Study of obliquely deposited 57Fe layer on organic semiconductor (Alq3); interface resolved magnetism under x-ray standing wave

Ultra-thin Fe film is deposited obliquely on the Tris(8-hydroxyquinolinato) aluminum (Alq 3 ) layer to study the interface magnetism and compared with the normally deposited film of the same thickness. The overall magnetic property of the film, as observed using magneto-optic Kerr effect measurement...

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Bibliographic Details
Published in:Hyperfine interactions 2021, Vol.242 (1), Article 24
Main Authors: Kaushik, Sonia, Khanderao, Avinash G., Jamal, Md. Shahid, Sergeev, Ilya, Wille, H. C., Reddy, V. Raghavendra, Kumar, Dileep
Format: Article
Language:English
Subjects:
5-10 September 2021
Aluminum
Angles (geometry)
Atomic
Bilayers
Brasov
Clusters
Condensed Matter Physics
Deposition
Ferromagnetism
Hadrons
Heavy Ions
Hyperfine structure
Interfaces
Iron
Iron 57
Kerr magnetooptical effect
Magnetic anisotropy
Magnetic properties
Magnetism
Molecular
Nuclear Physics
Optical and Plasma Physics
Penetration
Physics
Physics and Astronomy
Proceedings of the International Conference on Hyperfine Interactions (HYPERFINE 2021)
Resonance scattering
Romania
Silver
Standing waves
Surfaces and Interfaces
Thickness
Thin Films
Waveguides
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Summary:Ultra-thin Fe film is deposited obliquely on the Tris(8-hydroxyquinolinato) aluminum (Alq 3 ) layer to study the interface magnetism and compared with the normally deposited film of the same thickness. The overall magnetic property of the film, as observed using magneto-optic Kerr effect measurements, is understood precisely through interface resolved grazing incident nuclear resonance scattering (GINRS) measurements under x-ray standing wave (XSW) conditions. To excite XSW modes, the bilayer is deposited between high dense Ag and Pt layers to make a waveguide structure, where the position of the antinode is varied by changing incident angles. The Fe layer is enriched with 57 Fe isotope during deposition to make it active for GINRS measurements. Compared with obliquely deposited 57 Fe film, reduced hyperfine fields at the interface of normally deposited 57 Fe/Alq 3 film, providing evidence for the deep penetration of 57 Fe atoms into Alq 3 film. Due to the large shadowing effect at oblique angle deposition, Fe atoms try to organize into isolated superparamagnetic clusters to minimize their surface/interface energy. On the other hand, besides the relatively deep penetration in the normally deposited thin film, ferromagnetism is observed due to the connecting bigger 57 Fe clusters. Our results demonstrate that deposition geometry has a direct and crucial bearing on the interfacial microstructure, which can control diffusion at the Alq 3 interfaces and tune magnetic anisotropy in the ferromagnetic layer.
ISSN:0304-3843
1572-9540
DOI:10.1007/s10751-021-01756-0