Spin transport parameters of NbN thin films characterised by spin pumping experiments

A. Sud; C. M. Lee; H. Kurebayashi; J. W. A. Robinson; K.R. Jeon; K. Rogdakis; L. F. Cohen; L. McKenzie-Sell; M. Amado; M. Cubukcu

arxiv: 1901.05753 · v1 · pith:6PLFOSVHnew · submitted 2019-01-17 · ❄️ cond-mat.mtrl-sci · cond-mat.mes-hall

Spin transport parameters of NbN thin films characterised by spin pumping experiments

K. Rogdakis , A. Sud , M. Amado , C. M. Lee , L. McKenzie-Sell , K.R. Jeon , M. Cubukcu , M. G. Blamire

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J. W. A. Robinson L. F. Cohen H. Kurebayashi

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classification ❄️ cond-mat.mtrl-sci cond-mat.mes-hall

keywords spinfilmsparameterspumpingthintransportanglebilayers

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We present measurements of ferromagnetic-resonance - driven spin pumping and inverse spin-Hall effect in NbN/Y3Fe5O12 (YIG) bilayers. A clear enhancement of the (effective) Gilbert damping constant of the thin-film YIG was observed due to the presence of the NbN spin sink. By varying the NbN thickness and employing spin-diffusion theory, we have estimated the room temperature values of the spin diffusion length and the spin Hall angle in NbN to be 14 nm and -1.1 10-2, respectively. Furthermore, we have determined the spin-mixing conductance of the NbN/YIG interface to be 10 nm-2. The experimental quantification of these spin transport parameters is an important step towards the development of superconducting spintronic devices involving NbN thin films.

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Spin transport parameters of NbN thin films characterised by spin pumping experiments

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