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001-es BibID:	BIBFORM103238
035-os BibID:	(WOS)000570817200001 (Scopus)85091078768
Első szerző:	Makushko, P. V.
Cím:	Formation of ordered L10-FePt phase in FePt-Ag thin films / P. V. Makushko, M. N. Shamis, N. Y. Schmidt, I. E. Kotenko, S. Gulyas, G. L. Katona, T. I. Verbytska, D. L. Beke, M. Albrecht, Iu M. Makogon
Dátum:	2020
ISSN:	2190-5509 2190-5517
Megjegyzések:	In this work, the influence of an Ag layer, which is located at different positions of the layer stack (top, intermediate, bottom), on the structural and magnetic properties of orderedL1(0)phase in Fe(50)Pt(50)films was investigated. It was found that the position of an additional Ag layer affects the stress state of the as-deposited FePt films. Mechanical stress is induced during deposition and post-annealing process due to the difference in thermal expansion coefficients and lattice mismatch of FePt, Ag, and substrate. The initial stress state affects the ordering process during subsequent heat treatment. The higher level of initial compressive stress (- 7.8 GPa) in FePt/Ag/FePt films results inL1(0)phase formation at a temperature of 700 degrees C which is about 100 degrees C lower than in films with Ag bottom (- 3.6 GPa) and top (+ 0.86 GPa) layers. A more pronounced (001) oriented growth of theL1(0)phase was observed in stacks with Ag top layer as compared to Ag bottom and intermediate layers. The highest values of coercivity were obtained for films with Ag intermediate and bottom layers, which is due to the distribution of Ag along FePt grain boundaries that result in strong exchange decoupling of FePt grains. Furthermore, the formation of the orderedL1(0)phase at comparatively low temperatures of about 370 degrees C was observed in a free-standing FePt/Ag (30 nm)/FePt film.
Tárgyszavak:	Természettudományok Fizikai tudományok konferenciacikk folyóiratcikk Stress state Annealing Ordering L1(0)-FePt phase Coercivity
Megjelenés:	Applied Nanoscience. - 10 : 12 (2020), p. 4809-4816. -
További szerzők:	Shamis, M. N. Schmidt, N. Y. Kotenko, I. E. Gulyás Szilvia (1993-) (fizikus) Katona Gábor (1977-) (fizikus) Verbytska, T. I. Beke Dezső László (1945-) (fizikus) Albrecht, Manfred Makogon, I. M.
Pályázati támogatás:	V4EaP Scholar-ship 51300654 Egyéb GINOP-2.3.2-15-2016-00041 GINOP
Internet cím:	Szerző által megadott URL DOI Intézményi repozitóriumban (DEA) tárolt változat
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001-es BibID:	BIBFORM079100
Első szerző:	Shamis, O. V. (fizikus)
Cím:	Phase transformations in Pt/Fe bilayers during post annealing probed by resistometry / O. V. Shamis, N. Y. Safonova, M. M. Voron, A. P. Burmak, S. I. Sidorenko, G. L. Katona, S. Gulyas, D. L. Beke, M. Albrecht, I. A. Vladymyrskyi
Dátum:	2019
ISSN:	0953-8984 1361-648X
Megjegyzések:	X-ray diffraction (XRD), secondary neutral mass spectrometry (SNMS) depth profiling, and electrical resistivity measurements were used to follow the phase transformations in Pt/Fe bi-layered thin films during annealing. Initially, the electrical resistivity increases linearly with temperature up to 150 °C due to the contribution of phonon scattering of the metallic Pt and Fe bilayer. Further increase of the annealing temperature leads to a steeper linear increase, which is associated with the initial formation of the chemically disordered A1-phase followed by the formation of the chemically ordered L10-FePt phase, as confirmed by XRD and SNMS studies. Finally, at about 620 °C the single L10-FePt phase has formed throughout the film. Moreover, the electrical resistivity contains also the magnetic contribution to the total resistivity. In this case, the loss in magnetic order is indicated by a change in temperature dependence of the resistivity at about 310 °C, representing the Curie temperature of the initially formed A1-FePt alloy, while the finally formed L10-FePt alloy reveals a higher magnetic transition temperature of about 410 °C. In this study, it has been demonstrated that resistometry in combination with structural and chemical analysis provides valuable information on diffusion processes, structural phase formations and its stability range, as well as on the magnetic transition temperature.
Tárgyszavak:	Természettudományok Fizikai tudományok idegen nyelvű folyóiratközlemény külföldi lapban electrical resistivity chemical ordering magnetic thin films FePt
Megjelenés:	Journal Of Physics-Condensed Matter. - 31 : 28 (2019), p. 285401-. -
További szerzők:	Safonova, N. Y. Voron, M. M. Burmak, A. P. Sidorenko, Sergey I. Katona Gábor (1977-) (fizikus) Gulyás Szilvia (1993-) (fizikus) Beke Dezső László (1945-) (fizikus) Albrecht, Manfred Vladymyrskyi, Igor A.
Pályázati támogatás:	GINOP-2.3.2-15-2016-00041 GINOP
Internet cím:	Szerző által megadott URL DOI Intézményi repozitóriumban (DEA) tárolt változat
Borító:
Saját polcon: