Open Access Te Herenga Waka-Victoria University of Wellington
Browse
DOCUMENT
Pot_Trodahl_APL23.pdf (1.39 MB)
DOCUMENT
Pot_Trodahl_APL23_Supp.pdf (1.48 MB)
1/0
2 files

A nonvolatile memory element for integration with superconducting electronics

journal contribution
posted on 2024-03-27, 02:07 authored by C Pot, William Holmes-HewettWilliam Holmes-Hewett, EM Anton, JD Miller, Benjamin RuckBenjamin Ruck, Harry TrodahlHarry Trodahl
We demonstrate a nonvolatile cryogenic magnetic memory element needed to support emerging superconducting- and quantum-computing technologies. The central element is a switchable tri-layer thin film magnetic dot comprising two semiconducting ferromagnetic GdxSm1−xN layers separated by an exchange-blocking Al layer. The materials are explored for their tunable magnetic responses, the potential to engineer compensating magnetic moments in the anti-parallel tri-layers. The stability of the parallel and anti-parallel states and the reproducibility over repeated cycles are also demonstrated. We show that the tri-layer stacks can be formed into dots as small as 4 μm diameter, without affecting their magnetic behavior.

History

Preferred citation

Pot, C., Holmes-Hewett, W. F., Anton, E. M., Miller, J. D., Ruck, B. J. & Trodahl, H. J. (2023). A nonvolatile memory element for integration with superconducting electronics. Applied Physics Letters, 123(20), 202401-. https://doi.org/10.1063/5.0175432

Journal title

Applied Physics Letters

Volume

123

Issue

20

Publication date

2023-11-13

Pagination

202401

Publisher

AIP Publishing

Publication status

Published

Online publication date

2023-11-13

ISSN

0003-6951

eISSN

1077-3118

Language

en