A micro-structured ion-implanted magnonic crystal

2); (2) Graduate School Materials Science in Mainz; (3) Institut f\"ur Ionenstrahlphysik und Materialforschung; Alexander A. Serga (1); Andrii V. Chumak (1); Bj\"orn Obry (1); Burkard Hillebrands (1) ((1) Fachbereich Physik; Dresden; Florin Ciubotaru (1); Forschungszentrum OPTIMAS

arxiv: 1304.7122 · v1 · pith:6YEEJL4Ynew · submitted 2013-04-26 · ❄️ cond-mat.mes-hall

A micro-structured ion-implanted magnonic crystal

Bj\"orn Obry (1) , Philipp Pirro (1) , Thomas Br\"acher (1 , 2) , Andrii V. Chumak (1) , Julia Osten (3) , Florin Ciubotaru (1) , Alexander A. Serga (1)

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J\"urgen Fassbender (3) Burkard Hillebrands (1) ((1) Fachbereich Physik Forschungszentrum OPTIMAS Technische Universit\"at Kaiserslautern Kaiserslautern Germany (2) Graduate School Materials Science in Mainz (3) Institut f\"ur Ionenstrahlphysik und Materialforschung Helmholtz-Zentrum Dresden-Rossendorf Dresden Technische Universit\"at Dresden Germany)

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classification ❄️ cond-mat.mes-hall

keywords spin-waveimplantationlocalizedmagnetizationmagnonicpropagationsaturationtransmission

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We investigate spin-wave propagation in a microstructured magnonic-crystal waveguide fabricated by localized ion implantation. The irradiation caused a periodic variation in the saturation magnetization along the waveguide. As a consequence, the spin-wave transmission spectrum exhibits a set of frequency bands, where spin-wave propagation is suppressed. A weak modification of the saturation magnetization by 7% is sufficient to decrease the spin-wave transmission in the band gaps by a factor of 10. These results evidence the applicability of localized ion implantation for the fabrication of efficient micron- and nano-sized magnonic crystals for magnon spintronic applications.

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A micro-structured ion-implanted magnonic crystal

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