Observation of band narrowing and mode conversion in two-dimensional binary magnonic crystal
Nikita Porwal, Koustuv Dutta, Sucheta Mondal, Samiran Choudhury,, Jaivardhan Sinha, Anjan Barman, and P. K. Datta

TL;DR
This study introduces a novel binary magnonic crystal with diagonally connected nanodots, demonstrating how magnetic field orientation influences spin-wave localization, mode conversion, and potential applications in magnonic devices.
Contribution
The paper presents a new binary magnonic crystal design and explores the effects of magnetic field orientation on spin-wave modes through experiments and simulations.
Findings
Band narrowing due to mode conversion observed with field rotation.
Magnetostatic stray fields influence spin-wave mode symmetry.
Dipole-exchange coupling modifies mode profiles significantly.
Abstract
We introduce a new type of binary magnonic crystal, where NiFe nanodots of two different sizes are diagonally connected forming a unit and those units are arranged in a square lattice. The magnetization dynamics of the sample is measured by using time-resolved magneto-optical Kerr effect microscope with varying magnitude and in-plane orientation () of the bias magnetic field. Interestingly, at , the spin-wave mode profiles show frequency selective spatial localization of spin-wave power within the array. With the variation of in the range , we observe band narrowing due to localized to extended spin-wave mode conversion. Upon further increase of , the spin-wave modes slowly lose the extended nature and become fully localized again at 90. We have extensively demonstrated the role of magnetostatic…
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