D. Navas scite author profile

D. Navas

3Publications

0Citation Statements Received

88Citation Statements Given

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Instituto de Ciencia de Materiales de Madrid, University of Porto

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Spin-wave spectroscopy of individual ferromagnetic nanodisks

Dobrovolskiy

Bunyaev

Vovk

et al. 2020

Preprint

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The increasing demand for ultrahigh data storage densities requires development of 3D magnetic nanostructures. In this regard, focused electron beam induced deposition (FEBID) is a technique of choice for direct-writing of various complex nano-architectures. However, intrinsic properties of nanomagnets are often poorly known and can hardly be assessed by local optical probe techniques. Here, we demonstrate spatially resolved spin-wave spectroscopy of individual circular magnetic elements with radii down to 100 nm. The key component of the setup is a microwave antenna whose 2 × 4 µm 2 central part is placed over a movable substrate with well-separated CoFe-FEBID nanodisks. The circular symmetry of the disks gives rise to standing spin-wave resonances and allows for the deduction of the saturation magnetization and the exchange stiffness of the material using an analytical theory. The presented approach is especially valuable for the characterization of direct-write elements opening new horizons for 3D nanomagnetism and magnonics.

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Micromagnetic study of the vortex state in sub-micron iron discs

et al. 2020

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Magnetic nanostructures have been widely studied due to its poten¬tial applicability into several research fields such as data storage, sensing and biomedical applications. In this work, micromagnetic simulations (mumax3) of sub-micron iron discs are performed for different normalized inter-dot distance (distance/diameter), to better understand the magnetic behaviour of these nanos-tructures. Two sets of samples were studied: ideal circular discs and disc-shaped nanostructures (based on images of real samples). By analyzing the nucleation and annihilation fields and the magnetic susceptibility, it was found that the (ideal) discs could be considered as isolated for inter-dot distances greater than twice the raidus of the disc (2R). The difference in the shape of the disc-shaped nanostructures resulted in an in-plane anisotropy, noticeable on the hysteresis loops for different directions.

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Ultrafast Magnetisation Dynamics: Pump-Probe Spectroscopy in the Sub-10 FS Range

Schmool

Gonçalves

Vieira

et al. 2016

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D. Navas

Spin-wave spectroscopy of individual ferromagnetic nanodisks

Micromagnetic study of the vortex state in sub-micron iron discs

Ultrafast Magnetisation Dynamics: Pump-Probe Spectroscopy in the Sub-10 FS Range

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