Electrical Detection and Nucleation of a Magnetic Skyrmion in a Magnetic Tunnel Junction Observed via Operando Magnetic Microscopy

Magnetic skyrmions are topological spin textures which are envisioned as nanometer scale information carriers in magnetic memory and logic devices. The recent demonstrations of room temperature skyrmions and their current induced manipulation in ultrathin films were first steps toward the realizatio...

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Bibliographic Details
Published in:Nano letters 2024-03, Vol.24 (12), p.3557-3565
Main Authors: Urrestarazu Larrañaga, Joseba, Sisodia, Naveen, Guedas, Rodrigo, Pham, Van Tuong, Di Manici, Ilaria, Masseboeuf, Aurélien, Garello, Kevin, Disdier, Florian, Fernandez, Bruno, Wintz, Sebastian, Weigand, Markus, Belmeguenai, Mohamed, Pizzini, Stefania, Sousa, Ricardo C., Buda-Prejbeanu, Liliana D., Gaudin, Gilles, Boulle, Olivier
Format: Article
Language:English
Subjects:
Condensed Matter
Engineering Sciences
Micro and nanotechnologies
Microelectronics
Other
Physics
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Summary:Magnetic skyrmions are topological spin textures which are envisioned as nanometer scale information carriers in magnetic memory and logic devices. The recent demonstrations of room temperature skyrmions and their current induced manipulation in ultrathin films were first steps toward the realization of such devices. However, important challenges remain regarding the electrical detection and the low-power nucleation of skyrmions, which are required for the read and write operations. Here, we demonstrate, using operando magnetic microscopy experiments, the electrical detection of a single magnetic skyrmion in a magnetic tunnel junction (MTJ) and its nucleation and annihilation by gate voltage via voltage control of magnetic anisotropy. The nucleated skyrmion can be manipulated by both gate voltages and external magnetic fields, leading to tunable intermediate resistance states. Our results unambiguously demonstrate the readout and voltage controlled write operations in a single MTJ device, which is a major milestone for low power skyrmion based technologies.
ISSN:1530-6984
1530-6992
DOI:10.1021/acs.nanolett.4c00316