found that the effect is dramatic in three families of IBS including 11, 111 and 122 compounds: energy splitting reaches 70 meV and Fermi surface becomes noticeably distorted. More recent experiments, however, reported significantly lower energy scale in 11 and 111 families, thus questioning the degree and universality of the impact of nematicity on the electronic structure of IBS. Here we revisit the electronic structure of undoped parent BaFe2As2 (122 family). Our systematic ARPES study including the detailed temperature and photon energy dependencies points to the significantly smaller energy scale also in this family of materials, thus establishing the universal scale of this phenomenon in IBS. Our results form a necessary quantitative basis for theories of high-temperature superconductivity focused on the nematicity., Comment: 14 pages 4 figures

Published

2018

31. Superconductivity-induced nematicity

Author

Kushnirenko, Y. S., Evtushinsky, D. V., Kim, T. K., Morozov, I. V., Harnagea, L., Wurmehl, S., Aswartham, S., Chubukov, A. V., and Borisenko, S. V.

Subjects

Condensed Matter - Superconductivity

Abstract

The role of nematic order for the mechanism of high-temperature superconductivity is highly debated. In most iron-based superconductors (IBS) the tetragonal symmetry is broken already in the normal state, resulting in orthorhombic lattice distortions, static stripe magnetic order, or both. Superconductivity then emerges, at least at weak doping, already from the state with broken $C_4$ rotational symmetry. One of the few stoichiometric IBS, lithium iron arsenide, superconducts below 18 K and does not display either structural or magnetic transition in the normal state. Here we demonstrate, using angle-resolved photoemission, that even superconducting state in LiFeAs is also a nematic one. We observe spontaneous breaking of the rotational symmetry in the gap amplitude on all Fermi surfaces, as well as unidirectional distortion of the Fermi pockets. Remarkably, these deformations disappear above superconducting $T_c$. Our results demonstrate the realization of a novel phenomenon of superconductivity-induced nematicity in IBS, emphasizing the intimate relation between them. We suggest a theoretical explanation based on the emergence of a secondary instability inside the superconducting state, which leads to the nematic order and s-d mixing in the gap function.

Published

2018

32. Massive Dirac fermions in layered BaZnBi$_2$

Author

Thirupathaiah, S., Efremov, D., Kushnirenko, Y., Haubold, E., Kim, T. K., Pienning, B. R., Morozov, I., Aswartham, S., Büchner, B., and Borisenko, S. V.

Subjects

Condensed Matter - Materials Science

Abstract

Using angle-resolved photoemission spectroscopy (ARPES) and density functional theory (DFT) we study the electronic structure of layered BaZnBi$_2$. Our experimental results show no evidence of Dirac states in BaZnBi$_2$ originated either from the bulk or the surface. The calculated band structure without spin-orbit interaction shows several linear dispersive band crossing points throughout the Brillouin zone. However, as soon as the spin-orbit interaction is turned on, the band crossing points are significantly gapped out. The experimental observations are in good agreement with our DFT calculations. These observations suggest that the Dirac fermions in BaZnBi$_2$ are trivial and massive. We also observe experimentally that the electronic structure of BaZnBi$_2$ comprises of several linear dispersive bands in the vicinity of Fermi level dispersing to a wider range of binding energy., Comment: 7 pages, 4 figures

Published

2018

33. 3D superconducting gap in FeSe from ARPES

Author

Kushnirenko, Y. S., Fedorov, A. V., Haubold, E., Thirupathaiah, S., Wolf, T., Aswartham, S., Morozov, I., Kim, T. K., Büchner, B., and Borisenko, S. V.

Subjects

Condensed Matter - Superconductivity

Abstract

We present a systematic angle-resolved photoemission spectroscopy study of the superconducting gap in FeSe. The gap function is determined in a full Brillouin zone including all Fermi surfaces and kz-dependence. We find significant anisotropy of the superconducting gap in all momentum directions. While the in-plane anisotropy can be explained by both, nematicity-induced pairing anisotropy and orbital-selective pairing, the kz-anisotropy requires additional refinement of theoretical approaches., Comment: Main text: 6 pages, 4 figures; Supplemental Material: 2 pages, 1 figure

Published

2018

34. Spectroscopic evidence of topological phase transition in 3D Dirac semimetal Cd$_3$(As$_{1-x}$P$_x$)$_2$

Author

Thirupathaiah, S., Morozov, I., Kushnirenko, Y., Fedorov, A. V., Haubold, E., Kim, T. K., Shipunov, G., Maksutova, A., Kataeva, O., Aswartham, S., Büchner, B., and Borisenko, S. V.

Subjects

Condensed Matter - Materials Science

Abstract

We study the low-energy electronic structure of three-dimensional Dirac semimetal, Cd$_3$(As$_{1-x}$P$_x$)$_2$ [$x$ = 0 and 0.34(3)], by employing the angle-resolved photoemission spectroscopy (ARPES). We observe that the bulk Dirac states in Cd$_3$(As$_{0.66}$P$_{0.34}$)$_2$ are gapped out with an energy of 0.23 eV, contrary to the parent Cd$_3$As$_2$ in which the gapless Dirac states have been observed. Thus, our results confirm the earlier predicted topological phase transition in Cd$_3$As$_2$ with perturbation. We further notice that the critical P substitution concentration, at which the two Dirac points that are spread along the $c$-axis in Cd$_3$As$_2$ form a single Dirac point at $\Gamma$, is much lower [x$_c$(P)$<$ 0.34(3)] than the predicted value of x$_c$(P)=0.9. Therefore, our results suggest that the nontrivial band topology of Cd$_3$As$_2$ is remarkably sensitive to the P substitution and can only survive over a narrow substitution range, i.e., 0 $\leq$ x (P) $<$ 0.34(3)., Comment: 3 figures, 5 pages

Published

2018

35. Asymptotic Behavior of Integral Functionals of Stochastically Unstable Solutions

Author

Kulinich, Grigorij, Kushnirenko, Svitlana, Mishura, Yuliya, Peccati, Lorenzo, Editor-in-Chief, Salsa, Sandro, Editor-in-Chief, Acciaio, Beatrice, Series Editor, Favero, Carlo A., Series Editor, Platen, Eckhard, Series Editor, Runggaldier, Wolfgang J., Series Editor, Schlögl, Erik, Series Editor, Kulinich, Grigorij, Kushnirenko, Svitlana, and Mishura, Yuliya

Published

2020

36. Asymptotic Behavior of Homogeneous Additive Functionals of the Solutions to Inhomogeneous Itô SDEs with Non-regular Dependence on a Parameter

Author

Kulinich, Grigorij, Kushnirenko, Svitlana, Mishura, Yuliya, Peccati, Lorenzo, Editor-in-Chief, Salsa, Sandro, Editor-in-Chief, Acciaio, Beatrice, Series Editor, Favero, Carlo A., Series Editor, Platen, Eckhard, Series Editor, Runggaldier, Wolfgang J., Series Editor, Schlögl, Erik, Series Editor, Kulinich, Grigorij, Kushnirenko, Svitlana, and Mishura, Yuliya

Published

2020

37. Convergence of Unstable Solutions of SDEs to Homogeneous Markov Processes with Discontinuous Transition Density

Author

Kulinich, Grigorij, Kushnirenko, Svitlana, Mishura, Yuliya, Peccati, Lorenzo, Editor-in-Chief, Salsa, Sandro, Editor-in-Chief, Acciaio, Beatrice, Series Editor, Favero, Carlo A., Series Editor, Platen, Eckhard, Series Editor, Runggaldier, Wolfgang J., Series Editor, Schlögl, Erik, Series Editor, Kulinich, Grigorij, Kushnirenko, Svitlana, and Mishura, Yuliya

Published

2020

38. Asymptotic Behavior of Homogeneous Additive Functionals Defined on the Solutions of Itô SDEs with Non-regular Dependence on a Parameter

Author

Kulinich, Grigorij, Kushnirenko, Svitlana, Mishura, Yuliya, Peccati, Lorenzo, Editor-in-Chief, Salsa, Sandro, Editor-in-Chief, Acciaio, Beatrice, Series Editor, Favero, Carlo A., Series Editor, Platen, Eckhard, Series Editor, Runggaldier, Wolfgang J., Series Editor, Schlögl, Erik, Series Editor, Kulinich, Grigorij, Kushnirenko, Svitlana, and Mishura, Yuliya

Published

2020

39. Asymptotic Analysis of Equations with Ergodic and Stochastically Unstable Solutions

Author

Kulinich, Grigorij, Kushnirenko, Svitlana, Mishura, Yuliya, Peccati, Lorenzo, Editor-in-Chief, Salsa, Sandro, Editor-in-Chief, Acciaio, Beatrice, Series Editor, Favero, Carlo A., Series Editor, Platen, Eckhard, Series Editor, Runggaldier, Wolfgang J., Series Editor, Schlögl, Erik, Series Editor, Kulinich, Grigorij, Kushnirenko, Svitlana, and Mishura, Yuliya

Published

2020

40. Introduction to Unstable Processes and Their Asymptotic Behavior

Author

Kulinich, Grigorij, Kushnirenko, Svitlana, Mishura, Yuliya, Peccati, Lorenzo, Editor-in-Chief, Salsa, Sandro, Editor-in-Chief, Acciaio, Beatrice, Series Editor, Favero, Carlo A., Series Editor, Platen, Eckhard, Series Editor, Runggaldier, Wolfgang J., Series Editor, Schlögl, Erik, Series Editor, Kulinich, Grigorij, Kushnirenko, Svitlana, and Mishura, Yuliya

Published

2020

41. Renoprotective opportunities of Lespedeza capitata in patients with chronic kidney disease and type 2 diabetes mellitus

Author

S.V. Kushnirenko, D.D. Ivanov, S.A. Rotova, and О.V. Kushnirenko

Subjects

chronic kidney disease, diabetes mellitus, renoprotection, lespedeza capitata, Diseases of the genitourinary system. Urology, RC870-923

Abstract

Background. Today, issues of renoprotection have gone beyond the use of antihypertensive therapy alone. Stable glucose-lowering and urate-lowering therapy are integral parts of modern renoprotection, which improve the functional state of the kidneys by increasing the glomerular filtration rate (GFR) and reducing the albumin excretion rate (AER) and the albumin-to-creatinine ratio (ACR). Nevertheless, hypoazotemic therapy aimed at reducing the content of nitrogenous wastes remains the leading component of the treatment of patients with chronic kidney disease (CKD). The aim of the study is the assessment of the renoprotective potential of the drug Libera (Lespedeza capitata) in patients with CKD stages 2–3 on the background of type 2 diabetes mellitus (DM). Materials and methods. The study included 107 patients with type 2 DM, aged 19 to 75 years (female — 41.1 %, male — 58.9 %), CKD stages 2–3, micro- and macroalbuminuria (category A2 and A3). The patients were divided into two groups: group I — traditional stable glucose-lowering and antihypertensive therapy (n = 50) and group II — traditional stable glucose-lowering and antihypertensive therapy in combination with Libera (Lespedeza capitata) (n = 57), which was prescribed 1 capsule t.i.d. regardless of food intake for 3 months. The criteria for the effectiveness of treatment were dynamics of GFR, AER/ACR in daily urine. The observation period for the patients was 3 months. Results. The renoprotective potential of Lespedeza capitata (Libera) was demonstrated after 3 months of treatment in the form of a significant increase in GFR in patients with CKD stage 2 in group II up to 79.0 ± 1.4 ml/min/1.73 m2 in comparison with the initial data (p < 0.01) and the results obtained in group I after 3 months of using only traditional stable glucose-lowering and antihypertensive therapy (p < 0.05). The use of Libera in the complex treatment of patients of the II group with CKD stage 3 against the background of type 2 DM for 3 months had a positive effect on nitrogen and water excretory kidney function, which manifested itself in an improvement in GFR to 56.6 ± 2.1 ml/min/1.73 m2 in comparison with the initial data (p < 0.05) and the results obtained in group I — 50.8 ± 1.9 ml/min/1.73 m2 (p

Published

2021

42. STRATEGIC SCENARIOS FOR SUSTAINABLE INDUSTRIAL DEVELOPMENT OF UKRAINE IN THE POST-WAR PERIOD

Author

Oksana Kushnirenko, Nataliia Gakhovich, and Liliia Venger

Subjects

strategic scenario, economic stability, uncertainty, strategic planning, industrial development, defense capability, Economic growth, development, planning, HD72-88

Abstract

The purpose of the paper is to develop the most probable scenarios and to determine the strategic directions and effective tools for the Ukrainian industrial recovery, which will ensure the resistance of the economy in the conditions of military challenges. The method of strategic scenarios allows to find out how the industrial development in Ukraine will develop in the course of war and post-war recovery. Methodology. The methods of system analysis and logical modeling were used to describe the transition of the Ukrainian production from the current situation of military crisis to the target one; structural analysis was used to determine the system of indicators characterizing the resistance of the industry. For this purpose, national (State Statistics of Ukraine) and international (World Bank, Eurostat official website) databases characterizing the level and structure of industrial development in the last 5 years were used. The method of calculation takes into account the criteria of changes in indicators: direction (growth/decline occurred); rate of changes based on the cumulative annual growth rate for the period of 5 years. The study was carried out using analytical methods of the influence of trends in the formation of strategic scenarios in unpredictable situations (conditions of wartime uncertainty), to assess changes in the probability of occurrence due to the actual occurrence of one of them, which made it possible to identify trends, justify scenarios and take them into account when analyzing the prospects for industrial development to strengthen the defense capabilities and economic growth of Ukraine. The results of the survey showed that the strategic scenarios for the industrial development of Ukraine will be adjusted as necessary for the post-war industrial recovery in case of a long-term external military threat to preserve the state sovereignty. The achievement of the set strategic goals depends on the driving forces determining the industrial development in Ukraine. As the main indicators characterizing the tendencies of industrial development in Ukraine, the indicators reflecting the efficiency of the use of productive forces have been chosen: indicators of industrial production efficiency; labor productivity; indicators characterizing innovative development; performance indicators of foreign economic activity and investment development. Taking into account the influence of each of the driving forces of industrial development in the conditions of wartime uncertainty, three scenarios of industrial development were developed: a conditionally positive scenario, in which the economic system will gradually stabilize due to the cessation of hostilities and the recovery of production capacities; a conditionally negative scenario, which will be characterized by the disintegration of the economic system, the destruction of energy infrastructure facilities, where negative trends will dominate; a conditionally neutral (basic) scenario, in which the disintegration of the economic system will not reach extreme levels, and industrial production will develop in areas not covered by hostilities. Practical implications. The key problem of restoring economic stability in Ukraine is to create conditions for favorable development of industrial business, which depends on balanced strategic policy decisions. The transformation of industry into an effective force for the revival of the Ukrainian economy in the conditions of the war and post-war period requires a balanced strategic management of the future development, because it is crucial to meet the unprecedented demands of the war on the available resources of the country and to prevent a social, humanitarian, economic, financial, environmental, military crisis. At the same time, traditional methods of indicative planning cannot take into account all factors of wartime uncertainty, therefore, the rationale of future development vectors based on scenario planning makes it possible to create conditions for minimizing threats and realizing potential opportunities. Value/originality. Strategic scenarios provide for better economic recovery planning with long-term national priorities, development strategies of related industries and sectors for ensuring the Ukrainian manufacturing resistance.

Published

2023

43. Fermi surface tomography

Author

Borisenko, Sergey, Fedorov, Alexander, Kuibarov, Andrii, Bianchi, Marco, Bezguba, Volodymyr, Majchrzak, Paulina, Hofmann, Philip, Baumgärtel, Peter, Voroshnin, Vladimir, Kushnirenko, Yevhen, Sánchez-Barriga, Jaime, Varykhalov, Andrei, Ovsyannikov, Ruslan, Morozov, Igor, Aswartham, Saicharan, Feia, Oleh, Harnagea, Luminita, Wurmehl, Sabine, Kordyuk, Alexander, Yaresko, Alexander, Berger, Helmuth, and Büchner, Bernd

Published

2022

44. Method for Distinguishing the Digital Images in Different Formats

Author

Kobozeva A.A., Bobok I.I., and Kushnirenko N.I.

Subjects

integrity violation, digital images, lossy format, lossless format, singular value, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Production of electric energy or power. Powerplants. Central stations, TK1001-1841, Renewable energy sources, TJ807-830

Abstract

Nowadays, the energy systems are considered to be the main vital factor for the functioning of society. Today, this part of the infrastructure cannot exist without the informative infrastructure, so it needs efficient information and cyber protection. To detect the data integrity violations is one of the main tasks in the field of information security. In the paper, the digital images are considered as information content. The image integrity violation often results in the change of the original storage format. The format change is an indicator of the image transformation. At the same time, this fact can be considered as an indirect indicator of its integrity violation. The effective method for distinguishing the original image in lossless format from the image re-saved to lossless format from lossy format is developed in the current work. The proposed method is an improvement of the method developed by the authors earlier. The method is based on the analysis of the number of non-intersecting image blocks, in which the normalized gap of maxi-mum singular value increases due to the image's re-saving into a lossy format. The algorithmic implementation of the improved method allowed us to reduce the examination time in 38-56 times for more than 50% of images originally stored in lossy format compared to the prototype method. The algorithm efficiency was evaluated using Type I and Type II errors, as well as ap-plying the accuracy coefficient (ACC). As a result of testing, Type I error was not detected, Type II error rate was 3.6%, ACC = 0.98. The obtained estimations are independent of the quali-ty factor used when the image was initially saved in a lossy format. The developed algorithm is more efficient than almost all modern analogues, except for the prototype one. The theoretical basis of the proposed improved method makes it possible to use it for the study of the digital image integrity, violated by a minor disturbance, in particular for steganalysis in conditions of low capacity of the hidden communication channel.

Published

2022

45. Asymptotic behavior of functionals of the solutions to inhomogeneous It\^{o} stochastic differential equations with nonregular dependence on parameter

Author

Kulinich, Grigorij and Kushnirenko, Svitlana

Subjects

Mathematics - Probability

Abstract

The asymptotic behavior, as $T\to\infty$, of some functionals of the form $I_T(t)=F_T(\xi_T(t))+\int_0^tg_T(\xi_T(s))\,dW_T(s)$, $t\ge0$ is studied. Here $\xi_T(t)$ is the solution to the time-inhomogeneous It\^{o} stochastic differential equation \[d\xi_T(t)=a_T\bigl(t,\xi_T(t)\bigr)\,dt+dW_T(t),\quad t\ge0, \xi_T(0)=x_0,\] $T>0$ is a parameter, $a_T(t,x),x\in\mathbb{R}$ are measurable functions, $|a_T(t,x)|\leq C_T$ for all $x\in\mathbb{R}$ and $t\ge0$, $W_T(t)$ are standard Wiener processes, $F_T(x),x\in\mathbb{R}$ are continuous functions, $g_T(x),x\in\mathbb{R}$ are measurable locally bounded functions, and everything is real-valued. The explicit form of the limiting processes for $I_T(t)$ is established under nonregular dependence of $a_T(t,x)$ and $g_T(x)$ on the parameter $T$., Comment: Published at http://dx.doi.org/10.15559/17-VMSTA83 in the Modern Stochastics: Theory and Applications (https://www.i-journals.org/vtxpp/VMSTA) by VTeX (http://www.vtex.lt/). arXiv admin note: text overlap with arXiv:1607.03661

Published

2017

46. Observation of Dirac surface states in the hexagonal PtBi2, a possible origin of the linear magnetoresistance

Author

Thirupathaiah, S., Kushnirenko, Y., Haubold, E., Fedorov, A. V., Rienks, E. D. L., Kim, T. K., Yaresko, A. N., Blum, C. G. F., Aswartham, S., Büchner, B., and Borisenko, S. V.

Subjects

Condensed Matter - Materials Science

Abstract

The nonmagnetic compounds showing extremely large magnetoresistance are attracting a great deal of research interests due to their potential applications in the field of spintronics. PtBi$_2$ is one of such interesting compounds showing large linear magnetoresistance (MR) in its both the hexagonal and pyrite crystal structure. We use angle-resolved photoelectron spectroscopy (ARPES) and density functional theory (DFT) calculations to understand the mechanism of liner MR observed in the hexagonal PtBi$_2$. Our results uncover for the first time linear dispersive surface Dirac states at the $\bar{\Gamma}$-point, crossing Fermi level with node at a binding energy of $\approx$ 900 meV, in addition to the previously reported Dirac states at the $\bar{M}$-point in the same compound. We further notice from our dichroic measurements that these surface states show an asymmetric spectral intensity when measured with left and right circularly polarized light, hinting at a substantial spin polarization of the bands. Following these observations, we suggest that the linear dispersive Dirac states at the $\bar{\Gamma}$ and $\bar{M}$-points are likely to play a crucial role for the linear field dependent magnetoresistance recorded in this compound.

Published

2017

47. Anomalous temperature evolution of the electronic structure of FeSe

Author

Kushnirenko, Y., Kordyuk, A. A., Fedorov, A., Haubold, E., Wolf, T., Büchner, B., and Borisenko, S. V.

Subjects

Condensed Matter - Superconductivity, Condensed Matter - Strongly Correlated Electrons

Abstract

We present ARPES data taken from the structurally simplest representative of iron-based superconductors, FeSe, in a wide temperature range. Apart from the variations related to the nematic transition, we detect very pronounced shifts of the dispersions on the scale of hundreds of kelvins. Remarkably, upon warming the sample up, the band structure has a tendency to relax to the one predicted by conventional band structure calculations, right opposite to what is intuitively expected. Our findings shed light on the origin of the dominant interaction shaping the electronic states responsible for high-temperature superconductivity in iron-based materials., Comment: 8 pages, 4 figures, PDF only

Published

2017

48. Genetic Diversity of Promising Spring Wheat Accessions from Russia and Kazakhstan for Rust Resistance.

Author

Gultyaeva, Elena, Shaydayuk, Ekaterina, Shreyder, Ekaterina, Kushnirenko, Igor, and Shamanin, Vladimir

Subjects

STRIPE rust, PUCCINIA graminis, PUCCINIA striiformis, LEAF rust of wheat, RUST fungi, RUST diseases

Abstract

Spring bread wheat (Triticum aestivum) is a major crop in Russia and in Kazakhstan. The rust pathogens, leaf rust caused by the fungus Puccinia triticina, stem rust incited by P. graminis and yellow rust caused by P. striiformis, are the significant biotic factors affecting wheat production. In this study, 40 new promising spring wheat genotypes from the Kazakhstan-Siberia Network for Spring Wheat Improvement (KASIB) were tested for resistance to leaf, stem and yellow rust at the seedling stage, and for identification of rust resistance genes using molecular markers. In addition, the collection was tested for leaf rust resistance and grain yields in the South Urals agroclimatic zone of Russia in 2023. As a result, 16 accessions with seedling resistance to leaf rust, 21 to stem rust and 4 to yellow rust were identified. Three breeding accessions were resistant to all rust species, and nine to P. triticina and P. graminis. Wheat accessions resistant to leaf rust at the seedling stage were also resistant in the field. Molecular analysis showed the presence of cataloged resistance genes, Lr1, Lr3a, Lr9, Lr10, Lr19, Lr20, Lr24, Lr26, Sr15, Sr24, Sr25, Sr31, Sr38, Yr9 and Yr18; uncatalogued genes Lr6Agi1 and Lr6Agi2 from Thinopyrum intermedium and LrAsp from Aegilops speltoides; and 1AL.1RS translocation. The current analysis showed an increase in leaf and stem rust resistance of new KASIB genotypes and their genetic diversity due to the inclusion of alien genetic material in breeding. [ABSTRACT FROM AUTHOR]

Published

2024

49. Use of the Normalized Gap of Maximum Singular Value of the Image Block to Evaluate the Capacity of the Steganographic Channel.

Author

Ivan Bobok, Alla Kobozieva, and Nataliya Kushnirenko

Published

2021

50. Using Real-Pen Specific Features of Active Stylus to Cope with Input Latency.

Author

Roman Kushnirenko, Svitlana Alkhimova, Dmytro Sydorenko, and Igor Tolmachov

Published

2021