Continuous Generation of Spinmotive Force in a Patterned Ferromagnetic   Film

Yuta Yamane; Kohei Sasage; Toshu An; Kazuya Harii; Jun-ichiro Ohe,; Jun'ichi Ieda; Stewart E. Barnes; Eiji Saitoh; and Sadamichi Maekawa

arXiv:1107.0549·cond-mat.mes-hall·December 2, 2011

Continuous Generation of Spinmotive Force in a Patterned Ferromagnetic Film

Yuta Yamane, Kohei Sasage, Toshu An, Kazuya Harii, Jun-ichiro Ohe,, Jun'ichi Ieda, Stewart E. Barnes, Eiji Saitoh, and Sadamichi Maekawa

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TL;DR

This paper demonstrates the continuous generation of a dc spinmotive force in a patterned ferromagnetic film through ferromagnetic resonance, supported by both experimental data and theoretical modeling.

Contribution

It provides a combined experimental and theoretical analysis of continuous spinmotive force generation in patterned ferromagnetic films, offering a detailed microscopic understanding.

Findings

01

Successful generation of dc spinmotive force via ferromagnetic resonance

02

Experimental results align with theoretical calculations

03

Provides a quantitative understanding of the spinmotive force mechanism

Abstract

We study, both experimentally and theoretically, the generation of a dc spinmotive force. By exciting a ferromagnetic resonance of a comb-shaped ferromagnetic thin film, a continuous spinmotive force is generated. Experimental results are well reproduced by theoretical calculations, offering a quantitative and microscopic understanding of this spinmotive force.

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