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Beilstein J. Nanotechnol. 2023, 14, 23–33, doi:10.3762/bjnano.14.3
Figure 1: Problem statement for the complex study of cobalt and niobium heterostructures. The sketch of the N...
Figure 2: Variation of the average value of the crystal lattice ideality parameter in horizontal layers of a ...
Figure 3: Multilayer nanocomposite of niobium and cobalt (a) formed in a numerical experiment during depositi...
Figure 4: Spatial distribution of cobalt atom spins for ideal crystal hexagonal close-packed lattice (a), (b)...
Figure 5: Changes in spin temperature under a constant external magnetic field of 1.0 T for ideal hexagonally...
Figure 6: Changes in the magnetization vector modulus under a constant external magnetic field with an induct...
Beilstein J. Nanotechnol. 2020, 11, 1776–1788, doi:10.3762/bjnano.11.160
Figure 1: Transmission electron microscopy (TEM) image of a layered nanostructure consisting of Nb, CuNi, CoOx...
Figure 2: High-resolution transmission electron microscopy (HR-TEM) image of a layered Co, CoOx and CuNi nano...
Figure 3: Sketch of a Nb/Co spin-valve nanosystem. The numbers next to the elements in the layers represent t...
Figure 4: Scheme of the multilayer nanosystem formation modeling processes. The nanosystem contains a materia...
Figure 5: Multilayer nanosystem of niobium and cobalt. The contact points of the nanofilms are indicated by (...
Figure 6: Change in coordination (CN) number along the z-axis (shown in Figure 5) in Nb and Co layers of the nanostru...
Figure 7: Spatial distribution of the coordination number in the formed multilayer Nb–Co (a) system and in it...
Figure 8: The area of deposition flow (a) and the size of the simulation area (b). The deposition flow area i...
Figure 9: Relative layer-by-layer composition of the Nb–Co nanosystem when the deposition flux is reduced by ...
Figure 10: The relative layered composition of the Nb–Co nanosystem for different deposition rates. The parame...
Figure 11: The percentage composition of the Nb–Co multilayer nanosystem formed at a substrate temperature of ...