Investigation of optically induced formation of magnon zones in the structure of YIG|periodic gallium arsenide
Bublikov K. V.
1, Sheshukova S. E.
2, Beginin E. N.2, Tapajna M.
1, Greguvsova D.1, Krylov S. N.1,2, Stogniy A. I.3, Korchagin S.A.4, Nikitov S. A.
2,5, Sadovnikov A. V.2
1Institute of Electrical Engineering, Slovak Academy of Sciences, Bratislava, Slovakia
2Saratov State University, Saratov, Russia
3Scientific and Practical Materials Research Center, National Academy of Sciences of Belarus, Minsk, Belarus
4Financial University under the Government of the Russian Federation, Moscow, Russia
5Kotelnikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, Moscow, Russia
Email: elekbubl@savba.sk, sadovnikovav@gmail.com
The present work is devoted to the study of the optically induced formation of the band structure of a magnon crystal consisting of a ferrite microwave diode loaded with a semiconductor with periodic thickness modulation. Using the Brillouin light scattering method, it is demonstrated that an increase in the power of laser radiation illuminating the semiconductor layer leads to the formation of non-transmission bands in the spectrum of surface magnetostatic waves (PMSW) with a simultaneous increase in the central frequency of these bands. Using the finite element method, we connected the formed non-transmission bands with the Bragg resonances of the periodic structure, and also evaluated the effect of changes in the density of semiconductor electrons on the dispersion dependences and non-reciprocal properties of PMSV in such a structure. Keywords: spin waves, magnolics, semiconductor magnonics, magnonic crystals, layered structures. DOI: 10.61011/PSS.2023.07.56399.32H
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