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Dynamics of Spin Waves in 1D and 2D Magnonic Crystals of V[TCNE]<sub>x~2</sub> with YIG or Cobalt

ORAL

Abstract

A semiconducting organic ferrimagnet V[TCNE]x~2 is a newly emerging magnonic material. Recent studies have revealed that V[TCNE]x~2 has narrow linewidth, long spin lifetime and high Q factor[1-3]. In addition, deposition of high quality V[TCNE]x~2 does not require specific substrates or high temperature which is a significant advantage compared to YIG[1]. These properties of V[TCNE]x~2 indicate that it is attractive magnonic media. Here, we calculate and present the magnonic dispersions and linewidths of quasi one-dimensional and two-dimensional magnonic crystals consisting of V[TCNE]x~2 with YIG or cobalt. In each case, we consider infinitely periodic lattice structures with a finite thickness. For the calculation, the linearized Landau-Lifshitz-Gilbert equation with the plane-wave method is used[4]. We anticipate that these results will provide fundamental understanding of how to design magnonic devices based on V[TCNE]x~2.

[1] H. Yu et al. Appl Phys. Lett. 105, 012407 (2014)
[2] N. Zhu et al. Appl. Phys. Lett. 109, 082402 (2016)
[3] H. Liu et al. Nat. Mater. 17, 308-311 (2018)
[4] G. Sietsema, T. Liu, M. E. Flatté, SPIN, 7, 1740012 (2017)

Presenters

  • Kwangyul Hu

    Optical Science and Technology Center and Department of Physics, The University of Iowa

Authors

  • Kwangyul Hu

    Optical Science and Technology Center and Department of Physics, The University of Iowa

  • Michael Flatté

    Optical Science and Technology Center and Department of Physics, The University of Iowa, Department of Physics and Astronomy, University of Iowa, University of Iowa, Univ of Iowa, University of Iowa, University of Chicago, and Eindhoven University of Technology, Physics and Astronomy, University of Iowa, Department of Physics and Astronomy, The University of Iowa