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73 results on '"Kąkol, Z."'

1. The impact of hydrostatic pressure, nonstoichiometry, and doping on trimeron lattice excitations in magnetite during axis switching

Author

Kołodziej, T., Piętosa, J., Puźniak, R., Wiśniewski, A., Król, G., Kąkol, Z., Biało, I., Tarnawski, Z., Ślęzak, M., Podgórska, K., Niewolski, J., Gala, M. A., Kozłowski, A., Honig, J. M., and Tabiś, W.

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

Trimeron lattice excitations in single crystalline magnetite, in the form of the $c$ axis switching (i.e. the reorganization of the lattice caused by external magnetic field) at temperatures below the Verwey temperature $T_V$ are observed by magnetization experiments. These excitations exhibit strong sensitivity to doping (with Zn, Al, and Ti), nonstoichiometry and hydrostatic pressure ($p < 1.2$ GPa). The considered indicators of the axis switching (AS) are: the switching field $B_{sw}$, the energy density needed to switch the axis $E_{sw}$ and the activation energy $U$. Our results show that hydrostatic pressure $p$ weakens the low$-T$ magnetite structure (decreases $T_V$) and has roughly similar effects on AS in Zn-doped Fe$_3$O$_4$ and, in much less extent, in stoichiometric magnetite. We have, however, found that while doping/nonstoichiometry also lowers $T_V$, making it more prone to temperature chaos, it drastically increases the switching field, activation and switching energies suggesting that the trimeron order, subject to change while AS occurs, is more robust. Consequently, we conclude that the manipulation of trimerons in the process of axis switching and the mechanisms leading to the Verwey transition are distinct phenomena., Comment: Manuscript contains Supplemental Material

Published
2023
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2. Trimeron-phonon coupling in magnetite

Author

Piekarz, P., Legut, D., Baldini, E., Belvin, C. A., Kołodziej, T., Tabiś, W., Kozłowski, A., Kąkol, Z., Tarnawski, Z., Lorenzana, J., Gedik, N., Oleś, A. M., Honig, J. M., and Parlinski, K.

Subjects
Condensed Matter - Strongly Correlated Electrons
Abstract

Using density functional theory, we study the lattice dynamical properties of magnetite (Fe$_3$O$_4$) in the high-temperature cubic and low-temperature monoclinic phases. The calculated phonon dispersion curves and phonon density of states are compared with the available experimental data obtained by inelastic neutron, inelastic x-ray, and nuclear inelastic scattering. We find a very good agreement between the theoretical and experimental results for the monoclinic $Cc$ structure revealing the strong coupling between charge-orbital (trimeron) order and specific phonon modes. For the cubic phase, clear discrepancies arise which, remarkably, can be understood assuming that the strong trimeron-phonon coupling can be extended above the Verwey transition, with lattice dynamics influenced by the short-range trimeron order instead of the average cubic structure. Our results establish the validity of trimerons (and trimeron-phonon coupling) in explaining the physics of magnetite much beyond their original formulation., Comment: 11 pages, 9 figures, 1 table

Published
2020
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3. Impact of hydrostatic pressure, nonstoichiometry, and doping on trimeron lattice excitations in magnetite during axis switching

Author

Kołodziej, T., primary, Piętosa, J., additional, Puźniak, R., additional, Wiśniewski, A., additional, Król, G., additional, Kąkol, Z., additional, Biało, I., additional, Tarnawski, Z., additional, Ślęzak, M., additional, Podgórska, K., additional, Niewolski, J., additional, Gala, M. A., additional, Kozłowski, A., additional, Honig, J. M., additional, and Tabiś, W., additional

Published
2023
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8. Magnetic field induced structural changes in magnetite observed by resonant x-ray diffraction and Mössbauer spectroscopy

Author

Kołodziej, T., primary, Biało, I., additional, Tabiś, W., additional, Zubko, M., additional, Żukrowski, J., additional, Łątka, K., additional, Lorenzo, J. E., additional, Mazzoli, C., additional, Kąkol, Z., additional, Kozłowski, A., additional, Tarnawski, Z., additional, Wilke, E., additional, Babik, P., additional, Chlan, V., additional, Řezníček, R., additional, Štěpánková, H., additional, Novák, P., additional, Joly, Y., additional, Niewolski, J., additional, and Honig, J. M., additional

Published
2020
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9. Fe dopants and surface adatoms versus nontrivial topology of single-crystalline Bi2Se3

Author

Chrobak, M, primary, Maćkosz, K, additional, Jurczyszyn, M, additional, Dobrzański, M, additional, Nowak, K, additional, Ślęzak, T, additional, Zając, M, additional, Sikora, M, additional, Rams, M, additional, Eelbo, T, additional, Stępień, J, additional, Waśniowska, M, additional, Mathon, O, additional, Yakhou-Harris, F, additional, Merkel, D G, additional, Miotkowski, I, additional, Kąkol, Z, additional, Kozłowski, A, additional, Przybylski, M, additional, and Tarnawski, Z, additional

Published
2020
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12. Fe dopants and surface adatoms versus nontrivial topology of single-crystalline Bi2Se3.

Author

Chrobak, M, Maćkosz, K, Jurczyszyn, M, Dobrzański, M, Nowak, K, Ślęzak, T, Zając, M, Sikora, M, Rams, M, Eelbo, T, Stępień, J, Waśniowska, M, Mathon, O, Yakhou-Harris, F, Merkel, D G, Miotkowski, I, Kąkol, Z, Kozłowski, A, Przybylski, M, and Tarnawski, Z

Subjects
ADATOMS, DIRAC function, SEMIMETALS, MAGNETIC impurities, VIBRATIONAL spectra, TOPOLOGICAL insulators, TIME reversal
Abstract

Both preserved gapless states and gapping of Dirac states due to broken time reversal symmetry in bismuth chalcogenide topological insulators with surface and bulk magnetic impurities have been observed and reported in the literature. In order to shed more light on the mechanism of such effects we have performed comprehensive element selective study of the impact of Fe impurity position in the Bi2Se3 lattice on its magnetism. The iron atoms were imbedded in the structure (volume dopants) or deposited on the surface (adatoms) and they revealed striking phenomena. Volume doping preserves non-trivial topology of Bi1.98Fe0.02Se3. Fe atoms not only substitute Bi, but also locate in van der Waals gap. The former are magnetically isotropic, while the latter reveal large magnetic moment (4.5 μB) with perpendicular anisotropy if located near the surface. Majority of Fe adatoms on the surface of Bi2Se3 exhibit weaker moment (3.5 μB) with in-plane anisotropy, as expected for non-interacting species. Negligible interaction between surface electronic states and magnetic adatoms is confirmed by identical vibration spectra of Fe deposited on TI surface of Bi2Se3 and non-TI surface of Bi2S3. The data gathered show how indispensable is the knowledge of the magnetic impurity distribution for applications of bismuth chalcogenide systems. [ABSTRACT FROM AUTHOR]

Published
2020
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17. Easy axis switching in magnetite

Author

Kąkol, Z, primary, Król, G, additional, Tabiś, W, additional, Kołodziej, T, additional, Wiśniewski, A, additional, Stepankova, H, additional, Chlan, V, additional, Kusz, J, additional, Tarnawski, Z, additional, Kozłowski, A, additional, and Honig, J M, additional

Published
2011
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29. Studies of the Verwey Transition in Magnetite

Author

Tarnawski, Z., primary, Wiecheć, A., additional, Madej, M., additional, Nowak, D., additional, Owoc, D., additional, Król, G., additional, Kąkol, Z., additional, Kolwicz-Chodak, L., additional, KozŁowski, A., additional, and Dawid, T., additional

Published
2004
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37. The effect of doping on global lattice properties of magnetite Fe3−x Me x O4 (Me=Zn, Ti and Al)

Author

Kąkol, Z., Owoc, D., Przewoźnik, J., Sikora, M., Kapusta, C., Zając, D., Kozłowski, A., Sabol, J.E., and Honig, J.M.

Subjects
*CRYSTAL lattices, *MAGNETITE, *METALLIC oxides, *X-ray diffraction, *SPINEL, *IRON compounds, *TRANSITION temperature
Abstract

Abstract: X-ray powder diffraction was measured in Fe3−x Me x O4 (Me=Zn, Ti, Al; x<0.065), in T range 70–300K to see the effect of different doping on global lattice properties. The experimental results have shown that some lattice properties (e.g., the cell volume) are dopand specific. This can be attributed to the difference in preferential sites occupation by dopants. As confirmed by EXAFS, Zn enters tetrahedral, while Ti octahedral lattice sites, differently affecting crucial octahedral iron positions in the spinel lattice. However, despite this fact, it was found that T dependence of both monoclinic angle and lattice parameters is universal for studied samples above and below the Verwey transition temperature T V . So, not the iron atoms in octahedral positions individually, but interactions between them are responsible for the Verwey transition character change with doping. [Copyright &y& Elsevier]

Published
2012
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44. Electrical transport and magnetization measurements of Fe3−zAlzO4, z< 0.06

Author

Kozłowski, A., Metcalf, P., Kąkol, Z., and Honig, J.M.

Abstract

Electrical resistivity and saturation magnetization measurements are reported for Al-doped magnetite single crystals at low doping levels. The dependence of the Verwey transition temperature on Al concentration was determined based on resistivity data. Results of the magnetic measurements are compared with reported cation distributions. The role of Fe2+cations at tetrahedral positions is discussed.

Published
1996
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45. Specific heat of low doped magnetite, Fe3−xTixO4and Fe3−yZnyO4

Author

Kozłowski, A., Kąkol, Z., Zalecki, R., and Honig, J.M.

Abstract

Systematic studies of specific heat and entropy of the Verwey transition in Fe3−xTixO4and Fe3−yZnyO4series are reported. The results of these investigations demonstrate that in Fe3−xTixO4and Fe3−yZnyO4systems exists only one, well defined phase transition. Both the entropy of the transition and transition temperature decrease with departure from Fe3O4composition.

Published
1995
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