AI Article Synopsis
- The study explores the self-excited turbulence of dust acoustic waves in a dissipative dusty plasma, driven by downward ion flow, revealing unique patterns in the dust density fluctuations.
- Notable findings include a distinct low-frequency bump and power-law behavior at higher frequencies in the power spectrum, indicating complex wave dynamics.
- As neutral pressure decreases, the plasma becomes more turbulent, resulting in less distinct low-frequency features, altered statistical distributions of wave heights, and enhanced multifractal characteristics.
Article Abstract
Intermittent dust acoustic wave turbulence self-excited by downward ion flow in dissipative dusty plasma is experimentally observed and investigated. The power spectra of the temporal dust density fluctuation show distinct bumps in the low-frequency regime and power-law scaling in the high-frequency regime. The structure-function analysis demonstrates the multifractal dynamics of the wave turbulence. Decreasing dissipation by decreasing neutral pressure leads to a more turbulent state with a less distinct low-frequency bump in the power spectrum, more stretched non-Gaussian tails in the histogram of the wave-height increment at a small time interval τ, and a higher degree of multifractality. The loss of long time memory with increasing τ for a more turbulent state causes a change from the distribution with stretched non-Gaussian tails to Gaussian with increasing τ.
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| http://dx.doi.org/10.1103/PhysRevE.86.045402 | DOI Listing |
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