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30 results on '"Zverev, Vladimir I."'

1. 3D time-resolved analysis of the evolution metamagnetic phase transition in FeRh system

Author

Komlev, Aleksei S., Makarin, Rodion A., Ilina, Tatiana S., Kiselev, Dmitry A., Chirkova, Alisa M., Kulesh, Nikita A., Volegov, Alexey S., Zverev, Vladimir I., and Perov, Nikolai S.

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

The FeRh alloy is an attractive material for studies of magnetic first-order phase transitions. The phase transition in FeRh from an antiferromagnetic to the ferromagnetic state is accompanied by the nucleation, growth, and merging of ferromagnetic clusters. The ferromagnetic phase evolution is studied in detail, and its various stages are distinguished. Both static properties and phase transition kinetics (time dependences of magnetization) are investigated. A comprehensive analysis allows us to determine the ferromagnetic phase nucleation regions and the main features of phase growth. In addition, the mechanisms that lead to a change in the ferromagnetic phase growth rate (the limitation effect and the magnetocaloric effect) were determined. The variation of phase transition evolution dominant mechanisms depending on the sample microstructure was shown., Comment: 24 pages, 5 figures, 1 table

Published
2022

10. List of contributors

Author

Alekhina, Iuliia, primary, Amirov, Abdulkarim, additional, Anisimov, Nikolay V., additional, Blanco, Juan Maria, additional, Cabal-Mirabal, Carlos, additional, Chacon-Caldera, Jorge, additional, Charreyron, Samuel L., additional, Choi, Seung-Bok, additional, Corte-Leon, Paula, additional, Cotelli, Maria, additional, Dee, Garret, additional, Duan, Xiaodong, additional, Ferreri, Florinda, additional, Franke, Jochen, additional, Gervits, Lev L., additional, Gulyaev, Mikhail V., additional, Gun’ko, Yurii K., additional, Gurfinkel, Yury I., additional, Hilger, Ingrid, additional, Iodice, Francesco, additional, Ipatov, Mihail, additional, Judica, Elda, additional, Komlev, Aleksei S., additional, Kramarenko, Elena, additional, Kritskiy, Alexander, additional, Lomova, Maria V., additional, Makarova, Liudmila, additional, Maslennikov, Yuri, additional, Meersmann, Thomas, additional, Miraglia, Francesca, additional, Mushnikov, Nikolay V., additional, Naumova, Anna V., additional, Nelson, Bradley J., additional, Nguyen, Nam-Trung, additional, Oh, Jong-Seok, additional, Orlando, Bianca, additional, Pavlova, Olga S., additional, Pavlovskaya, Galina E., additional, Perov, Nikolai, additional, Pirogov, Yury A., additional, Pishchalnikov, Roman Y., additional, Pyatakov, Alexander, additional, Pyatakova, Zoya, additional, Rossini, Paolo Maria, additional, Sadykhov, Elnur, additional, Semenova, Natalia, additional, Singh, Gurjit, additional, Sukhorukov, Gleb B., additional, Tishin, Alexander M., additional, Vecchio, Fabrizio, additional, Volkov, Dmitry V., additional, Zhang, Jun, additional, Zhukov, Arcady, additional, Zhukova, Valentina, additional, and Zverev, Vladimir I., additional

Published
2022
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14. Influence of Structural Disorder on the Magnetic Order in FeRhCr Alloys

Author

Komlev, Aleksei S., Cabeza, Gabriela F., Chirkova, Alisa M., Ukrainczyk, Neven, Sherstobitova, Elena A., Zverev, Vladimir I., Gimaev, Radel, Baranov, Nikolai V., Perov, Nikolai S., Komlev, Aleksei S., Cabeza, Gabriela F., Chirkova, Alisa M., Ukrainczyk, Neven, Sherstobitova, Elena A., Zverev, Vladimir I., Gimaev, Radel, Baranov, Nikolai V., and Perov, Nikolai S.

Abstract

Magnetic phase transitions in alloys are highly influenced by the sample preparation techniques. In the present research, electronic and magnetic properties of Fe48Cr3Rh49 alloys with varying cooling rates were studied, both experimentally and theoretically. The degree of crystalline ordering was found to depend on the cooling rate employed after annealing the alloy. Modeling of alloy structures with different degrees of crystalline ordering was carried out via strategic selection of substitution positions and distances between chromium atoms. Theoretical calculations revealed significant changes in magnetic and electronic properties of the alloy with different substitutions. A comprehensive analysis of the calculated and experimental data established correlations between structural characteristics and parameters governing the magnetic phase transition. In this study, we also developed a method for evaluating the magnetic properties of the alloys obtained under different heat treatments. The proposed approach integrates atom substitution and heat treatment parameters, offering precise control over alloy manufacturing to effectively tune their essential magnetic properties.

Published
2024

16. Quantum Theory of Economics

Author

Zverev, Vladimir I. and Tishin, Alexander M.

Subjects
Physics - General Physics
Abstract

In the given work the first attempt to generalize quantum uncertainty relation on macro objects is made. Business company as one of economical process participants was chosen by the authors for this purpose. The analogies between quantum micro objects and the structures which from the first sight do not have anything in common with physics are given. The proof of generalized uncertainty relation is produced. With the help of generalized uncertainty relation the authors wanted to elaborate a new non-traditional approach to the description of companies' business activity and their developing and try to formulate some advice for them. Thus, our work makes the base of quantum theory of econimics, Comment: 38 pages, 13 figures

Published
2009

17. The Effect of Oxidation of Vicinal Au Surface on the Magnetic Properties of Surface‐Supported Mn Nanowires.

Author

Smelova, Ekaterina M., Tsysar, Kseniya M., Gimaev, Radel R., and Zverev, Vladimir I.

Subjects
NANOWIRES, MAGNETIC properties, SURFACE properties, OXIDATION states, MANGANESE oxides, ELECTRONIC structure
Abstract

It is well‐established that oxidation of a stepped surface can lead to the formation of 1D metal oxide nanowires along the steps. However, it is still uncertain how the extent of surface oxidation impacts the characteristics of these nanowires. Ab initio study of the effect of the oxidation state of a nonmagnetic vicinal Au surface on the magnetic properties of 1D Mn nanowires formed on the step edge is presented. Herein, the magnetic properties and electronic structure of two different types of nanowires are investigated: 1D manganese oxides (MnO) and 1D dioxides (MnO2), which correspond to different levels of oxidation of the substrate surface. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Promising magnetic nanoradiosensitizers for combination of tumor hyperthermia and x-ray therapy: Theoretical calculation.

Author

Davydov, Andrey S., Belousov, Alexandr V., Krusanov, Grigorii A., Kolyvanova, Maria A., Kovalev, Boris B., Komlev, Aleksei S., Krivoshapkin, Pavel V., Morozov, Vladimir N., and Zverev, Vladimir I.

Subjects
MAGNETIC nanoparticle hyperthermia, THERMOTHERAPY, PARTICLE size distribution, ATOMIC number, X-ray spectra, MAGNETIC fields
Abstract

Nanoparticle (NP) assisted magnetic hyperthermia (NMH) is a clinically proven method for cancer treatment. High-Z magnetic NPs could also be a perspective object for combining hyperthermia with tumor radiosensitization. However, this application of NPs is little studied, and it is unclear as to what particle compositions one can rely on. Therefore, the present work focuses on the search of materials that combine alternating magnetic field induced heating and high atomic number related dose enhancement abilities. A theoretical evaluation of 24 promising NP compositions was performed: the values of dose enhancement factor (DEF) were determined for kilovoltage x-ray spectra (30–300 kVp), as well as specific absorption rate (SAR) values were calculated for various combinations of elemental compositions and particle size distributions. For the alternating magnetic fields with amplitude 75 – 200 Oe and frequency 100 kHz , the maximum obtained SAR values ranged from 0.35 to 6000 W g − 1 , while DEF values for studied compounds ranged from 1.07 to 1.59. The increase in the monodispersity of NPs led to a higher SAR, confirming well-known experimental data. The four types of SAR dependences on external magnetic field amplitude and anisotropy constant were found for various particle sizes. The most predictable SAR behavior corresponds to larger NPs (∼70–100 nm). Thus, based on these calculations, the most promising for the combination of NMH with radiotherapy, from a physical point of view, are L a 0.75 S r 0.25 Mn O 3 , G d 5 S i 4 , SmC o 5 , and F e 50 R h 50. The greatest dose enhancement is expected for superficial radiotherapy (in the voltage range up to ∼60 kVp). [ABSTRACT FROM AUTHOR]

Published
2021
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21. Magnetoresistance Features at the Magnetic Field-Induced Phase Transition in FeRh Thin Films.

Author

Komlev, Aleksei S., Makarin, Rodion A., Maltseva, Viktoria E., Zverev, Vladimir I., Volegov, Alexey S., and Perov, Nikolai S.

Subjects
MAGNETIC transitions, FIRST-order phase transitions, PHASE transitions, THIN films, MAGNETORESISTANCE
Abstract

The causes of the appearance of first-order magnetic phase transitions remain a mystery. FeRh alloy is a classical material where a first-order magnetic phase transition occurs. The authors of this article studied the phase transition from the antiferromagnetic state to the ferromagnetic state in FeRh alloy. Comparison of the magnetometry and transport properties results allowed us to determine a number of differences in the mechanisms of the phase evolution during magnetic field and temperature induced transition. This article notes the priority of the rearrangement of the micromagnetic structure of the ferromagnetic phase as a result of the induction of a phase transition by a magnetic field. The main feature of the magnetic field induced phase transition compared to the temperature induced one is the change in the micromagnetic structure of the ferromagnetic phase. The growth of a ferromagnetic phase with less scattering fields leads to asymmetric behavior when a phase transition is induced near the metastable state. We also focused on the importance of taking into account the effect of magnetostriction when analyzing the evolution of the phase transition, which leads to the irreversibility of the phase transition near a zero magnetic field. [ABSTRACT FROM AUTHOR]

Published
2023
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23. Multifunctional tunable ZnFe2O4@MnFe2O4 nanoparticles for dual-mode MRI and combined magnetic hyperthermia with radiotherapy treatment.

Author

Shabalkin, Ilia D., Komlev, Alexey S., Tsymbal, Sergey A., Burmistrov, Oleg I., Zverev, Vladimir I., and Krivoshapkin, Pavel V.

Abstract

With the increase in non-communicable diseases, cancer is becoming one of the most lethal ailments of the coming decades. Significant progress has been made in the development of NPs that combine diagnostic and therapeutic properties in a single system. Multimodal NPs that sequentially perform MRI diagnostics with increased contrast and then act as synergistic agents for magnetic hyperthermia and radiotherapy can be considered as next-generation anticancer drugs. Thus, we propose a systematic study of composite theranostic ZnFe2O4@MnFe2O4 NPs for the first time. Two types of magnetic NPs with MnFe2O4 shell thicknesses of 0.5 (ZM0.5) and 1.7 nm (ZM3) were prepared via hydrothermal synthesis. Tuning the shell thickness was shown to influence the NP r2 and r1 relaxivities and allow T1–T2 dual-mode contrast agents to be obtained. A radiotherapy study demonstrated a significant dose factor enhancement (about 40%) for both NP types. The specific absorption rate of ZM3 in a 100 Oe alternating magnetic field with a frequency of 75 kHz was found to be 8 W g−1, which results in heating up to 42 °C within a few seconds. This work presents high-performance multifunctional NPs capable of combining different diagnostic and therapeutic methods for a full course of treatment using only one type of NP. [ABSTRACT FROM AUTHOR]

Published
2023
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27. Magnetically guided capsule endoscopy

Author

Shamsudhin, Naveen, primary, Zverev, Vladimir I., additional, Keller, Henrik, additional, Pane, Salvador, additional, Egolf, Peter W., additional, Nelson, Bradley J., additional, and Tishin, Alexander M., additional

Published
2017
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29. Multifunctional tunable ZnFe 2 O 4 @MnFe 2 O 4 nanoparticles for dual-mode MRI and combined magnetic hyperthermia with radiotherapy treatment.

Author

Shabalkin ID, Komlev AS, Tsymbal SA, Burmistrov OI, Zverev VI, and Krivoshapkin PV

Subjects
Humans, Hyperthermia, Magnetic Resonance Imaging methods, Hyperthermia, Induced methods, Antineoplastic Agents, Neoplasms diagnostic imaging, Neoplasms therapy, Nanoparticles therapeutic use
Abstract

With the increase in non-communicable diseases, cancer is becoming one of the most lethal ailments of the coming decades. Significant progress has been made in the development of NPs that combine diagnostic and therapeutic properties in a single system. Multimodal NPs that sequentially perform MRI diagnostics with increased contrast and then act as synergistic agents for magnetic hyperthermia and radiotherapy can be considered as next-generation anticancer drugs. Thus, we propose a systematic study of composite theranostic ZnFe 2 O 4 @MnFe 2 O 4 NPs for the first time. Two types of magnetic NPs with MnFe 2 O 4 shell thicknesses of 0.5 (ZM0.5) and 1.7 nm (ZM3) were prepared via hydrothermal synthesis. Tuning the shell thickness was shown to influence the NP r 2 and r 1 relaxivities and allow T 1 - T 2 dual-mode contrast agents to be obtained. A radiotherapy study demonstrated a significant dose factor enhancement (about 40%) for both NP types. The specific absorption rate of ZM3 in a 100 Oe alternating magnetic field with a frequency of 75 kHz was found to be 8 W g -1 , which results in heating up to 42 °C within a few seconds. This work presents high-performance multifunctional NPs capable of combining different diagnostic and therapeutic methods for a full course of treatment using only one type of NP.

Published
2023
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30. Developing Antitumor Magnetic Hyperthermia: Principles, Materials and Devices.

Author

Tishin AM, Shtil AA, Pyatakov AP, and Zverev VI

Subjects
Animals, Diffusion of Innovation, Equipment Design, Humans, Hypothermia, Induced adverse effects, Hypothermia, Induced methods, Magnetic Field Therapy adverse effects, Magnetic Field Therapy methods, Nanomedicine methods, Neoplasms pathology, Hypothermia, Induced instrumentation, Magnetic Field Therapy instrumentation, Magnetics, Nanomedicine instrumentation, Nanoparticles, Neoplasms therapy
Abstract

Background and Objective: Methods of local or loco-regional anticancer treatment are of the utmost importance because the therapeutic 'power' is applied directly to the disease site. Consequently, general toxicity is minimized. Hyperthermia, that is, a sustained increase of intratumoral temperature up to 45oC, has been investigated as a perspective treatment modality alone and/or in combination with ionizing radiation or chemotherapy. Still, the surrounding tissues can be damaged by the external heat., Method: Development of new materials and devices gave rise to methods of inducing hyperthermia by a high frequency magnetic or electromagnetic field applied to the tumor with exogenous nanosized particles captured within it. The idea of this approach is the release of local heat in the vicinity of the magnetic nanoparticle in a time-varying magnetic field due to transfer of external magnetic field energy into the heat. Therefore, tumor cells are heated whereas the peritumoral non-malignant tissues are spared., Results: This review analyzes recent advances in understanding physical principles that underlie magnetic hyperthermia as well as novel approaches to obtain nanoparticles with optimized physico-chemical, toxicological and tumoricidal properties. Special focus is made on the construction of devices for therapeutic purposes., Conclusion: The review covers recent patents and general literature sources regarding magnetic hyperthermia, the developing approach to treat otherwise intractable malignancies. </p><p&gt.

Published
2016
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