Fabrication, detection and operation of a three-dimensional nanomagnetic conduit

D. Sanz-Hernández, R.F. Hamans, J.-W. Liao, A. Welbourne, R. Lavrijsen, A. Fernández-Pacheco

Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademic

67 Downloads (Pure)

Uittreksel

Three-dimensional (3D) nanomagnetic devices such as the vertical racetrack memory have attracted a huge interest due to their potential for memory and logic applications. However, their implementation has not been realised due to great challenges regarding fabrication and characterisation of 3D nanostructures. Here, we show a 3D nanomagnetic system created by 3D nano-printing and physical vapour deposition, which acts a conduit for domain walls. Domains formed at the substrate level are injected into a 3D nanowire, where they are controllably trapped using vectorial magnetic fields. A dark-field magneto-optical method for parallel, independent measurement of different regions in individual 3D nanostructures is also demonstrated. This work opens a new route for the advanced study and exploitation of 3D nanomagnetic systems.
Originele taal-2Engels
Artikelnummer1706.03710
Aantal pagina's25
TijdschriftarXiv
Nummer van het tijdschrift1706.03710
StatusGepubliceerd - 12 jun 2017

Citeer dit

Sanz-Hernández, D., Hamans, R. F., Liao, J-W., Welbourne, A., Lavrijsen, R., & Fernández-Pacheco, A. (2017). Fabrication, detection and operation of a three-dimensional nanomagnetic conduit. arXiv, (1706.03710), [1706.03710].
Sanz-Hernández, D. ; Hamans, R.F. ; Liao, J.-W. ; Welbourne, A. ; Lavrijsen, R. ; Fernández-Pacheco, A. / Fabrication, detection and operation of a three-dimensional nanomagnetic conduit. In: arXiv. 2017 ; Nr. 1706.03710.
@article{ca2dac1475df4c1e8d9251033f8b2e1b,
title = "Fabrication, detection and operation of a three-dimensional nanomagnetic conduit",
abstract = "Three-dimensional (3D) nanomagnetic devices such as the vertical racetrack memory have attracted a huge interest due to their potential for memory and logic applications. However, their implementation has not been realised due to great challenges regarding fabrication and characterisation of 3D nanostructures. Here, we show a 3D nanomagnetic system created by 3D nano-printing and physical vapour deposition, which acts a conduit for domain walls. Domains formed at the substrate level are injected into a 3D nanowire, where they are controllably trapped using vectorial magnetic fields. A dark-field magneto-optical method for parallel, independent measurement of different regions in individual 3D nanostructures is also demonstrated. This work opens a new route for the advanced study and exploitation of 3D nanomagnetic systems.",
author = "D. Sanz-Hern{\'a}ndez and R.F. Hamans and J.-W. Liao and A. Welbourne and R. Lavrijsen and A. Fern{\'a}ndez-Pacheco",
year = "2017",
month = "6",
day = "12",
language = "English",
journal = "arXiv",
publisher = "Cornell University Library",
number = "1706.03710",

}

Sanz-Hernández, D, Hamans, RF, Liao, J-W, Welbourne, A, Lavrijsen, R & Fernández-Pacheco, A 2017, 'Fabrication, detection and operation of a three-dimensional nanomagnetic conduit', arXiv, nr. 1706.03710, 1706.03710.

Fabrication, detection and operation of a three-dimensional nanomagnetic conduit. / Sanz-Hernández, D.; Hamans, R.F.; Liao, J.-W.; Welbourne, A.; Lavrijsen, R.; Fernández-Pacheco, A.

In: arXiv, Nr. 1706.03710, 1706.03710, 12.06.2017.

Onderzoeksoutput: Bijdrage aan tijdschriftTijdschriftartikelAcademic

TY - JOUR

T1 - Fabrication, detection and operation of a three-dimensional nanomagnetic conduit

AU - Sanz-Hernández, D.

AU - Hamans, R.F.

AU - Liao, J.-W.

AU - Welbourne, A.

AU - Lavrijsen, R.

AU - Fernández-Pacheco, A.

PY - 2017/6/12

Y1 - 2017/6/12

N2 - Three-dimensional (3D) nanomagnetic devices such as the vertical racetrack memory have attracted a huge interest due to their potential for memory and logic applications. However, their implementation has not been realised due to great challenges regarding fabrication and characterisation of 3D nanostructures. Here, we show a 3D nanomagnetic system created by 3D nano-printing and physical vapour deposition, which acts a conduit for domain walls. Domains formed at the substrate level are injected into a 3D nanowire, where they are controllably trapped using vectorial magnetic fields. A dark-field magneto-optical method for parallel, independent measurement of different regions in individual 3D nanostructures is also demonstrated. This work opens a new route for the advanced study and exploitation of 3D nanomagnetic systems.

AB - Three-dimensional (3D) nanomagnetic devices such as the vertical racetrack memory have attracted a huge interest due to their potential for memory and logic applications. However, their implementation has not been realised due to great challenges regarding fabrication and characterisation of 3D nanostructures. Here, we show a 3D nanomagnetic system created by 3D nano-printing and physical vapour deposition, which acts a conduit for domain walls. Domains formed at the substrate level are injected into a 3D nanowire, where they are controllably trapped using vectorial magnetic fields. A dark-field magneto-optical method for parallel, independent measurement of different regions in individual 3D nanostructures is also demonstrated. This work opens a new route for the advanced study and exploitation of 3D nanomagnetic systems.

M3 - Article

JO - arXiv

JF - arXiv

IS - 1706.03710

M1 - 1706.03710

ER -

Sanz-Hernández D, Hamans RF, Liao J-W, Welbourne A, Lavrijsen R, Fernández-Pacheco A. Fabrication, detection and operation of a three-dimensional nanomagnetic conduit. arXiv. 2017 jun 12;(1706.03710). 1706.03710.