Amalio Fernandez-Pacheco
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Explore the profile of Amalio Fernandez-Pacheco including associated specialties, affiliations and a list of published articles.
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23
Citations
292
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Recent Articles
1.
Gubbiotti G, Barman A, Ladak S, Bran C, Grundler D, Huth M, et al.
J Phys Condens Matter
. 2024 Nov;
37(14).
PMID: 39577093
The transition from planar to three-dimensional (3D) magnetic nanostructures represents a significant advancement in both fundamental research and practical applications, offering vast potential for next-generation technologies like ultrahigh-density storage, memory,...
2.
Fernandez-Pacheco A, Donnelly C
Nat Nanotechnol
. 2022 Sep;
17(10):1038-1039.
PMID: 36138202
No abstract available.
3.
Skoric L, Donnelly C, Hierro-Rodriguez A, Cascales Sandoval M, Ruiz-Gomez S, Foerster M, et al.
ACS Nano
. 2022 May;
16(6):8860-8868.
PMID: 35580039
The fundamental limits currently faced by traditional computing devices necessitate the exploration of ways to store, compute, and transmit information going beyond the current CMOS-based technologies. Here, we propose a...
4.
Donnelly C, Hierro-Rodriguez A, Abert C, Witte K, Skoric L, Sanz-Hernandez D, et al.
Nat Nanotechnol
. 2021 Dec;
17(2):136-142.
PMID: 34931031
The design of complex, competing effects in magnetic systems-be it via the introduction of nonlinear interactions, or the patterning of three-dimensional geometries-is an emerging route to achieve new functionalities. In...
5.
Meng F, Donnelly C, Skoric L, Hierro-Rodriguez A, Liao J, Fernandez-Pacheco A
Micromachines (Basel)
. 2021 Aug;
12(8).
PMID: 34442480
Three-dimensional (3D) spintronic devices are attracting significant research interest due to their potential for both fundamental studies and computing applications. However, their implementations face great challenges regarding not only the...
6.
Meng F, Donnelly C, Abert C, Skoric L, Holmes S, Xiao Z, et al.
ACS Nano
. 2021 Apr;
15(4):6765-6773.
PMID: 33848131
Expanding nanomagnetism and spintronics into three dimensions (3D) offers great opportunities for both fundamental and technological studies. However, probing the influence of complex 3D geometries on magnetoelectrical phenomena poses important...
7.
Fernandez-Pacheco A, Skoric L, De Teresa J, Pablo-Navarro J, Huth M, Dobrovolskiy O
Materials (Basel)
. 2020 Aug;
13(17).
PMID: 32859076
Focused electron beam induced deposition (FEBID) is a direct-write nanofabrication technique able to pattern three-dimensional magnetic nanostructures at resolutions comparable to the characteristic magnetic length scales. FEBID is thus a...
8.
Sanz-Hernandez D, Hierro-Rodriguez A, Donnelly C, Pablo-Navarro J, Sorrentino A, Pereiro E, et al.
ACS Nano
. 2020 Jul;
14(7):8084-8092.
PMID: 32633492
Chirality plays a major role in nature, from particle physics to DNA, and its control is much sought-after due to the scientific and technological opportunities it unlocks. For magnetic materials,...
9.
Layer-by-Layer Growth of Complex-Shaped Three-Dimensional Nanostructures with Focused Electron Beams
Skoric L, Sanz-Hernandez D, Meng F, Donnelly C, Merino-Aceituno S, Fernandez-Pacheco A
Nano Lett
. 2019 Dec;
20(1):184-191.
PMID: 31869235
The fabrication of three-dimensional (3D) nanostructures is of great interest to many areas of nanotechnology currently challenged by fundamental limitations of conventional lithography. One of the most promising direct-write methods...
10.
Fernandez-Pacheco A, Vedmedenko E, Ummelen F, Mansell R, Petit D, Cowburn R
Nat Mater
. 2019 Jun;
18(7):679-684.
PMID: 31160802
The magnetic interfacial Dzyaloshinskii-Moriya interaction (DMI) in multilayered thin films can lead to chiral spin states, which are of paramount importance for future spintronic technologies. Interfacial DMI typically manifests as...