Dissipative solitary waves in a two-dimensional complex plasma: Amorphous versus crystalline
H Huang and AV Ivlev and V Nosenko and W Yang and CR Du, PHYSICAL REVIEW E, 107, 045205 (2023).
DOI: 10.1103/PhysRevE.107.045205
The propagation of a dissipative soliton was experimentally studied in a two-dimensional binary complex plasma. The crystallization was suppressed in the center of the particle suspension where two types of particles were mixed. The motions of individual particles were recorded using video microscopy, and the macroscopic properties of the solitons were measured in the amorphous binary mixture in the center and in the plasma crystal in the periphery. Although the overall shape and parameters of solitons propagating in amorphous and crystalline regions were quite similar, their velocity structures at small scales as well as the velocity distributions were profoundly distinct. Moreover, the local structure rearranged drastically in and behind the soliton, which was not observed in the plasma crystal. Langevin dynamics simulations were performed, and the results agreed with the experimental observations.
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