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Paper detail

Nonlinear magnon control of atomic spin defects in scalable quantum devices

Ongoing efforts in quantum engineering have recently focused on integrating magnonics into hybrid quantum architectures for novel functionalities. While hybrid magnon-quantum spin systems have been demonstrated with nitrogen-vacancy (NV) centers in diamond, they have remained elusive on the technologically promising silicon carbide (SiC) platform mainly due to difficulties in finding a resonance overlap between the magnonic system and the spin centers. Here we circumvent this challenge by harnessing nonlinear magnon scattering processes in a magnetic vortex to access magnon modes that overlap in frequency with silicon-vacancy ($\textrm{V}_{\mathrm{Si}}$) spin transitions in SiC. Our results offer a route to develop hybrid systems that benefit from marrying the rich nonlinear dynamics of magnons with the advantageous properties of SiC for scalable quantum technologies.

preprint2022arXivOpen access
Mauricio BejaranoFrancisco J. T. GoncalvesToni HacheMichael HollenbachChristopher HeinsTobias HulaLukas KörberJakob HeinzeYonder BerencénManfred HelmJürgen FassbenderGeorgy V. AstakhovHelmut Schultheiss
cond-mat.mes-hallquant-ph
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Mauricio BejaranoFrancisco J. T. GoncalvesToni HacheMichael HollenbachChristopher HeinsTobias HulaLukas KörberJakob HeinzeYonder BerencénManfred HelmJürgen FassbenderGeorgy V. AstakhovHelmut Schultheiss

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