Spatial–frequency selection of magnetostatic waves in a two-dimensional magnonic crystal lattice


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Abstract

Features of the propagation of magnetostatic waves in a tangentially magnetized magnonic crystal structure based on iron–yttrium garnet with a two-dimensional array of grooves on the surface are studied. Numerical simulation is performed by the finite element method and the dispersion characteristics and the spatial distribution of fields of eigenmodes of surface magnetostatic waves propagating in this structure are calculated. The characteristics of waves in the magnonic crystal structure are experimentally studied by means of Brillouin scattering. It is shown that the formation of waveguide channels is possible when the frequency of the input signal is close to the frequency of the band gap of the structure.

About the authors

S. A. Odintsov

National Research Saratov State University

Author for correspondence.
Email: odinoff@gmail.com
Russian Federation, Saratov, 410012

A. V. Sadovnikov

National Research Saratov State University; Kotel’nikov Institute of Radio Engineering and Electronics

Email: odinoff@gmail.com
Russian Federation, Saratov, 410012; Moscow, 125009

A. A. Grachev

National Research Saratov State University

Email: odinoff@gmail.com
Russian Federation, Saratov, 410012

E. N. Beginin

National Research Saratov State University

Email: odinoff@gmail.com
Russian Federation, Saratov, 410012

Yu. P. Sharaevskii

National Research Saratov State University

Email: odinoff@gmail.com
Russian Federation, Saratov, 410012

S. A. Nikitov

National Research Saratov State University; Kotel’nikov Institute of Radio Engineering and Electronics

Email: odinoff@gmail.com
Russian Federation, Saratov, 410012; Moscow, 125009

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