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arxiv: 1211.4786 · v1 · pith:MUDXY64Lnew · submitted 2012-11-20 · ❄️ cond-mat.mes-hall

Microscopic magnetic structuring of a spin-wave waveguide by ion implantation in a Ni(81)Fe(19) layer

Bj\"orn Obry (1) , Thomas Meyer (1) , Philipp Pirro (1) , Thomas Br\"acher (1 , 2) , Bert L\"agel (3) , Julia Osten (4) , Thomas Strache (4)
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J\"urgen Fassbender (4) Burkard Hillebrands (1) ((1) Fachbereich Physik Forschungszentrum OPTIMAS Technische Universit\"at Kaiserslautern Germany (2) Graduate School Materials Science in Mainz (3) Nano Structuring Center (4) Institut f\"ur Ionenstrahlphysik und Materialforschung Helmholtz-Zentrum Dresden-Rossendorf Technische Universit\"at Dresden Germany)
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classification ❄️ cond-mat.mes-hall
keywords spin-waveimplantationwaveguideexcitationlocalizedmagneticmicroscopicpatterning
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We investigate the spin-wave excitation in microscopic waveguides fabricated by localized Cr+ ion implantation in a ferromagnetic Ni(81)Fe(19) film. We demonstrate that spin-wave waveguides can be conveniently made by this technique. The magnetic patterning technique yields an increased damping and a reduction in saturation magnetization in the implanted regions that can be extracted from Brillouin light scattering measurements of the spin-wave excitation spectra. Furthermore, the waveguide performance as well as the internal field of the waveguide depend on the doping fluence. The results prove that localized ion implantation is a powerful tool for the patterning of magnon spintronic devices.

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