Correlating on-the-fly electrical and optical skyrmion readout
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Magnetic skyrmions, topologically stabilized spin textures, are promising candidates for future memory devices and non-conventional computing applications due to their enhanced stability, nonlinear interactions, and low-power manipulation capabilities. Despite their significant potential, the reliable electrical readout of individual skyrmions remains a fundamental challenge. While magnetic tunnel junctions and anomalous Hall effect (AHE)-based techniques have demonstrated skyrmion detection capabilities, they currently fail to reliably detect single, moving skyrmions, as required for applications. Our approach leverages thermally activated skyrmions, where a low constant drive current simultaneously generates both skyrmion motion and the Hall voltage necessary for detection. We demonstrate the reliability of this method through real-time correlations between measured Hall voltage signals and direct Kerr microscopy imaging. Two consecutive Hall crosses allow for determining the skyrmion velocity, in accordance with Kerr microscopy videos. We present an analytical formula for the skyrmion AHE readout signal, demonstrating scalability from micrometer- to nanometer-sized skyrmions. These advances establish a robust platform for skyrmion-based sensors, counters, and unconventional computing systems that depend on precise individual skyrmion control and detection.
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Applied physics letters, 127, 22, American Inst. of Physics, Melville, NY, 2025, https://doi.org/10.1063/5.0297949