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116 results on '"Sheptyakov, D. V."'

1. The magneto-structural relationship in the tetrahedral spin chain oxide CsCoO$_2$

Author

Ali, N. Z., Williams, R. C., Xiao, F., Clark, S. J., Lancaster, T., Blundell, S. J., Sheptyakov, D. V., and Jansen, M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

We have investigated the structural and magnetic transitions in CsCoO$_2$ using calorimetric measurements, neutron powder diffraction (NPD), density functional theory (DFT) calculations and muon-spin relaxation ($\mu$SR) measurements. CsCoO$_2$ exhibits three-dimensional long-range antiferromagnetic (AFM) order at 424~K, resulting in antiferromagnetic alignment of chains of ferromagnetically ordered Co-Co spin dimers. Although there is no change in magnetic structure around a structural transition at $T^{*}=100$~K, the resulting bifurcation of corner-shared Co--O--Co bond angles causes a weakening of the AFM interaction for one set of bonds along the chains. Consequently, the system undergoes a complex freezing out of relaxation processes on cooling.

Published
2014
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2. Two types of adjacent dimer layers in the low temperature phase of BaCuSi2O6

Author

Sheptyakov, D. V., Pomjakushin, V. Yu., Stern, R., Heinmaa, I., Nakamura, H., and Kimura, T.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The low-temperature crystal structure of BaCuSi2O6 has been investigated with high-resolution synchrotron x-ray and neutron powder diffraction techniques and has been found to be on average (ignoring the incommensurate modulation) orthorhombic, with the most probable space group Ibam. The Cu-Cu dimers in this material are forming two types of layers with distinctly different interatomic distances. Subtle changes also modify the partially frustrated interlayer Cu-Cu exchange paths. The present results corroborate the interpretation of low-temperature nuclear magnetic resonance and inelastic neutron scattering data in terms of distinct dimer layers.

Published
2012
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3. Iron vacancy superstructure and possible room temperature antiferromagnetic order in superconducting Cs_{y}Fe_{2-x}Se_2

Author

Pomjakushin, V. Yu., Sheptyakov, D. V., Pomjakushina, E. V., Krzton-Maziopa, A., Conder, K., Chernyshov, D., Svitlyk, V., and Shermadini, Z.

Subjects
Condensed Matter - Other Condensed Matter, Condensed Matter - Superconductivity
Abstract

Neutron and x-ray powder and single crystal synchrotron diffraction of CsyFe2-xSe2 show the presence of superstructure reflections with propagation vector k=[2/5, 1/5, 1] with respect to the average crystal structure I4/mmm (a = 4, c = 15A). The propagation vector star corresponds to the 5 times bigger unit cell given by transformation A=2a+b, B= -a+2b, C= c. A solution for the atomic structure is found in the space groups P42/n and I4/m with an ordered pattern of iron vacancies corresponding to the iron deficiency x = 0.29 and Cs stoichiometry y = 0.83. The superstructure satellites are more pronounced in the neutron diffraction patterns suggesting that they can have some magnetic contribution. We have sorted out possible symmetry adapted magnetic configurations and found that the presence of AFM ordering with the ordered magnetic moment of Fe with 2{\mu}B does not contradict to the experimental data. However, the solutions space is highly degenerate and we cannot choose a specific solution. Instead we propose possible magnetic configurations with the Fe magnetic moments in (ab)-plane or along c-axis. The superstructure is destroyed above Ts ~ 500 K by a first-order-like transition., Comment: 5 pages, 5 figures, 3 tables, Submitted to Phys Rev B, no change in manuscript. Fixed references to be automatically recognized by arxive system

Published
2011
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4. Evidence for strong effect of quenched correlated disorder on phase separation and magnetism in (La_{1-y}Pr_{y})_{0.7}Ca_{0.3}MnO_3

Author

Pomjakushin, V. Yu., Sheptyakov, D. V., Pomjakushina, E. V., Conder, K., and Balagurov, A. M.

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

High resolution neutron diffraction shows that the mesoscopic separation into ferromagnetic (FM) and antiferromagnetic (AFM) phases and the FM transition temperature T_C in the perovskite manganite (La_{1-y}Pr_{y})_{0.7}Ca_{0.3}MnO_3 strongly depend on the quenched correlated disorder. The different disorder strengths are achieved by different procedures of the sample synthesis and quantitatively characterized by the micro-strain-type diffraction peak broadening. The system shifts to predominantly one phase state with smaller T_C as the correlated disorder strength is decreased supporting the viewpoint that the origin of phase separation in the indicated manganite system is the correlated quenched disorder. The ground state of an ultimately chemically homogeneous sample is FM-like containing about 20% of the AFM minority phase. This FM-like state can be readily transformed to the AFM-like one having <20% of FM-phase by the decreasing of the effective charge carrier bandwidth via oxygen isotope substitution., Comment: 6 pages

Published
2009
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5. Intermediate-valence behavior of the transition-metal oxide CaCu$_3$Ru$_4$O$_{12}$

Author

Krimmel, A., Günther, A., Kraetschmer, W., Dekinger, H., Büttgen, N., Eyert, V., Loidl, A., Sheptyakov, D. V., Scheidt, E. -W., and Scherer, W.

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

The transition--metal oxide CaCu$_3$Ru$_4$O$_{12}$ with perovskite--type structure shows characteristic properties of an intermediate--valence system. The temperature--dependent susceptibility exhibits a broad maximum around $150 - 160$ K. At this temperature, neutron powder diffraction reveals a small but significant volume change whereby the crystal structure is preserved. Moreover, the temperature--dependent resistivity changes its slope. NMR Knight shift measurements of Ru reveal a cross--over from high temperature paramagnetic behavior of localized moments to itinerant band states at low temperatures. Additional density--functional theory calculations can relate the structural anomaly with the $d$--electron number. The different experimental and calculational methods result in a mutually consistent description of CaCu$_3$Ru$_4$O$_{12}$ as an intermediate--valent system in the classical sense of having low--energy charge fluctuations., Comment: 4 pages, 3 figures

Published
2009
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6. Structural properties of Pb3Mn7O15 determined from high-resolution synchrotron powder diffraction

Author

Rasch, J. C. E., Sheptyakov, D. V., Schefer, J., Keller, L., Böhm, M., Gozzo, F., Volkov, N. V., Sablina, K. A., Petrakovskii, G. A., Grimmer, H., Conder, K., and Löffler, J. F.

Subjects
Condensed Matter - Materials Science
Abstract

We report on the crystallographic structure of the layered compound Pb3Mn7O15. Previous analysis based on laboratory X-ray data at room temperature gave contradictory results in terms of the description of the unit cell. Motivated by recent magnetic bulk measurements of this system, we re-investigated the chemical structure with high-resolution synchrotron powder diffraction at temperatures between 15 K and 295 K. Our results show that the crystal structure of stoichiometric Pb3Mn7O15 has a pronounced 2-dimensional character and can be described in the orthorhombic space group Pnma., Comment: 6 pages, 4 figures, 2 tables

Published
2008
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7. Crystal and magnetic structures of the spin-trimer compounds Ca3 Cu3xNix (PO4)4 (x=0,1,2)

Author

Pomjakushin, V. Yu., Furrer, A., Sheptyakov, D. V., Pomjakushina, E. V., and Conder, K.

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

Crystal and magnetic structures of a series of novel quantum spin trimer system Ca3Cu3xNix(PO4)4 (x=0,1,2) were studied by neutron powder diffraction at the temperatures 1.5-290 K. The composition with one Ni per trimer (x=1) has a monoclinic structure (space group P 21 /a, no. 14) with the unit cell parameters a = 17.71 A, b = 4.89 A, c = 8.85 A and = 123.84 deg at T=290 K. The (x=2) composition crystallizes in the C 2/c space group (no. 15) with the doubled unit cell along c-axis. Each trimer is formed by two crystallographic positions: one in the middle and the second one at the ends of the trimer. We have found that the middle position is occupied by the Cu2+, whereas the end positions are equally populated with the Cu2+ and Ni2+ for (x=1) while in the (x=2) the trimers were found to be of only one type Ni-Cu-Ni. Below TN = 20 K the (x=2) compound shows an antiferromagnetic ordering with propagation vector star {[1/2,1/2, 0], [-1/2,1/2, 0]} The magnetic structure is very well described with the irreducible representation tau22 using both arms of the star {k} with the magnetic moments 1.89(1) muB and 0.62(2) muB for Ni2+ and Cu2+ ions, respectively. We note that our powder diffraction data cannot be fitted by a model containing only one arm of the propagation vector star. The Cu/Ni-spins form both parallel and antiparallel configurations in the different trimers, implying substantial effect of the inter-trimer interaction on the overall magnetic structure., Comment: 14 pages (double spacing), 4 tables, 9 figures, submitted to Phys. Rev. B

Published
2007
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8. Effect of oxygen isotope substitution and crystal micro-structure on magnetic ordering and phase separation in {$\rm (La_{1-y}Pr_{y})_{0.7}Ca_{0.3}MnO_3$}

Author

Pomjakushin, V. Yu., Sheptyakov, D. V., Conder, K., Pomjakushina, E. V., and Balagurov, A. M.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

The crystal and magnetic structures of the specified CMR manganite system have been studied as a function of $y=(0.2-1)$ across the metal-insulator (MI) transition, and of the oxygen mass ($^{16}$O, $^{18}$O). We quantitatively show how the polaronic narrowing of the carrier bandwidth and the crystal lattice micro-strains control the volume fractions of the mesoscopic ferro- and antiferromagnetic clusters. A well-defined dip in the transition temperatures and the suppression of all the types of long range ordering seen near the MI-transition at $y\simeq0.9$ indicate a key role of the quenched disorder for the formation of the long-scale phase separated state., Comment: 21 pages (REVTeX preprint), 1 Table, 13 Figures, accepted in PRB

Published
2007
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21. Very large magnetoresistance and spin state transition in Ba-doped cobaltites.

Author

Troyanchuk, I. O., Bushinsky, M. V., Nikitin, A. V., Lobanovsky, L. S., Balagurov, A. M., Sikolenko, V., Efimov, V., and Sheptyakov, D. V.

Subjects
MAGNETIC properties of transition metal compounds, COBALT compounds, MAGNETORESISTANCE, ROTATIONAL motion, SEMICONDUCTOR doping, BARIUM
Abstract

Structural, magnetization, and magnetotransport measurements have been performed for anion deficient La0.5Ba0.5Co1-xFexO3-δ (x≤0.4) and La1-yBayCoO3-δ (0.5≤y≤0.6) perovskites. It has been found that the iron doped compositions with x≤0.23 are predominantly ferromagnetic. The Curie point and magnetization are slightly larger in insulating phase (x = 0.1) than in metallic one (x = 0.05). Magnetoresistance ratio rises with lowering temperature and increasing iron content reaching three orders of magnitude in predominantly antiferromagnetic state (x≥0.25). The rise of the barium content in La1-yBayCoO3-δ series above y = 0.5 leads to stabilization of antiferromagnetic phase and strong enhancement of the magnetoresistance. Antiferromagnetic ordering is accompanied by increase in resistivity. The lack of the low field intergrain magnetoresistance is in agreement with a weak spin polarization of the charge carriers. Magnetoresistance is associated with antiferromagnet-ferromagnet (from mixed high/low into intermediate spin state) transition induced by magnetic field. It is suggested that ferromagnetism is originated from superexchange interaction via oxygen. [ABSTRACT FROM AUTHOR]

Published
2013
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23. {110}-Layered B-cation ordering in the anion-deficient perovskite Pb2.4Ba2.6Fe2Sc2TiO13with the crystallographic shear structure

Author

Tyablikov, O. A., primary, Batuk, D., additional, Tsirlin, A. A., additional, Batuk, M., additional, Verchenko, V. Yu., additional, Filimonov, D. S., additional, Pokholok, K. V., additional, Sheptyakov, D. V., additional, Rozova, M. G., additional, Hadermann, J., additional, Antipov, E. V., additional, and Abakumov, A. M., additional

Published
2015
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24. Intermediate-valence behavior of the transition-metal oxide CaCu$_3$Ru$_4$O$_{12}$

Author

Krimmel, Alexander, Günther, Armin, Kraetschmer, W., Dekinger, H., Büttgen, Norbert, Eyert, Volker, Loidl, Alois, Sheptyakov, D. V., Scheidt, Ernst-Wilhelm, and Scherer, Wolfgang

Subjects
Condensed Matter - Strongly Correlated Electrons, Condensed Matter - Materials Science, Strongly Correlated Electrons (cond-mat.str-el), Materials Science (cond-mat.mtrl-sci), FOS: Physical sciences, Condensed Matter::Strongly Correlated Electrons
Abstract

The transition--metal oxide CaCu$_3$Ru$_4$O$_{12}$ with perovskite--type structure shows characteristic properties of an intermediate--valence system. The temperature--dependent susceptibility exhibits a broad maximum around $150 - 160$ K. At this temperature, neutron powder diffraction reveals a small but significant volume change whereby the crystal structure is preserved. Moreover, the temperature--dependent resistivity changes its slope. NMR Knight shift measurements of Ru reveal a cross--over from high temperature paramagnetic behavior of localized moments to itinerant band states at low temperatures. Additional density--functional theory calculations can relate the structural anomaly with the $d$--electron number. The different experimental and calculational methods result in a mutually consistent description of CaCu$_3$Ru$_4$O$_{12}$ as an intermediate--valent system in the classical sense of having low--energy charge fluctuations., Comment: 4 pages, 3 figures

Published
2009
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27. Atomic and magnetic structures, disorder effects, and unconventional superexchange interactions in A(2)MnGaO(5+delta) (A = Sr, Ca) oxides of layered brownmillerite-type structure

Author

Pomjakushin, V Y, Balagurov, A M, Elzhov, T V, Sheptyakov, D V, Khomskii, D I, Yushankhai, V Y, Abakumov, A M, Rozova, M G, Antipov, E V, Lobanov, M V, Billinge, S J L, and Surfaces and Thin Films

Subjects
Condensed Matter::Materials Science, CRYSTAL, MANGANESE OXIDE, MAGNETORESISTANCE, Condensed Matter::Strongly Correlated Electrons, MANGANITES
Abstract

Crystal and magnetic structures of complex manganese oxides Sr2GaMnO5+delta (deltasimilar or equal to0.01,0.52) and Ca2GaMnO5+delta (deltasimilar or equal to0.05) were studied by neutron powder diffraction (ND) and muSR technique in the temperature range 2-300 K. The crystal structures contain single MnO2 layers separated by three nonmagnetic cation-oxygen layers. The principal difference between the deltasimilar or equal to0 and deltasimilar or equal to0.5 compounds is the Mn valence: Mn3+ or Mn4+, and the structure of the (GaO1+delta) buffer layer, which is formed by tetrahedra or partially filled octahedra, respectively. The magnetic moments of the manganese ions are coupled antiferromagnetically in the MnO2 plane, but antiferromagnetically (G type) or ferromagnetically (C type) between the planes for the reduced and oxidized compositions, respectively. The transition from the G- to C-type magnetic structure by oxygen doping is explained by strong diagonal 180degrees superexchange antiferromagnetic interaction between Mn4+-ions in the adjacent layers through additional oxygen atoms in the GaO buffer layer. The magnetic moments in Sr-based samples are appreciably reduced in comparison with the spin-only values of the corresponding Mn ion. By using complementary information on local magnetic field distribution from muSR we show that the reduced magnetic moments seen by ND are caused by the presence of locally flipped Mn spins and a short-ranged (40 Angstrom) antiferromagnetic phase. The magnetic disorder can be caused by the disorder observed in the oxygen positions of the GaO1+delta layer, because the coupling between the MnO2 layers is mediated by the geometry of the superexchange path through these oxygen atoms.

Published
2002

29. Structural and Magnetic Phase Transitions in the AnBnO3n–2 Anion-Deficient Perovskites Pb2Ba2BiFe5O13 and Pb1.5Ba2.5Bi2Fe6O16

Author

Abakumov, A. M., primary, Batuk, M., additional, Tsirlin, A. A., additional, Tyablikov, O. A., additional, Sheptyakov, D. V., additional, Filimonov, D. S., additional, Pokholok, K. V., additional, Zhidal, V. S., additional, Rozova, M. G., additional, Antipov, E. V., additional, Hadermann, J., additional, and Van Tendeloo, G., additional

Published
2013
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40. {110}-Layered B-cation ordering in the anion-deficient perovskite Pb2.4Ba2.6Fe2Sc2TiO13 with the crystallographic shear structure.

Author

Tyablikov, O. A., Batuk, D., Tsirlin, A. A., Batuk, M., Verchenko, V. Yu., Filimonov, D. S., Pokholok, K. V., Sheptyakov, D. V., Rozova, M. G., Hadermann, J., Antipov, E. V., and Abakumov, A. M.

Subjects
PEROVSKITE crystallography, CATIONS, LEAD compounds synthesis, CRYSTAL structure, MAGNETIC susceptibility
Abstract

A novel anion-deficient perovskite-based compound, Pb2.4Ba2.6Fe2Sc2TiO13, was synthesized via the citrate-based route. This compound is an n = 5 member of the AnBnO3n−2 homologous series with unit-cell parameters related to the perovskite subcell ap≈ 4.0 Å as ap√2 ×ap× 5ap√2. The crystal structure of Pb2.4Ba2.6Fe2Sc2TiO13 consists of quasi-2D perovskite blocks with a thickness of three octahedral layers separated by the 1/2[110](1̅01)p crystallographic shear (CS) planes, which are parallel to the {110} plane of the perovskite subcell. The CS planes transform the corner-sharing octahedra into chains of edge-sharing distorted tetragonal pyramids. Using a combination of neutron powder diffraction, 57Fe Mössbauer spectroscopy and atomic resolution electron energy-loss spectroscopy we demonstrate that the B-cations in Pb2.4Ba2.6Fe2Sc2TiO13 are ordered along the {110} perovskite layers with Fe3+ in distorted tetragonal pyramids along the CS planes, Ti4+ preferentially in the central octahedra of the perovskite blocks and Sc3+ in the outer octahedra of the perovskite blocks. Magnetic susceptibility and Mössbauer spectroscopy indicate a broadened magnetic transition around TN∼ 45 K and the onset of local magnetic fields at low temperatures. The magnetic order is probably reminiscent of that in other AnBnO3n−2 homologues, where G-type AFM order within the perovskite blocks has been observed. [ABSTRACT FROM AUTHOR]

Published
2015
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42. Magnetic structure ofNdMnO3consistently doped withSrandRu

Author

Balagurov, A. M., primary, Bushmeleva, S. N., additional, Pomjakushin, V. Yu., additional, Sheptyakov, D. V., additional, Amelichev, V. A., additional, Gorbenko, O. Yu., additional, Kaul, A. R., additional, Gan’shina, E. A., additional, and Perkins, N. B., additional

Published
2004
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44. Atomic and magnetic structures, disorder effects, and unconventional superexchange interactions inA2MnGaO5+δ(A=Sr,Ca)oxides of layered brownmillerite-type structure

Author

Pomjakushin, V. Yu., primary, Balagurov, A. M., additional, Elzhov, T. V., additional, Sheptyakov, D. V., additional, Fischer, P., additional, Khomskii, D. I., additional, Yushankhai, V. Yu., additional, Abakumov, A. M., additional, Rozova, M. G., additional, Antipov, E. V., additional, Lobanov, M. V., additional, and Billinge, S. J. L., additional

Published
2002
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