Abstract
Dust clouds can be confined in anodic plasmas by an equilibrium of the electric field force and the ion drag force. In these dust clouds self-excited dust density waves are observed as soon as the cloud length exceeds typical wavelengths. By superimposing an external modulation signal on the anode bias, the self-excited wave can be synchronized at the modulation frequency when the frequency is close to the natural frequency of the self-excited wave. For very low frequencies, an interaction of the center of mass motion of the cloud with the self-excited wave is found. For intermediate frequencies, close to the natural frequency of the self-excited modes, entrainment is observed, and for slightly higher frequencies a spatial cascade to subharmonic modes is found. At the highest frequencies, an influence of the modulation is still present, the wave is entrained if the modulation frequency is close to a rational factor of the natural frequency, as can be seen by the narrowing of the spectral components.
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