Your search keyword '"Raevskaya, S."' showing total 351 results

1. Cluster superconductivity in the magnetoelectric Pb(Fe1/2Sb1/2)O3 ceramics

Author

Laguta, V. V., Marysko, M., Stephanovich, V. A., Raevsky, I. P., Olekhnovich, N. M., Pushkarev, A. V., Radyush, Yu. V., Raevskaya, S. I., Kuzian, R. O., Chlan, V., and Štěpánková, H.

Subjects

Condensed Matter - Materials Science

Abstract

We report the observation of cluster (local) superconductivity in the magnetoelectric Pb(Fe1/2Sb1/2)O3 ceramics prepared at a hydrostatic pressure of 6 GPa and temperatures 1200-1800 K to stabilize the perovskite phase. The superconductivity is manifested by an abrupt drop of the magnetic susceptibility at the critical temperature TC 7 K. Both the magnitude of this drop and TC decrease with magnetic field increase. Similarly, the low-field paramagnetic absorption measured by EPR spectrometer drops significantly below TC as well. The observed effects and their critical magnetic field dependence are interpreted as manifestation of the superconductivity and Meissner effect in metallic Pb nanoclusters existing in the ceramics. Their volume fraction and average size were estimated as 0.1-0.2% and 140-150 nm, respectively. The superconductivity related effects disappear after oxidizing annealing of the ceramics., Comment: 9 pages, 5 figures

Published

2016

2. Magnetoelectric effect in antiferromagnetic multiferroic Pb(Fe1/2Nb1/2)O3 and its solid solutions with PbTiO3

Author

Laguta, V. V., Stephanovich, V. A., Raevski, I. P., Raevskaya, S. I., Titov, V. V., Smotrakov, V. G., and Eremkin, V. V.

Subjects

Condensed Matter - Materials Science

Abstract

Antiferromagnets (AFMs) are presently considered as promising materials for applications in spintronics and random access memories due to the robustness of information stored in AFM state against perturbing magnetic fields (P. Wadley et al., Science 351, 587 (2016)). In this respect, AFM multiferroics maybe attractive alternatives for conventional AFMs as the coupling of magnetism with ferroelectricity (magnetoelectric effect) offers an elegant possibility of electric field control and switching of AFM domains. Here we report the results of comprehensive experimental and theoretical investigations of the quadratic magnetoelectric (ME) effect in single crystals and high-resistive ceramics of Pb(Fe1/2Nb1/2)O3 (PFN) and (1- x)Pb(Fe1/2Nb1/2)O3xPbTiO3 (PFNxPT). We are interested primarily in the temperature range of multiferroic phase, T < 150 K, where the ME coupling coefficient is extremely large (as compared to well-known multiferroic BiFeO3) and shows sign reversal at paramagnetic-to-antiferromagnetic phase transition. Moreover, we observe strong ME response nonlinearity in the AFM phase in the magnetic fields of only few kOe. To describe the temperature and magnetic field dependencies of the above unusual features of ME effect in PFN and PFN-xPT, we use simple phenomenological Landau approach which explains experimental data surprisingly well. Our ME measurements demonstrate that the electric field of only 20-25 kV/cm is able to switch the AFM domains and align them with ferroelectric ones even in PFN ceramic samples., Comment: 24 pages, 9 figures

Published

2016

3. Room-temperature paramagnetoelectric effect in magnetoelectric multiferroics Pb(Fe1/2Nb1/2)O3 and its solid solution with PbTiO3

Author

Laguta, V. V., Morozovska, A. N., Eliseev, E. A., Raevski, I. P., Raevskaya, S. I., Sitalo, E. I., Prosandeev, S. A., and Bellaiche, L.

Subjects

Condensed Matter - Materials Science

Abstract

We have observed the magnetoelectric response at room temperature and above in high-resistive ceramics made of multiferroic Pb(Fe1/2Nb1/2)O3 (PFN) and PFN-based solid solution 0.91PFN-0.09PbTiO3 (PFN-PT). The value of the paramagnetoelectric (PME) coefficient shows a pronounced maximum near the ferroelectric-to-paraelectric phase transition temperature, T_C, and then decreases sharply to zero for T>T_C. The maximal PME coefficient in PFN is about 4x10(-18) s/A. The theoretical description of the PME effect, within the framework of a Landau theory of phase transitions allowing for realistic temperature dependences of spontaneous polarization, dielectric and magnetic susceptibilities, qualitatively reproduces well the temperature dependence of the PME coefficient. In particular, the Landau theory predicts the significant increase of the PME effect at low temperatures and near the temperature of the paraelectric-to-ferroelectric phase transition, since the PME coefficient is equal to the product of the spontaneous polarization, dielectric permittivity, square of magnetic susceptibility and the coefficient quantifying the strength of the biquadratic magnetoelectric coupling

Published

2015

4. The Effect of Mechanical Activation on the Structure and Dielectric Properties of PbYb1/2Nb1/2O3–PbFe1/2Nb1/2O3 Solid Solution Ceramics

Author

Raevski, I. P., Gusev, A. A., Isupov, V. P., Evstigneeva, M. A., Raevskaya, S. I., Lutokhin, A. G., Kubrin, S. P., Zakharchenko, I. N., Kuprina, Y. A., Titov, V. V., Malitskaya, M. A., Li, G. R., Bunina, O. A., Parinov, Ivan A., editor, Chang, Shun-Hsyung, editor, and Kim, Yun-Hae, editor

Published

2019

5. Mössbauer Study of the Mechanical Activation Effect on the Magnetic Properties of PbFe0.5Ta0.5O3

Author

Kubrin, S. P., Raevski, I. P., Gusev, A. A., Isupov, V. P., Chou, C.-C., Titov, V. V., Sarychev, D. A., Raevskaya, S. I., Zekhtser, M. Y., and Malitskaya, M. A.

Published

2020

6. Mössbauer Study of the Effect of Cation Substitutions on the Magnetic Phase Transitions in BiFe1 – xCrxO3 and (1 – x)BiFeO3–xPbFe0.5Sb0.5O3 Solid Solutions

Author

Kubrin, S. P., Raevski, I. P., Olekhnovich, N. M., Pushkarev, A. V., Radyush, Yu. V., Titov, V. V., Malitskaya, M. A., Li, Guorong, and Raevskaya, S. I.

Published

2020

7. The Effect of Cr-Doping on the Structure, Dielectric and Magnetic Properties of BiFeO3 and Pb(Fe0.5Sb0.5)O3 Multiferroics

Author

Raevskaya, S. I., Kubrin, S. P., Pushkarev, A. V., Olekhnovich, N. M., Radyush, Y. V., Titov, V. V., Chen, H., Chou, C.-C., Malitskaya, M. A., Raevski, I. P., Stashenko, V. V., Sarychev, D. A., Parinov, Ivan A., editor, Chang, Shun-Hsyung, editor, and Gupta, Vijay K., editor

Published

2018

8. Structural and Dielectric Studies of PbYb1/2Nb1/2O3 Ceramics with the Differing Degree of the Long-Range Compositional Ordering Fabricated by Mechanoactivation

Author

Raevski, I. P., Kuprina, Yu. A., Zakharchenko, I. N., Gusev, A. A., Isupov, V. P., Bunina, O. A., Titov, V. V., Raevskaya, S. I., Malitskaya, M. A., Blazhevich, A. V., Orlov, S. V., Sitalo, E. I., Parinov, Ivan A., editor, Chang, Shun-Hsyung, editor, and Gupta, Vijay K., editor

Published

2018

9. Critical character of the field dependence of giant values of converse piezoelectric moduli in polycrystalline relaxor ferroelectric 0.675Pb(Mg1/3Nb2/3)O3–0.325PbTiO3.

Author

Raevski, I. P., Zeng, J., Zhao, K., Ruan, W., Ruan, X., Zheng, L., Xue, S., Li, G., Raevskaya, S. I., Titov, V. V., Malitskaya, M. A., Erofeeva, E. A., and Kolosov, S. I.

Subjects

PIEZOELECTRICITY, CRITICAL point (Thermodynamics), PHASE transitions, PIEZOELECTRIC ceramics, FERROELECTRIC transitions

Abstract

Temperature and field dependences of dielectric permittivity ε and unipolar electric field-induced strain S of the 0.675Pb(Mg1/3Nb2/3)O3−0.325PbTiO3 ceramics have been studied in the 25...200 °C range. Temperature dependences of both dielectric permittivity and converse piezoelectric modulus d*33 show anomalies corresponding to phase transitions between rhombohedral (monoclinic), tetragonal, and cubic phases. Based on the data of dielectric and field-induced strain studies, the E,T-phase diagram is plotted. The possible critical behavior of converse piezoelectric modulus d*33 and its correlation with the position of the known critical point in the E,T-phase diagram of PMN-xPT system are discussed. [ABSTRACT FROM AUTHOR]

Published

2024

10. Mӧssbauer and dielectric studies of Bi0.6Nd0.4Fe0.5M0.5O3 (M – Mn, Cr) solid solution ceramics fabricated by a high-pressure synthesis.

Author

Raevski, I. P., Kubrin, S. P., Pushkarev, A. V., Olekhnovich, N. M., Radyush, Yu. V., Raevskaya, S. I., Titov, V. V., Malitskaya, M. A., Shishkina, P. A., and Kolosov, S. I.

Subjects

SOLID solutions, CRYSTAL lattices, ELECTRON traps, PHASE transitions, PEROVSKITE

Abstract

Bi0.6Nd0.4Fe0.5M0.5O3 (M – Mn, Cr) compositions with perovskite structure were fabricated by a high-pressure synthesis. Mӧssbauer studies have shown that doping with Nd does not change substantially Neel temperature values of Bi0.6Nd0.4 Fe0.5M0.5O3 (M – Cr, Mn) compositions. However, the Fe3+ and Mn3+ ions seem to be inhomogeneously distributed in the crystal lattice and form Fe-poor and Fe-rich regions. Similar result was obtained by us earlier for Bi(Fe1-xCrx)O3 solid solution. Both compositions studied exhibit a giant dielectric response in a wide temperature range. The giant dielectric response seems to be due to the relaxation of electrons or polarons trapped by oxygen vacancies. [ABSTRACT FROM AUTHOR]

Published

2024

11. Mössbauer Study of the Effect of Mechanical Activation on the Magnetic Properties of PbFe0.5Nb0.5O3

Author

Kubrin, S. P., Raevski, I. P., Stashenko, V. V., Gusev, A. A., Isupov, V. P., Chen, H., Chou, C. -C., Sarychev, D. A., Titov, V. V., Raevskaya, S. I., Parinov, Ivan A., editor, Chang, Shun-Hsyung, editor, and Jani, Muaffaq A., editor

Published

2017

12. Polarization Switching Dynamics in PbFe1/2Nb1/2O3 Ceramics as Seen via the Frequency Dependence of Hysteresis Loops

Author

Pavlov, A. N., Raevski, I. P., Minasyan, T. A., Raevskaya, S. I., Malitskaya, M. A., Titov, V. V., Pandey, D., Bokov, A. A., Parinov, Ivan A., editor, Chang, Shun-Hsyung, editor, and Jani, Muaffaq A., editor

Published

2017

13. Bias field effect on the temperature anomalies of dielectric permittivity in PbMg1/3Nb2/3O3- PbTiO3 single crystals

Author

Raevski, I. P., Prosandeev, S. A., Emelyanov, A. S., Raevskaya, S. I., Colla, Eugene V., Viehland, D., Kleemann, W., Vakhrushev, S. B., Dellis, J-L., Marssi, M. El, and Jastrabik, L.

Subjects

Condensed Matter - Materials Science

Abstract

In contrast to ordinary ferroelectrics where the temperature, Tm, of the permittivity maximum monotonically increases with bias field, E, in (1-x)PbMg1/3Nb2/3O3-(x)PbTiO3 (0

Published

2005

14. Diffuse first-order phase transition in NaNbO$_3$:Gd (a report)

Author

Raevski, I. P., Raevskaya, S. I., Prosandeev, S. A., Shuvaeva, V. A., Glazer, A. M., and Prosandeeva, M. S.

Subjects

Condensed Matter - Materials Science

Abstract

Dielectric permittivity measurements show that (1-x)NaNbO3-(x)Gd1/3NbO3 crystals, at $x=0.09$, exhibit a first order phase transition near 150 C which is diffuse over a wide temperature interval. The area of the \epsilon(T) thermal hysteresis loop was found to depend both on the annealing and cooling temperatures. Optical studies in polarized light show the decrease of the domains sizes at this phase transition. The results obtained are fitted assuming the space distribution of Curie temperatures., Comment: 2 pages, 3 figures, Fundamental Physics of Ferroelectrics, Williamsburg 2004

Published

2004

15. Random-Site Cation Ordering and Dielectric Properties of PbMg1/3Nb2/3o3-PbSc1/2Nb1/2o3

Author

Raevski, I. P., Prosandeev, S. A., Emelyanov, S. M., Savenko, F. I., Zakharchenko, I. N., Bunina, O. A., Bogatin, A. S., Raevskaya, S. I., Gagarina, E. S., Sahkar, E. V., and Jastrabik, L.

Subjects

Condensed Matter - Materials Science

Abstract

(1-x)PbMg1/3Nb2/3O3-(x)PbSc1/2Nb1/2O3 (PMN-PSN) solid solution crystals have been grown by the flux method in the whole concentration range. X-ray supercell reflections due to B-cation ordering were observed for as-grown crystals from the 0.1 < x < 0.65 compositional range. Though the ordered domains are rather large (~50 nm) the relaxor-like dielectric behavior is observed for compositions with x < 0.6. The diffusion of the dielectric permittivity maximum in as-grown crystals is the lowest at x = 0.6 and increases towards the end members of solid solution. Such behavior is explained within a Bragg-Williams approach by employing the random layer model. At x ~ 0.6 the excitation energy determined from the Vogel-Fulcher relation exhibits a jump which we regard to changing the kind of the polar regions from PbMg1/3Nb2/3O3 to PbSc1/2Nb1/2O3 related type., Comment: 10 pages, Integrated Ferroelectrics 2003

Published

2003

16. Evolution of dielectric properties in the (1−x) PbFe0.5Nb0.5O3–xBaFe0.5Nb0.5O3 solid solution system

Author

Raevski, I. P., Titov, V. V., Chen, Haydn, Zakharchenko, I. N., Raevskaya, S. I., and Shevtsova, S. I.

Published

2019

17. Studies of Ferroelectric and Magnetic Phase Transitions in Multiferroic PbFe0.5 B 0.5O3–PbTiO3 (B = Nb, Ta) Solid Solution Ceramics

Author

Raevski, I. P., Kubrin, S. P., Blazhevich, A. V., Molokeev, M. S., Misjul, S. V., Eremin, E. V., Chen, H., Chou, C.-C., Sitalo, E. I., Raevskaya, S. I., Titov, V. V., Sarychev, D. A., Malitskaya, M. A., Zakharchenko, I. N., Chang, Shun-Hsyung, editor, Parinov, Ivan A., editor, and Topolov, Vitaly Yu., editor

Published

2014

18. The Effect of Mechanical Activation on the Synthesis and Properties of Multiferroic Lead Iron Niobate

Author

Gusev, A. A., Raevski, I. P., Avvakumov, E. G., Isupov, V. P., Kubrin, S. P., Chen, H., Chou, C.-C., Sarychev, D. A., Titov, V. V., Pugachev, A. M., Raevskaya, S. I., Stashenko, V. V., Chang, Shun-Hsyung, editor, Parinov, Ivan A., editor, and Topolov, Vitaly Yu., editor

Published

2014

19. Photostimulated Currents in Single Crystals of Lead Magnoniobate and Lead Magnoniobate Titanate

Author

Migachev, S. A., Mamin, R. F., Rayevsky, I. P., and Raevskaya, S. I.

Published

2018

20. Thermophysical study of structural phase transitions in Na0.95Li0.05NbO3 solid solution

Author

Gorev, M. V., Bondarev, V. S., Raevskaya, S. I., Flerov, I. N., Malitskaya, M. A., and Raevskii, I. P.

Published

2016

21. Room-temperature paramagnetoelectric effect in magnetoelectric multiferroics Pb(Fe1/2Nb1/2)O3 and its solid solution with PbTiO3

Author

Laguta, V. V., Morozovska, A. N., Eliseev, E. A., Raevski, I. P., Raevskaya, S. I., Sitalo, E. I., Prosandeev, S. A., and Bellaiche, L.

Published

2016

22. Second harmonic generation study of local polar inhomogeneities in Pb3(MgNb2)O9

Author

Pugachev, A. M., Kovalevskii, V. I., Malinovskii, V. K., Malitskaya, M. A., Raevskaya, S. I., Raevskii, I. P., and Surovtsev, N. V.

Published

2015

23. Nonlinear optical studies of the temperature evolution of local asymmetric regions in solid solutions (1-x) PbMg1/3Nb2/3O3-xPbSc1/2Nb1/2O3

Author

Pugachev, A. M., primary, Zaytseva, I. V., additional, Surovtsev, N. V., additional, Raevski, I. P., additional, and Raevskaya, S. I., additional

Published

2022

24. Studies of ferroelectric and magnetic phase transitions in multiferroic PbFe0.5Ta0.5O3–PbTiO3 solid solution ceramics

Author

Raevski, I. P., Titov, V. V., Malitskaya, M. A., Eremin, E. V., Kubrin, S. P., Blazhevich, A. V., Chen, H., Chou, C.-C., Raevskaya, S. I., Zakharchenko, I. N., Sarychev, D. A., and Shevtsova, S. I.

Published

2014

25. Studies of the heat capacity and thermal expansion of the Na0.95K0.05NbO3 solid solution

Author

Gorev, M. V., Bondarev, V. S., Raevskaya, S. I., Ivliev, M. P., Raevskii, I. P., and Flerov, I. N.

Published

2014

26. Thermal and physical properties of sodium niobate ceramics over a wide temperature range

Author

Bondarev, V. S., Kartashev, A. V., Gorev, M. V., Flerov, I. N., Pogorel’tsev, E. I., Molokeev, M. S., Raevskaya, S. I., Suzdalev, D. V., and Raevskii, I. P.

Published

2013

27. Chemical ordering and magnetic phase transitions in multiferroic BiFeO3-AFe1/2Sb1/2O3 (A-Pb, Sr) solid solutions fabricated by a high-pressure synthesis

Author

Raevskaya, S. I., primary, Olekhnovich, N. M., additional, Pushkarev, A. V., additional, Radyush, Y. V., additional, Kubrin, S. P., additional, Titov, V. V., additional, Artseva, E. A., additional, Raevski, I. P., additional, Zakharchenko, I. N., additional, Chou, C-C., additional, and Malitskaya, M. A., additional

Published

2021

28. Second harmonic generation in the paraelectric phase in powders and ceramics of BaTiO3

Author

Kovalevskii, V. I., Malinovskii, V. K., Pugachev, A. M., Raevskii, I. P., Raevskaya, S. I., Rudych, P. D., and Surovtsev, N. V.

Published

2012

29. Quantum-mechanical calculations and analysis of vibrational modes in lead magnoniobate

Author

Prosandeev, S. A., Panchelyuga, M. S., Raevskaya, S. I., and Raevskii, I. P.

Published

2011

30. Influence of the misfit of the crystal chemical parameters of Na and Li cations on the dielectric properties of NaNbO3-LiNbO3 solid solutions

Author

Ivliev, M. P., Raevskaya, S. I., Kravchenko, O. Yu., Raevskiĭ, I. P., and Reznichenko, L. A.

Published

2009

31. Structure and electrophysical properties of a lead iron niobate-based amorphous material

Author

Korotkov, L. N., Kozhukhar’, S. N., Posmet’ev, V. V., Urazov, D. V., Rogovoi, D. F., Barmin, Yu. V., Kubrin, S. P., Raevskaya, S. I., and Raevskii, I. P.

Published

2009

32. x,T-phase diagram of PbFe1/2Ta1/2O3-PbTiO3solid solution

Author

Raevskaya, S. I., primary, Malitskaya, M. A., additional, Sitalo, E. I., additional, Raevski, I. P., additional, Lutokhin, A. G., additional, Zakharov, Y. N., additional, Titov, V. V., additional, Zakharchenko, I. N., additional, and Chou, C.-C., additional

Published

2021

33. Tuning dielectric and magnetic properties of complex perovskites PbB'1/2B"1/2O3 and solid solutions by varying the degree of compositional (chemical) ordering of B' and B" ions

Author

Raevski, I. P., primary, Kubrin, S. P., additional, Gusev, A. A., additional, Pushkarev, A. V., additional, Olekhnovich, N. M., additional, Radyush, Y. V., additional, Raevskaya, S. I., additional, Titov, V. V., additional, Permiakov, A. Y., additional, and Malitskaya, M. A., additional

Published

2021

34. Ions substitution effect on the magnetic phase transition temperature of 0.5BiFeO3-0.5Pb1-xSrxTiO3 multiferroic solid solutions

Author

Raevskaya, S. I., primary, Kubrin, S. P., additional, Zhuang, J., additional, Raevski, I. P., additional, Bikyashev, E. A., additional, Malitskaya, M. A., additional, Zakharchenko, I. N., additional, and Titov, V. V., additional

Published

2021

35. Formation of ferroelectric phases in KNbO3 and other niobates with perovskite structure

Author

Ivliev, M. P., Raevskaya, S. I., Raevskiĭ, I. P., Shuvaeva, V. A., and Pirog, I. V.

Published

2007

36. Formation of phase states in PbFe-=SUB=-0.5-=/SUB=-Nb-=SUB=-0.5-=/SUB=-O-=SUB=-3-=/SUB=-: Description based on multiminima models

Author

null Raevski I. P., null Titov V. V., null Raevskaya S. I., and null Ivliev M. P.

Abstract

Two ferroelectric phase transitions are observed in the PbFe0.5Nb0.5O3 crystal. The first is between the cubic and tetragonal phase, the second is between the tetragonal and monoclinic phases. To describe phase transitions and emerging phases, a statistical model is proposed, based on the composition of two multi-minimum models --- a six-minima model for the Pb cation and an eight-minima model for the Nb cation. Adjusting the model parameters, makes it possible to reproduce all the characteristic features of the thermodynamic behavior of the crystal. The most interesting is the formation of a ferroelectric, complexly ordered monoclinic phase with Cm symmetry. It is shown that the mentioned monoclinic phase arises due to the fact that the first-order phase transition to the rhombohedral ferroelectric phase occurs in the presence of an "external field" of tetragonal symmetry. The contribution of the subsystems of Pb and Nb cations to the features of the dielectric and structural properties of the crystal is estimated. Keywords: ferroelectric relaxors, phase transitions, multiminima models, ferroelectric monoclinic phase.

Published

2022

37. Influence of crystallite-boundary potential barriers on the thermopower and peltier effect in polycrystalline ferroelectric semiconductors

Author

Pavlov, A. N., Raevsky, I. P., Sakhnenko, V. P., Kuropatkina, S. A., and Raevskaya, S. I.

Published

2006

38. Dielectric and optical properties of Pb(Mg1/3Nb2/3)0.8Ti0.2O3 (PMNT-0.2) ferroelectric relaxor single crystals

Author

Kamzina, L. S., Raevskii, I. P., Emel’yanov, S. M., Raevskaya, S. I., and Sahkar, E. V.

Published

2004

39. Phase states and dielectric properties of sodium-potassium niobate solid solutions

Author

Ivliev, M. P., Raevskii, I. P., Reznichenko, L. A., Raevskaya, S. I., and Sakhnenko, V. P.

Published

2003

40. Effect of a bias field on the dielectric properties of NaNbO3 solid solutions in the range of the giant temperature hysteresis of a phase transition

Author

Lutokhin, A. G., Raevskaya, S. I., Suzdalev, D. V., Zakharov, Yu. N., Raevski, I. P., Titov, V. V., Panchenko, E. M., Malitskaya, M. A., and Zakharchenko, I. N.

Published

2012

41. Effect of a bias electric field on the dielectric properties of lead-free (Na,Sr,Li)NbO3 ceramics with diffuse phase transition

Author

Raevskaya, S. I., Chou, C. C., Lutokhin, A. G., Suzdalev, D. V., Zakharov, Yu. N., Panchenko, E. M., Titov, V. V., Raevskii, I. P., Reznichenko, L. A., and Malitskaya, M. A.

Published

2011

42. Dependences of the dielectric and pyroelectric properties of (1 − x)PbFe1/2Nb1/2O3−x PbTiO3 ferroelectric ceramics solid solutions on the PbTiO3 content in a compositional range of 0 ≤ x ≤ 0.08

Author

Pavelko, A. A., Lutokhin, A. G., Raevskaya, S. I., Zakharov, Yu. N., Malitskaya, M. A., Raevskii, I. P., Zakharchenko, I. N., Sitalo, E. I., Korchagina, N. A., and Kuznetsov, V. G.

Published

2010

43. Studies of ferroelectric and magnetic phase transitions in Pb(Fe0.5Nb0.5)1-xCexO3 multiferroic ceramics

Author

Raevskaya, S. I., primary, Titov, V. V., additional, Raevski, I. P., additional, Kubrin, S. P., additional, Chou, C.-C., additional, Shevtsova, S. I., additional, Malitskaya, M. A., additional, and Zakharchenko, I. N., additional

Published

2020

44. Mössbauer and magnetization studies of magnetic phase transitions in 0.5BiFeO3–0.5NaNbO3 and 0.5LaFeO3–0.5NaNbO3 solid solutions

Author

Raevskaya, S. I., primary, Kubrin, S. P., additional, Zhuang, Jian, additional, Raevski, I. P., additional, Malitskaya, M. A., additional, Zakharchenko, I. N., additional, Panchelyuga, M. S., additional, and Titov, V. V., additional

Published

2020

45. Nonlinear optical studies of the temperature evolution of local asymmetric regions in solid solutions (1-x) PbMg1/3Nb2/3O3-xPbSc1/2Nb1/2O3.

Author

Pugachev, A. M., Zaytseva, I. V., Surovtsev, N. V., Raevski, I. P., and Raevskaya, S. I.

Subjects

SOLID solutions, SECOND harmonic generation, RANDOM fields, REFRACTIVE index, ELECTRIC fields

Abstract

The temperature dependencies of second harmonic generation (SHG) in (1-x)PMN–xPSN solid solutions (x = 1, 0.35, 0.23, 0.1, 0) are measured. Presence of SHG signal in centrosymmetric phase in all samples studied is demonstrated. It indicates asymmetric regions in the centrosymmetric phase. In PMN crystal (x = 0) in the centrosymmetric phase, SHG temperature dependence follows deviations of strain and refractive index from their high-temperature dependencies, which are determined by random electric fields in local polar regions. In the intermediate temperature range, where macroscopic spontaneous polarization disappears, SHG signal is caused by relatively large and long-lived polar asymmetric regions. [ABSTRACT FROM AUTHOR]

Published

2022

46. Chemical ordering and magnetic phase transitions in multiferroic BiFeO3–AFe1/2Sb1/2O3(A-Pb, Sr) solid solutions fabricated by a high-pressure synthesis.

Author

Raevskaya, S. I., Olekhnovich, N. M., Pushkarev, A. V., Radyush, Y. V., Kubrin, S. P., Titov, V. V., Artseva, E. A., Raevski, I. P., Zakharchenko, I. N., Chou, C-C., and Malitskaya, M. A.

Subjects

MULTIFERROIC materials, MAGNETIC transitions, MAGNETISM, FABRICATION (Manufacturing), PEROVSKITE

Abstract

Ceramic samples of BiFeO3-based perovskite solid solutions with the highly ordered complex perovskites PbFe 1 / 2 Sb 1 / 2 O3(PFS) and SrFe 1 / 2 Sb 1 / 2 O3 (SFS) were obtained using high-pressure synthesis at 4–6 GPa. Mössbauer studies revealed that BiFeO3-SFS compositions are characterized by a larger compositional inhomogeneity as compared to BiFeO3-PFS ones. In line with this result, concentration dependence of the magnetic phase transition temperature T N for BiFeO3-SFS compositions is close to the T N (x) dependence for BiFeO3solid solution with disordered perovskite PbFe 1 / 2 Nb 1 / 2 O3(PFN). In contrast to this T N (x) dependence for BiFeO3-PFS compositions nicely follows the theoretical T N (x) dependence calculated for the case of the ordered distribution of Fe 3 + and non-magnetic Sb 5 + ions in the lattice (chemical ordering). [ABSTRACT FROM AUTHOR]

Published

2022

47. Influence of the prehistory of NaNbO3-Gd1/3NbO3 ceramics and single crystals on their dielectric properties

Author

Burkhanov, A. I., Bondarenko, P. V., Raevskaya, S. I., Shil’nikov, A. V., and Raevskiĭ, I. P.

Published

2006

48. Dielectric properties of PbMg1/3Nb2/3O3 - PbTiO3 and BaNb2O6-SrNb2O6 solid solution ceramics sintered from mechanochemically synthesized nanopowders

Author

Raevskaya, S. I., Gusev, A. A., Isupov, V. P., Raevski, I. P., Kubrin, S. P., Titov, V. V., Bunina, O. A., and Malitskaya, M. A.

Abstract

This work was supported in part by RFBR (project 17-03-01293_a) and by the Ministry of Education and Science of the Russian Federation (research project 3.1649.2017/4.6).

Published

2019

49. Mossbauer study of cation substitution effect on the magnetic phase transition temperature of 0.5AFeO3-0.5NaNbO3 (A = Bi, La) solid solutions

Author

Raevskaya, S. I., Kubrin, S. P., Jian Zhuang, Raevski, I. P., Malitskaya, M. A., Zakharchenko, I. N., Titov, V. V., and Smotrakov, V. G.

Abstract

This work was supported in part by RFBR project 19-52-53030 GFEN_a and by the Ministry of Education and Science of the Russian Federation (research projects 3.1649.2017/4.6 and 3.5346.2017/BP).

Published

2019

50. Tuning relaxor and magnetic properties of complex perovskites by varying the compositional ordering degree

Author

Raevski, I. P., Kubrin, S. P., Pushkarev, A. V., Olekhnovich, N. M., Radyush, Y. V., Gusev, A. A., Isupov, V. P., Raevskaya, S. I., Titov, V. V., and Malitskaya, M. A.

Abstract

This work was supported in part by RFBR (projects 17-03-01293_a and 18-52-00029 Bel_a), Belarussian Republican Foundation for Fundamental Researches (grant T18R-048) and by the Ministry of Education and Science of the Russian Federation (research project 3.1649.2017/4.6).

Published

2019