College of Quality and Technical Supervision and College of Physics Science and Technology, Hebei University, Baoding 071002, China.
Phys Rev E. 2019 Dec;100(6-1):063201. doi: 10.1103/PhysRevE.100.063201.
A kagome-white-eye-honeycomb hexagonal superlattice pattern is observed in dielectric barrier discharge and studied by two photomultipliers, an intensified charge-coupled device, and a spectrograph. It consists of four sublattices, which are kagome structure, halos of white-eye hexagon, honeycomb frame, and central spots hexagon. As an unconventional symmetry sublattice, the kagome structure results in amazing sublattice discharge order. Based on the consideration that any discharge is related to all previous discharges, a mapping matrix which governs self-organization of the pattern is proposed. These results will promote the development of the pattern dynamics.
在介质阻挡放电中观察到了一个笼目白限六边形超晶格图案,并通过两个光电倍增管、一个增强型电荷耦合器件和一个光谱仪进行了研究。它由四个子晶格组成,分别是笼目结构、白限六边形的晕环、蜂窝状框架和中心斑点六边形。作为一种非常规对称子晶格,笼目结构导致了惊人的子晶格放电顺序。考虑到任何放电都与所有先前的放电有关,提出了一个控制图案自组织的映射矩阵。这些结果将促进图案动力学的发展。
