Your search keyword '"Tagirov, Lenar"' showing total 35 results

1. Temperature Control of Spin-Wave Spectra in Continuously Graded Epitaxial Pd-Fe Alloy Films

Author

Yanilkin, Igor, Gumarov, Amir, Gabbasov, Bulat, Yusupov, Roman, and Tagirov, Lenar

Subjects

Condensed Matter - Materials Science

Abstract

Continuously graded ferromagnetic thin films represent a new class of magnonic materials, where a spin-wave resonance spectrum can be tuned in resonance frequencies/fields, number of modes and even dispersion law by the magnetic properties profiling across the film thickness. In the paper, we demonstrate that temperature is another degree of freedom controlling the spin-wave spectra in graded magnetic materials. We show that temperature affects the spectrum not only in a trivial way via the temperature dependence of magnetization and related quantities, but rather through modification of magnetic structure of a film due to the Curie temperature being crossed by fractions of its thickness. The profile that is continuous at lower temperatures may become discontinuous at higher temperatures. To demonstrate this, four 200-nm thick vertically graded epitaxial Pd1-xFex films were synthesized using molecular beam epitaxy technique, in particular, two with the linear (2-10 at.% and 12-18 at.% range of the iron content), one with the sine and one with the cosine (both with the 2-10 at.% range of the iron content) distribution profiles. The resonance spectra of standing spin waves were studied by the cavity ferromagnetic resonance at 9.4 GHz in the temperature range of 20-300 K. Versatile spin-wave excitation patterns were obtained, and drastic evolution of their excitation energies, and number of modes with temperature was observed. Based on the modeling, temperature dependences of the spin-wave stiffness D and magnitudes of the interface $\alpha_{inter}$ and surface $\alpha_{surf}$ pinning constants were obtained. Our study shows that in addition to a continuous grading of magnetic properties of thin films, temperature provides another powerful and well elaborated tool for modifying the magnetic grading profile and thus, flexile tuning the spectrum of spin-wave excitations.

Published

2024

2. Ab initio investigation of impurity ferromagnetism in the Pd1-xFex alloys: concentration and position dependence

Author

Piyanzina, Irina, Gumarov, Amir, Yusupov, Roman, Khaibullin, Rustem, and Tagirov, Lenar

Subjects

Condensed Matter - Materials Science

Abstract

We present the ab initio results of the structural and magnetic properties of the Pd host matrix implanted with Fe solute atoms at various concentrations. By means of density functional theory we confirm that iron impurities are able to initialize significant magnetization of the Pd atoms, when the impurity consentation exceeds 3 at.%. Besides, we demonstrate that the imposed magnetization depends on impurity positions in the host matrix, in particular, there is a maximum of magnetization for a uniform distribution of the iron impurity.

Published

2021

3. Ferromagnetic Composite Self-Arrangement in Iron-Implanted Epitaxial Palladium Thin Films

Author

Gumarov, Amir, Yanilkin, Igor, Yusupov, Roman, Kiiamov, Airat, Tagirov, Lenar, and Khaibullin, Rustam

Subjects

Condensed Matter - Materials Science, Physics - Applied Physics

Abstract

We report on the formation of the dilute $Pd_{1-x}Fe_x$ compositions with tunable magnetic properties under an ion-beam implantation of epitaxial Pd thin films. Binary $Pd_{1-x}Fe_x$ alloys with a mean iron content $x$ of $0.025$, $0.035$ or $0.075$ were obtained by the implantation of $40 keV$ $Fe^+$ ions into the palladium films on MgO (001) substrate to the doses of $0.5\cdot10^{16}, 1.0\cdot10^{16}$ and $3.0\cdot10^{16}$ $ions/cm^2$, respectively. Structural and magnetic studies have shown that iron atoms occupy regular fcc-lattice Pd-sites without the formation of any secondary crystallographic phase. All the iron implanted Pd films reveal ferromagnetism at low temperatures (below $200 K$) with both the Curie temperature and saturation magnetization determined by the implanted iron dose. In contrast to the magnetic properties of the molecular beam epitaxy grown $Pd_{1-x}Fe_x$ alloy films with the similar iron contents, the Fe-implanted Pd films possess weaker in-plane magnetocrystalline anisotropy, and, accordingly, a lower coercivity. The observed multiple ferromagnetic resonances in the implanted $Pd_{1-x}Fe_x$ films indicate a formation of a magnetically inhomogeneous state due to spinodal decomposition into regions, presumably layers, with identical crystal symmetry but different iron contents. The multiphase magnetic structure is robust with respect to the vacuum annealing at $770 K$, though develops towards well-defined local $Pd-Fe$ compositions., Comment: 17 pages, 8 figures, 1 table, 33 references

Published

2021

4. Magnetic properties of thin epitaxial Pd$_{1-x}$Fe$_x$ alloy films

Author

Esmaeili, Alireza, Yanilkin, Igor V., Gumarov, Amir I., Vakhitov, Iskander R., Gabbasov, Bulat F., Tatarsky, Dmitriy A., Yusupov, Roman V., and Tagirov, Lenar R.

Subjects

Condensed Matter - Materials Science

Abstract

In the paper we present the results of extensive studies of palladium-rich Pd1-xFex alloy films epitaxially grown on MgO single-crystal substrate. In a composition range of x = 0.01-0.07 these materials are soft ferromagnets, the saturation magnetization and magnetic anisotropy of which can be tuned by its composition. Vibrating sample magnetometry was used to study temperature dependences of spontaneous magnetic moment and to establish the temperature of magnetic ordering (Curie temperature). Ferromagnetic resonance (FMR) measurements at low temperatures in the in-plane and out-of-plane geometries revealed the four-fold in-plane magnetic anisotropy with the easy directions along the <110> axes of the substrate. The modelling of the angular dependence of the field for resonance allowed to extract the cubic and tetragonal contributions to the magnetic anisotropy of the films and establish their dependence on the concentration of iron in the alloy. Experimental data are discussed in the framework of existing theories of dilute magnetic alloys. Using the anisotropy constants established from FMR, the magnetic hysteresis loops are reproduced utilizing the Stoner-Wohlfarth model thus indicating the predominant coherent magnetic moment rotation at low temperatures. The obtained results compile a database of magnetic properties of a palladium-iron alloy considered as a material for superconducting spintronics., Comment: 20 pages, 7 figures, submitted to Journal of Alloys and Compounds

Published

2019

5. Quantum point contact: a case of spin-resolved electron transport

Author

Useinov, Artur, Lin, Hsiu-Hau, Useinov, Niazbeck, and Tagirov, Lenar

Subjects

Condensed Matter - Mesoscale and Nanoscale Physics

Abstract

The work presents the extended theoretical model of the electrical conductance in non-magnetic and magnetic nano-size point contacts. The developed approach describes diffusive, quasi-ballistic, ballistic and quantum regimes of the spin-resolved conductance. It is based on the electron transport through metallic junction within approach of the circular constriction. The model provides unified description of the contact resistance from Maxwell diffusive through the ballistic to purely quantum transport regimes without any residual terms depending from the scale. An application are given for experimental treatment of the golden nanocontacts as a non-magnetic case and Permalloy nanowire with/without domain wall as example for the magnetic system. The model of quantum point contact assumes that contact area can be replaced by the quantum object (i.e. magnetic tunnel junction, narrow domain wall, etc.), where potential energy profile determine its electrical properties., Comment: 4 fugures

Published

2017

6. Molecular beam epitaxy of Pd-Fe graded alloy films for standing spin waves control.

Author

Yanilkin, Igor, Gumarov, Amir, Golovchanskiy, Igor, Kiiamov, Airat, Gabbasov, Bulat, Yusupov, Roman, and Tagirov, Lenar

Subjects

MOLECULAR beam epitaxy, MAGNETIC materials, STANDING waves, TEMPERATURE control, THIN films, SPIN waves

Abstract

This study demonstrates capabilities of a molecular beam epitaxy method for the deposition of ferromagnetic Pd–Fe alloy thin films with variable compositions across film thickness. It is proposed as a technological route to synthesize graded magnetic materials possessing unusual physical properties. A particular approach to realize a concentration profile through temperature control of an effusion cell during deposition is described in detail. Using this technique, graded ferromagnetic films were synthesized and characterized to reveal the possibility of controlling the spectrum of standing spin waves in them. Limitations of creating Pd–Fe films magnetically profiled across the thickness are discussed, associated with the thermal inertia of effusion cells and possible phase separation. [ABSTRACT FROM AUTHOR]

Published

2024

7. Six-fold in-plane magnetic anisotropy in Co-implanted ZnO (0001)

Author

Akdogan, Numan, Rameev, Bulat, Guler, Sumeyra, Ozturk, Osman, Aktas, Bekir, Zabel, Hartmut, Khaibullin, Rustam, and Tagirov, Lenar

Subjects

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

Abstract

Magnetic anisotropies of Co-implanted ZnO (0001) films grown on single-crystalline Al2O3 (11-20) substrates have been studied by ferromagnetic resonance (FMR) technique for different cobalt implantation doses. The FMR data show that the easy and hard axes have a periodicity of 60 degrees in the film plane, in agreement with the hexagonal structure of the ZnO films. This six-fold in-plane magnetic anisotropy, which is observed for the first time in ZnO-based diluted magnetic semiconductors, is attributed to the substitution of cobalt on Zn sites in the ZnO structure, and a clear indication for long range ferromagnetic ordering between substitutional cobalt ions in the single-crystalline ZnO films., Comment: 7 pages, 4 figures

Published

2010

8. Anion Doping of Tungsten Oxide with Nitrogen: Reactive Magnetron Synthesis, Crystal Structure, Valence Composition, and Optical Properties

Author

Malikov, Insaf F., primary, Lyadov, Nikolay M., additional, Salakhov, Myakzyum K., additional, and Tagirov, Lenar R., additional

Published

2024

9. Dose dependence of ferromagnetism in Co-implanted ZnO

Author

Akdogan, Numan, Zabel, Hartmut, Nefedov, Alexei, Westerholt, Kurt, Becker, Hans-Werner, Goek, Safak, Khaibullin, Rustam, and Tagirov, Lenar

Subjects

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

Abstract

We have studied the structural, magnetic and electronic properties of Co-implanted ZnO (0001) films grown on Al2O3 (1120) substrates for different implantation doses and over a wide temperature range. Strong room temperature ferromagnetism is observed with magnetic parameters depending on the cobalt implantation dose. A detailed analysis of the structural and magnetic properties indicates that there are two magnetic phases in Co-implanted ZnO films. One is a ferromagnetic phase due to the formation of long range ferromagnetic ordering between implanted magnetic cobalt ions in the ZnO layer, the second one is a superparamagnetic phase, which occurs due to the formation of metallic cobalt clusters in the Al2O3 substrate. Using x-ray resonant magnetic scattering, the element specific magnetization of cobalt, oxygen and Zn was investigated. Magnetic dichroism was observed at the Co L2,3 edges as well as at the O K edge. In addition, the anomalous Hall effect is also observed, supporting the intrinsic nature of ferromagnetism in Co-implanted ZnO films., Comment: 9 pages, 11 figures

Published

2008

10. High temperature ferromagnetism in Co-implanted TiO2 rutile

Author

Akdogan, Numan, Nefedov, Alexei, Zabel, Hartmut, Westerholt, Kurt, Becker, Hans-Werner, Somsen, Christoph, Goek, Safak, Bashir, Asif, Khaibullin, Rustam, and Tagirov, Lenar

Subjects

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

Abstract

We report on structural, magnetic and electronic properties of Co-implanted TiO2 rutile single crystals for different implantation doses. Strong ferromagnetism at room temperature and above is observed in TiO2 rutile plates after cobalt ion implantation, with magnetic parameters depending on the cobalt implantation dose. While the structural data indicate the presence of metallic cobalt clusters, the multiplet structure of the Co L3 edge in the XAS spectra gives clear evidence for a substitutional Co 2+ state. The detailed analysis of the structural and magnetic properties indicates that there are two magnetic phases in Co-implanted TiO2 plates. One is a ferromagnetic phase due to the formation of long range ferromagnetic ordering between implanted magnetic cobalt ions in the rutile phase, and the second one is a superparamagnetic phase originates from the formation of metallic cobalt clusters in the implanted region. Using x-ray resonant magnetic scattering, the element specific magnetization of cobalt, oxygen and titanium in Co-implanted TiO2 single crystals are investigated. Magnetic dichroism was observed at the Co L edges as well as at the O K edge. The interaction mechanism, which leads to ferromagnetic ordering of substituted cobalt ions in the host matrix, is also discussed., Comment: 19 pages, 16 figures

Published

2008

11. Intrinsic room temperature ferromagnetism in Co-implanted ZnO

Author

Akdogan, Numan, Nefedov, Alexei, Westerholt, Kurt, Zabel, Hartmut, Becker, H. Werner, Somsen, Christoph, Khaibullin, Rustam, and Tagirov, Lenar

Subjects

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

Abstract

We report on the structural and magnetic properties of a cobalt-implanted ZnO film grown on a sapphire substrate. X-ray diffraction and transmission electron microscopy reveal the presence of a (10-10)-oriented hexagonal Co phase in the Al2O3 sapphire substrate, but not in the ZnO film. Co clusters, with a diameter of is about 5-6 nm, form a Co rich layer in the substrate close to the ZnO/Al2O3 interface. Magnetization measurements indicate that there exist two different magnetic phases in the implanted region. One originates from the Co clusters in Al2O3, the other one belongs to a homogeneous ferromagnetic phase with a ferromagnetic Curie temperature far above room temperature and can be attributed to Co substitution on Zn sites in the ZnO layer. We have observed magnetic dichroism at the Co L2,3 and O K edges at room temperature as well as the multiplet structure in x-ray absorption spectra around the Co L3 edge, supporting the intrinsic nature of the observed ferromagnetism in Co-implanted ZnO film. The magnetic moment per substituted cobalt is found about 2.81 Bohr magneton which is very close to the theoretical expected value of 3 Bohr magneton per Co atom for Co 2+ in its high spin state., Comment: 9 pages, 14 figures

Published

2008

12. Resonant Magnetoresistance in Asymmetric Double-Barrier Magnetic Tunnel Junctions

Author

Useinov, Niazbeck and Tagirov, Lenar

Published

2015

13. Ion-Beam Synthesis of Structure-Oriented Iron Nanoparticles in Single-Crystalline Rutile TiO2

Author

Vakhitov, Iskander R., primary, Lyadov, Nikolay M., additional, Vdovin, Vladimir I., additional, Gutakovskii, Anton K., additional, Nuzhdin, Vladimir I., additional, Tagirov, Lenar R., additional, and Khaibullin, Rustam I., additional

Published

2023

14. Engineering the Exchange Spin Waves in Graded Thin Ferromagnetic Films

Author

Yanilkin, Igor, primary, Gumarov, Amir, additional, Golovchanskiy, Igor, additional, Gabbasov, Bulat, additional, Yusupov, Roman, additional, and Tagirov, Lenar, additional

Published

2022

15. Ultrafast signatures of magnetic inhomogeneity in Pd1−xFex (x ≤ 0.08) epitaxial thin films

Author

Petrov, Andrey V, primary, Nikitin, Sergey I, additional, Tagirov, Lenar R, additional, Gumarov, Amir I, additional, Yanilkin, Igor V, additional, and Yusupov, Roman V, additional

Published

2022

16. Density Functional Theory Approach to the Vibrational Properties and Magnetic Specific Heat of the Covalent Chain Antiferromagnet KFeS2

Author

Kiiamov, Airat, primary, Kuznetsov, Maxim, additional, Croitori, Dorina, additional, Filippova, Irina, additional, Tsurkan, Vladimir, additional, Krug von Nidda, Hans-Albrecht, additional, Seidov, Zakir, additional, Mayr, Franz, additional, Widmann, Sebastian, additional, Vagizov, Farit, additional, Tayurskii, Dmitrii, additional, and Tagirov, Lenar, additional

Published

2022

17. Controllable two- and three-state magnetization switching in single-layer epitaxial Pd1−xFex films and an epitaxial Pd0.92Fe0.08/Ag/Pd0.96Fe0.04 heterostructure

Author

Yanilkin, Igor V, primary, Gumarov, Amir I, additional, Gizzatullina, Gulnaz F, additional, Yusupov, Roman V, additional, and Tagirov, Lenar R, additional

Published

2022

18. Ab initio Investigation of Impurity Ferromagnetism in the Pd1−xFex Alloys: Concentration and Position Dependences

Author

Piyanzina, Irina, primary, Gumarov, Amir, additional, Khaibullin, Rustam, additional, and Tagirov, Lenar, additional

Published

2021

19. Synthesis, Characterization, and Magnetoresistive Properties of the Epitaxial Pd0.96Fe0.04/VN/Pd0.92Fe0.08 Superconducting Spin-Valve Heterostructure

Author

Yanilkin, Igor, primary, Mohammed, Wael, additional, Gumarov, Amir, additional, Kiiamov, Airat, additional, Yusupov, Roman, additional, and Tagirov, Lenar, additional

Published

2020

20. Application of Nuclear Inelastic Scattering Spectroscopy to the Frequency Scale Calibration of Ab Initio Calculated Phonon Density of States of Quasi-One-Dimensional Ternary Iron Chalcogenide RbFeSe2

Author

Kiiamov, Airat, primary, Tsurkan, Vladimir, additional, Croitori, Dorina, additional, Krug von Nidda, Hans-Albrecht, additional, Seidov, Zakir, additional, Wille, Hans-Christian, additional, Sergueev, Ilya, additional, Leupold, Olaf, additional, Tayurskii, Dmitrii, additional, and Tagirov, Lenar, additional

Published

2020

21. Mathematical description data: Spin-resolved electron transport in nanoscale heterojunctions: Theory and applications

Author

Useinov, Artur, primary, Lin, Hsiu-Hau, additional, Useinov, Niazbeck, additional, and Tagirov, Lenar, additional

Published

2020

22. Epitaxial growth and superconducting properties of thin-film PdFe/VN and VN/PdFe bilayers on MgO(001) substrates

Author

Mohammed, Wael M, primary, Yanilkin, Igor V, additional, Gumarov, Amir I, additional, Kiiamov, Airat G, additional, Yusupov, Roman V, additional, and Tagirov, Lenar R, additional

Published

2020

23. Professor Kochelaev, Boris Ivanovich

Author

Aganov, A. V., Aliyev, M. N., Aminova, A. V., Aminov, L. K., Atsarkin, V. A., Eremin, I. M., Eremin, M. V., Fatkullin, N. F., Fushman, D., Garifullin, I. A., Golenishchev-Kutuzov, V. A., Keller, H., Krug von Nidda, Hans-Albrecht, Loidl, Alois, Malkin, B. Z., Nigmatullin, R. R., Nikitin, S. I., Ovchinnikov, I. V., Proshin, Yu. N., Sadykov, E. K., Salakhov, M. H., Shavrov, V. G., Shengelaya, A., Skirda, V. D., Sushkov, S. V., Tagirov, M. S., Tagirov, Lenar R., Talanov, Yu. I., Tayurskii, D. A., Teitel'baum, G. B., and Zhikharev, V. A.

Subjects

ddc:530

Published

2019

24. Application of Double-Time Thermodynamic Green Functions to Solid State Physics

Author

Tagirov Lenar Rafgatovich, Kochelaev Boris Ivanovich, Deminov Rafael Garunovich, Useinov Niazbeck Khamzovich, Институт физики, and Казанский федеральный университет

Subjects

двухвременная температурная функция Грина, Физика, физика твердого тела

Abstract

100

Published

2018

25. Magnetic Properties of Chain Antiferromagnets RbFeSe2, TlFeSe2, and TlFeS2

Author

Seidov Zakir, H.-A. Krug von Nidda, Tsurkan Vladimir, Filippova Irina, Günthera Axel, Najafov A., Aliyev M. N., Vagizov Farit, Kiiamov Airat, Tagirov Lenar, Gavrilova Tatyana, Loidla Alois, Институт физики, and Казанский федеральный университет

Subjects

TlFeSe2, Физика, Mossbauer spectroscopy, SQUID magnetometry, chalcogenides, RbFeSe2, TlFeS2, X-ray diffraction

Abstract

Single crystals of ternary ion chalcogenides RbFeSe2, TlFeSe2, and TlFeS2 are studied by X-ray diffraction, SQUID magnetometry, and Mossbauer spectroscopy. Common structural units of these chalcogenides are tetrahedra of FeCh4 (chalcogen Ch = Se, S), arranged in chains by sharing an edge. It is found that RbFeSe2, TlFeSe2, and TlFeS2 undergo transition to a collinear antiferromagnetic state below temperatures TN = 248, 290, and 196 K, respectively. Their magnetic moments are oriented perpendicular to the axes of the chains of FeCh4 tetrahedra.

Published

2017

26. Magnetic properties of the chain antiferromagnet RbFeSe2

Author

Vagizov Farit Gabdulhakovich, Tagirov Lenar Rafgatovich, Aliyev M., Filippova I. G., Gavrilova T. P., Gunther A., Krug von Nidda H.-A., Loidl A., Seidov Z., Tsurkan V., Kiyamov Ajrat Gazinurovich, Институт физики, and Казанский федеральный университет

Subjects

Физика, ternary iron selenide, Mossbauer spectroscopy, chain antiferromagnet, magnetization, RbFeSe2, magnetic susceptibility

Published

2016

27. Thickness dependence of the triplet spin-valve effect in superconductor–ferromagnet–ferromagnet heterostructures

Author

Lenk, Daniel, primary, Zdravkov, Vladimir I, additional, Kehrle, Jan-Michael, additional, Obermeier, Günter, additional, Ullrich, Aladin, additional, Morari, Roman, additional, Krug von Nidda, Hans-Albrecht, additional, Müller, Claus, additional, Kupriyanov, Mikhail Yu, additional, Sidorenko, Anatolie S, additional, Horn, Siegfried, additional, Deminov, Rafael G, additional, Tagirov, Lenar R, additional, and Tidecks, Reinhard, additional

Published

2016

28. Ab initio Investigation of Impurity Ferromagnetism in the Pd 1− x Fe x Alloys: Concentration and Position Dependences.

Author

Piyanzina, Irina, Gumarov, Amir, Khaibullin, Rustam, and Tagirov, Lenar

Subjects

MAGNETIC properties, ALLOYS, DENSITY functional theory, DISTRIBUTION (Probability theory), MAGNETIZATION

Abstract

We present the results of ab initio studies of the structural and magnetic properties of the Pd host matrix doped by Fe atoms at various concentrations. By means of the density functional theory, we deduce that iron impurities are able to initialize significant magnetization of the Pd atoms, when the impurity concentration exceeds 3 at.%. We also demonstrate that the induced magnetization depends on impurity positions in the host matrix, in particular, there is a maximum of magnetization for a uniform distribution of the iron solute. [ABSTRACT FROM AUTHOR]

Published

2021

29. Synthesis, Characterization, and Magnetoresistive Properties of the Epitaxial Pd 0.96 Fe 0.04 /VN/Pd 0.92 Fe 0.08 Superconducting Spin-Valve Heterostructure.

Author

Yanilkin, Igor, Mohammed, Wael, Gumarov, Amir, Kiiamov, Airat, Yusupov, Roman, and Tagirov, Lenar

Subjects

SUPERCONDUCTING transitions, ELECTRIC resistance measurement, MAGNETIC anomalies, SUPERCONDUCTORS, MOLECULAR beam epitaxy, ELECTRON diffraction, IRON-based superconductors, SUPERCONDUCTING transition temperature

Abstract

A thin-film superconductor(S)/ferromagnet(F) F1/S/F2-type Pd0.96Fe0.04(20 nm)/VN(30 nm)/Pd0.92Fe0.08(12 nm) heteroepitaxial structure was synthesized on (001)-oriented single-crystal MgO substrate utilizing a combination of the reactive magnetron sputtering and the molecular-beam epitaxy techniques in ultrahigh vacuum conditions. The reference VN film, Pd0.96Fe0.04/VN, and VN/Pd0.92Fe0.08 bilayers were grown in one run with the target sample. In-situ low-energy electron diffraction and ex-situ X-ray diffraction investigations approved that all the Pd1−xFex and VN layers in the series grew epitaxial in a cube-on-cube mode. Electric resistance measurements demonstrated sharp transitions to the superconducting state with the critical temperature reducing gradually from 7.7 to 5.4 K in the sequence of the VN film, Pd0.96Fe0.04/VN, VN/Pd0.92Fe0.08, and Pd0.96Fe0.04/VN/Pd0.92Fe0.08 heterostructures due to the superconductor/ferromagnet proximity effect. Transition width increased in the same sequence from 21 to 40 mK. Magnetoresistance studies of the trilayer Pd0.96Fe0.04/VN/Pd0.92Fe0.08 sample revealed a superconducting spin-valve effect upon switching between the parallel and antiparallel magnetic configurations, and anomalies associated with the magnetic moment reversals of the ferromagnetic Pd0.92Fe0.08 and Pd0.96Fe0.04 alloy layers. The moderate critical temperature suppression and manifestations of superconducting spin-valve properties make this kind of material promising for superconducting spintronics applications. [ABSTRACT FROM AUTHOR]

Published

2021

30. Mossbauer study of iron-based superconductor Fe1.09Se0.5Te0.5

Author

Kiiamov Airat Gazinurovich, Ivanova Anna Gennadevna, Vagizov Farit Gabdulhakovich, Tayurskii Dmitrii Albertovich, Tagirov Lenar Rafgatovich, Tsurkan V., Loidl A., Kiiamov Airat Gazinurovich, Ivanova Anna Gennadevna, Vagizov Farit Gabdulhakovich, Tayurskii Dmitrii Albertovich, Tagirov Lenar Rafgatovich, Tsurkan V., and Loidl A.

Abstract

We present Mossbauer studies of the influence of excess iron atoms on the properties of ironbased superconductor Fe1.09SeO.5TeO.5. Mossbauer spectra were collected in a temperature range from liquid helium up to room temperature. The temperature dependences of hyperfine parameters was investigated. The Mossbauer spectra have shown a complex shape and could be treated with a model based on first principle density functional theory calculation results similar to that in Ref. [3].

31. Mossbauer study of a collinear spin density wave phase in Fe1.125Te

Author

Kiiamov Airat Gazinurovich, Vagizov Farit Gabdulhakovich, Tayurskii Dmitrii Albertovich, Tagirov Lenar Rafgatovich, Tsurkan V., Loidl A., Kiiamov Airat Gazinurovich, Vagizov Farit Gabdulhakovich, Tayurskii Dmitrii Albertovich, Tagirov Lenar Rafgatovich, Tsurkan V., and Loidl A.

Abstract

In the present study, the low-temperature Mossbauer spectroscopy measurements have been earned out to investigate peculiarities of the collinear spin density wave phase in Fe1.125Te. Mossbauer spectra were collected in a temperature range from liquid helium up to room temperature. The low temperature spectra of Fe1.125Te have shown a complex shape somewhat similar to that reported for Fe1.05Te. It was approximated with a set of magnetic sextets with a distribution of hyperfine fields. The obtained distribution appeared to be in a good agreement with the recent neutron diffraction studies reported.

32. Приложения двухвременных температурных функций Грина в физике твердого тела. Конспект лекций (на английском языке)

Author

Tagirov Lenar Rafgatovich, Kochelaev Boris Ivanovich, Deminov Rafael Garunovich, Useinov Niazbeck Khamzovich, Tagirov Lenar Rafgatovich, Kochelaev Boris Ivanovich, Deminov Rafael Garunovich, and Useinov Niazbeck Khamzovich

33. Magnetic Properties of Chain Antiferromagnets RbFeSe2, TlFeSe2, and TlFeS2

Author

Seidov Zakir, H.-A. Krug von Nidda, Tsurkan Vladimir, Filippova Irina, Günthera Axel, Najafov A., Aliyev M. N., Vagizov Farit, Kiiamov Airat, Tagirov Lenar, Gavrilova Tatyana, Loidla Alois, Seidov Zakir, H.-A. Krug von Nidda, Tsurkan Vladimir, Filippova Irina, Günthera Axel, Najafov A., Aliyev M. N., Vagizov Farit, Kiiamov Airat, Tagirov Lenar, Gavrilova Tatyana, and Loidla Alois

Abstract

Single crystals of ternary ion chalcogenides RbFeSe2, TlFeSe2, and TlFeS2 are studied by X-ray diffraction, SQUID magnetometry, and Mossbauer spectroscopy. Common structural units of these chalcogenides are tetrahedra of FeCh4 (chalcogen Ch = Se, S), arranged in chains by sharing an edge. It is found that RbFeSe2, TlFeSe2, and TlFeS2 undergo transition to a collinear antiferromagnetic state below temperatures TN = 248, 290, and 196 K, respectively. Their magnetic moments are oriented perpendicular to the axes of the chains of FeCh4 tetrahedra.

34. Mossbauer spectroscopy evidence of intrinsic non-stoichiometry in iron telluride single crystals

Author

Vagizov Farit Gabdulhakovich, Kiiamov Airat Gazinurovich, Lysogorskiy Yury Vyacheslavovich, Tagirov Lenar Rafgatovich, Tayurskii Dmitrii Albertovich, Croitori Dorina, Loidl Alois, Vladimir Tsurkan, Vagizov Farit Gabdulhakovich, Kiiamov Airat Gazinurovich, Lysogorskiy Yury Vyacheslavovich, Tagirov Lenar Rafgatovich, Tayurskii Dmitrii Albertovich, Croitori Dorina, Loidl Alois, and Vladimir Tsurkan

Abstract

The FeTe parent compound for iron-superconductor chalcogenides was studied applying Mossbauer spectroscopy accompanied by ab initio calculations of electric field gradients at the iron nuclei. Room-temperature (RT) Mossbauer spectra of single crystals have shown asymmetric doublet structure commonly ascribed to contributions of overstoichiometric iron or impurity phases. Low-temperature Mossbauer spectra of the magnetically ordered compound could be well described by four hyperfine-split sextets, although no other foreign phases different from Fe1.05Te were detected by XRD and microanalysis within the sensitivity limits of the equipment. Density functional ab initio calculations have shown that over-stoichiometric iron atoms significantly affect electron charge and spin density up to the second coordination sphere of the iron sub-lattice, and, as a result, four non-equivalent groups of iron atoms are formed by their local environment. The resulting four-group model consistently desc

35. Magnetic properties of the chain antiferromagnet RbFeSe2

Author

Vagizov Farit Gabdulhakovich, Tagirov Lenar Rafgatovich, Aliyev M., Filippova I. G., Gavrilova T. P., Gunther A., Krug von Nidda H.-A., Loidl A., Seidov Z., Tsurkan V., Kiyamov Ajrat Gazinurovich, Vagizov Farit Gabdulhakovich, Tagirov Lenar Rafgatovich, Aliyev M., Filippova I. G., Gavrilova T. P., Gunther A., Krug von Nidda H.-A., Loidl A., Seidov Z., Tsurkan V., and Kiyamov Ajrat Gazinurovich