Frequency fluctuations of ferromagnetic resonances at milliKelvin
temperatures
- URL: http://arxiv.org/abs/2107.06531v1
- Date: Wed, 14 Jul 2021 08:00:37 GMT
- Title: Frequency fluctuations of ferromagnetic resonances at milliKelvin
temperatures
- Authors: Tim Wolz, Luke McLellan, Alexander Stehli, Andre Schneider, Jan David
Brehm, Hannes Rotzinger, Alexey V. Ustinov, Martin Weides
- Abstract summary: Noise is detrimental to device performance, especially for quantum coherent circuits.
Recent efforts have demonstrated routes to utilizing magnon systems for quantum technologies, which are based on single magnons to superconducting qubits.
Researching the temporal behavior can help to identify the underlying noise sources.
- Score: 50.591267188664666
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: Unwanted fluctuations over time, in short, noise, are detrimental to device
performance, especially for quantum coherent circuits. Recent efforts have
demonstrated routes to utilizing magnon systems for quantum technologies, which
are based on interfacing single magnons to superconducting qubits. However, the
coupling of several components often introduces additional noise to the system,
degrading its coherence. Researching the temporal behavior can help to identify
the underlying noise sources, which is a vital step in increasing coherence
times and the hybrid device performance. Yet, the frequency noise of the
ferromagnetic resonance (FMR) has so far been unexplored. Here, we investigate
such FMR frequency fluctuations of a YIG sphere down to mK-temperatures, and
find them independent of temperature and drive power. This suggests that the
measured frequency noise in YIG is dominated by so far undetermined noise
sources, which properties are not consistent with the conventional model of
two-level systems, despite their effect on the sample linewidth. Moreover, the
functional form of the FMR frequency noise power spectral density (PSD) cannot
be described by a simple power law. By employing time-series analysis, we find
a closed function for the PSD that fits our observations. Our results underline
the necessity of coherence improvements to magnon systems for useful
applications in quantum magnonics.
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