Spatial Evolution of the Dust-Acoustic Wave

Author

Williams, John D.

Author_Institution

Dept. of Phys., Wittenberg Univ., Springfield, OH, USA

Volume

41

Issue

4

fYear

2013

fDate

41365

Firstpage

788

Lastpage

793

Abstract

Over the past twenty years, the dust-acoustic wave (DAW) has been a subject of intense study. In this paper, high-speed video imaging is employed to measure the evolution of wavefronts of a propagating DAW as it propagates through a weakly coupled dusty plasma system in an argon dc glow discharge plasma. In particular, measurements of the growth, saturation, and, then, damping of the wave mode as the wave propagates through the cloud are reported. It is observed that the wave amplitude initially exhibits rapid growth while the wavefront compresses. After this initial growth, the width of the wavefront remains relatively constant, while the amplitude of the wavefront evolves like the background dust medium. In some cases, it is also observed that the wave amplitude can decay more quickly than the background dust medium.

Keywords

acoustic wave propagation; argon; dusty plasmas; glow discharges; plasma probes; plasma waves; Ar; argon dc glow discharge plasma; background dust medium; dust acoustic wave propagation; high-speed video imaging; nonlinear waves; plasma measurement; rapid wave amplitude growth; spatial evolution; wave mode damping; wave mode growth; wave mode saturation; weakly coupled dusty plasma system; Acoustic waves; Anodes; Atmospheric measurements; Dusty plasma; Plasma measurements; Temperature measurement; Complex (dusty) plasmas; dc glow discharge; dust-acoustic wave (DAW);

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/TPS.2012.2231083

Filename

6387745