Magnomechanics in suspended magnetic beams

Kansanen, Kalle S. U.; Tassi, Camillo; Mishra, Harshad; Sillanpää, Mika A.; Heikkilä, Tero T.

doi:10.1103/physrevb.104.214416

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Kansanen, K. S. U., Tassi, C., Mishra, H., Sillanpää, M. A., & Heikkilä, T. T. (2021). Magnomechanics in suspended magnetic beams. Physical Review B, 104(21), Article 214416. https://doi.org/10.1103/physrevb.104.214416

Published in

Physical Review B

Authors

Kansanen, Kalle S. U. |

Tassi, Camillo |

Mishra, Harshad |

Sillanpää, Mika A. |

Heikkilä, Tero T.

Date

2021

Discipline

Soveltava fysiikka Applied Physics

Copyright

Cavity optomechanical systems have become a popular playground for studies of controllable nonlinear interactions between light and motion. Owing to the large speed of light, realizing cavity optomechanics in the microwave frequency range requires cavities up to several mm in size, hence making it hard to embed several of them on the same chip. An alternative scheme with much smaller footprint is provided by magnomechanics, where the electromagnetic cavity is replaced by a magnet undergoing ferromagnetic resonance, and the optomechanical coupling originates from magnetic shape anisotropy. Here, we consider the magnomechanical interaction occurring in a suspended magnetic beam, a scheme in which both magnetic and mechanical modes physically overlap and can also be driven individually. We show that a sizable interaction can be produced if the beam has some initial static deformation, as is often the case due to unequal strains in the constituent materials. We also show how the magnetism ... showmore

Publisher

American Physical Society (APS)

ISSN Search the Publication Forum

2469-9950

Related funder(s)

Research Council of Finland

Funding program(s)

Academy Project, AoF

Additional information about funding

This work was supported by the Academy of Finland (Contracts No. 307757, No. 312057, No. 317118, and No. 321981), by the European Research Council (Contract No. 615755), and by the Centre for Quantum Engineering at Aalto University. K.S.U.K. acknowledges the financial support of the Magnus Ehrnrooth foundation. We acknowledge funding from the European Union’s Horizon 2020 research and innovation ... showmore

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Except where otherwise noted, this item's license is described as In Copyright