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Intra-wire coupling in segmented Ni/Cu nanowires deposited by electrodeposition

Sergelius, Philip ; Lee, Ji Hyun ; Fruchart, Olivier ; Salem, Mohamed Shaker ; Allende, Sebastian ; Escobar, Roberto Alejandro ; Gooth, Johannes ; Zierold, Robert ; Toussaint, Jean-Christophe ; Schneider, Sebastian ; Pohl, Darius ; Rellinghaus, Bernd ; Martin, Sylvain ; Garcia, Javier ; Reith, Heiko ; Spende, Anne ; Toimil-Molares, Maria-Eugenia ; Altbir, Dora ; Cowburn, Russel ; Görlitz, Detlef ; Nielsch, Kornelius (2017)
Intra-wire coupling in segmented Ni/Cu nanowires deposited by electrodeposition.
In: Nanotechnology, 28 (6)
doi: 10.1088/1361-6528/aa5118
Article, Bibliographie

Abstract

Segmented magnetic nanowires are a promising route for the development of three dimensional data storage techniques. Such devices require a control of the coercive field and the coupling mechanisms between individual magnetic elements. In our study, we investigate electrodeposited nanomagnets within host templates using vibrating sample magnetometry and observe a strong dependence between nanowire length and coercive field (25 nm–5 μm) and diameter (25–45 nm). A transition from a magnetization reversal through coherent rotation to domain wall propagation is observed at an aspect ratio of approximately 2. Our results are further reinforced via micromagnetic simulations and angle dependent hysteresis loops. The found behavior is exploited to create nanowires consisting of a fixed and a free segment in a spin-valve like structure. The wires are released from the membrane and electrically contacted, displaying a giant magnetoresistance effect that is attributed to individual switching of the coupled nanomagnets. We develop a simple analytical model to describe the observed switching phenomena and to predict stable and unstable regimes in coupled nanomagnets of certain geometries.

Item Type: Article
Erschienen: 2017
Creators: Sergelius, Philip ; Lee, Ji Hyun ; Fruchart, Olivier ; Salem, Mohamed Shaker ; Allende, Sebastian ; Escobar, Roberto Alejandro ; Gooth, Johannes ; Zierold, Robert ; Toussaint, Jean-Christophe ; Schneider, Sebastian ; Pohl, Darius ; Rellinghaus, Bernd ; Martin, Sylvain ; Garcia, Javier ; Reith, Heiko ; Spende, Anne ; Toimil-Molares, Maria-Eugenia ; Altbir, Dora ; Cowburn, Russel ; Görlitz, Detlef ; Nielsch, Kornelius
Type of entry: Bibliographie
Title: Intra-wire coupling in segmented Ni/Cu nanowires deposited by electrodeposition
Language: English
Date: 9 January 2017
Publisher: IOP Publishing
Journal or Publication Title: Nanotechnology
Volume of the journal: 28
Issue Number: 6
DOI: 10.1088/1361-6528/aa5118
Abstract:

Segmented magnetic nanowires are a promising route for the development of three dimensional data storage techniques. Such devices require a control of the coercive field and the coupling mechanisms between individual magnetic elements. In our study, we investigate electrodeposited nanomagnets within host templates using vibrating sample magnetometry and observe a strong dependence between nanowire length and coercive field (25 nm–5 μm) and diameter (25–45 nm). A transition from a magnetization reversal through coherent rotation to domain wall propagation is observed at an aspect ratio of approximately 2. Our results are further reinforced via micromagnetic simulations and angle dependent hysteresis loops. The found behavior is exploited to create nanowires consisting of a fixed and a free segment in a spin-valve like structure. The wires are released from the membrane and electrically contacted, displaying a giant magnetoresistance effect that is attributed to individual switching of the coupled nanomagnets. We develop a simple analytical model to describe the observed switching phenomena and to predict stable and unstable regimes in coupled nanomagnets of certain geometries.

Additional Information:

Artikel-ID: 065709

Divisions: 11 Department of Materials and Earth Sciences
11 Department of Materials and Earth Sciences > Material Science
11 Department of Materials and Earth Sciences > Material Science > Ion-Beam-Modified Materials
Date Deposited: 07 Mar 2024 07:49
Last Modified: 07 Mar 2024 07:49
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