HIGH HARMONIC GENERATION AND TURBULENCE OF MAGNETOELASTIC EXCITATIONS IN HEMATITE SINGLE CRYSTAL
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Strongly nonlinear resonance of the longitudinal magnetoelastic wave in a hematite single crystal has been studied experimentally. Generation of more than 40 acoustic harmonics by means of a sinusoidal rf magnetic field has been observed in periodic oscillations. Two typical kinds of bifurcations evoked by the variation of external parameters (bias magnetic-field strength, rf field frequency, and amplitude) have been found. The first one corresponds to a slow automodulation of the periodic ultrasonic excitation. The second one is accompanied by fast chaotic oscillations in the temporal domain and by generation of a few incommensurate frequencies in the ultrasonic spectrum similarly to quasiperiodic scenarios of turbulence.
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