Enhanced spin wave propagation in magnonic rings by bias field modulation | Zendy

G. Venkat | Zendy; D. Venkateswarlu | Zendy; Rajeev Joshi | Zendy; Matteo Franchin | Zendy; Hans Fangohr | Zendy; P. S. Anil Kumar | Zendy; Anil Prabhakar | Zendy

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Enhanced spin wave propagation in magnonic rings by bias field modulation

Author(s) -

G. Venkat,

D. Venkateswarlu,

Rajeev Joshi,

Matteo Franchin,

Hans Fangohr,

P. S. Anil Kumar,

Anil Prabhakar

Publication year - 2017

Publication title -

aip advances

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.421

H-Index - 58

ISSN - 2158-3226

DOI - 10.1063/1.5006576

Subject(s) - physics , stub (electronics) , radius , dispersion (optics) , field (mathematics) , excited state , biasing , condensed matter physics , optics , atomic physics , voltage , quantum mechanics , electronic engineering , computer security , mathematics , computer science , pure mathematics , engineering

We simulate the spin wave (SW) dynamics in ring structures and obtain the ω − k dispersion relations corresponding to the output waveguide. Different bias field configurations affect the transfer of SW power from one arm of the structure to the other arm. To this end, we show that circular or radial bias fields are more suitable for energy transfer across the ring than the conventional horizontal bias field Hx. The SW dispersion shows that modes excited, when the bias field is along the ring radius, are almost 10 dB higher in power when compared to the modal power in the case of Hx. This is also corroborated by the SW energy density in the receiving stub.

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