Experimental detectability of spin current shot noise

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2023
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Zusammenfassung

A magnonic spin current crossing a ferromagnet-metal interface is accompanied by spin current shot noise arising from the discrete quanta of spin carried by magnons. In thin films, e.g., the spin of so-called squeezed magnons have been shown to deviate from the common value ℏ, with corresponding changes in the spin noise. In experiments, spin currents are typically converted to charge currents via the inverse spin Hall effect. We here analyze the magnitude of the spin current shot noise in the charge channel for a typical electrically detected spin pumping experiment, and find that the voltage noise originating from the spin current shot noise is much smaller than the inevitable Johnson-Nyquist noise. Furthermore, due to the local nature of the spin-charge conversion, the ratio between spin current shot noise and Johnson-Nyquist noise does not scale with sample geometry and sensitively depends on material-specific transport properties. Our analysis thus provides guidance for the experimental detection of squeezed magnons through spin pumping shot noise.

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530 Physik
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Mesoscale and Nanoscale Physics, magnons, spin currents
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ISO 690SIEGL, Luise, Michaela LAMMEL, Akashdeep KAMRA, Hans HUEBL, Wolfgang BELZIG, Sebastian T. B. GOENNENWEIN, 2023. Experimental detectability of spin current shot noise
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@unpublished{Siegl2023-07-12Exper-67391,
  year={2023},
  title={Experimental detectability of spin current shot noise},
  author={Siegl, Luise and Lammel, Michaela and Kamra, Akashdeep and Huebl, Hans and Belzig, Wolfgang and Goennenwein, Sebastian T. B.}
}
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