@article{oai:nagasaki-u.repo.nii.ac.jp:00001786,
 author = {Fukuyama, Takao and Ishida, Kazutaka and Kanzaki, Hiroki},
 journal = {Plasma and Fusion Research},
 month = {Apr},
 note = {Spatiotemporal structures formed in ionization waves are experimentally investigated in this study. A system involving ionization waves in a discharge tube has a few degrees of freedom in time and space. In our experiment, neon plasma is produced in a glass tube by a glow discharge between electrodes after the tube is evacuated to form a high vacuum. Spatiotemporal signals for the analysis are sampled as fluctuations in the light intensity by using a line-scan camera and photodiodes. The largest Lyapunov exponents are calculated from the time-series data sampled from the line-scan camera and photodiodes. Reconnection in the spatiotemporal structure is observed, which is caused by Eckhaus instability. Topological defects in the spatiotemporal structure are observed, which result in the appearance of spatiotemporal chaos; this leads to an order structure when an electric pulse is applied to the system as an external force or when coupled oscillators are synchronized., Plasma and Fusion Research, 14, 3401070; 2019},
 title = {Spatiotemporal Structure of Ionization Waves in a Glow Discharge Plasma},
 volume = {14},
 year = {2019}
}