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Laboratory Study on Disconnection Events in Comets.

Yan-Fei LiYu-Tong LiWei-Min WangDa-Wei YuanBao-Jun ZhuJia-Yong ZhongHui-Gang WeiFang LiBo HanKai ZhangXiao-Xing PeiZhe ZhangJia-Rui ZhaoChang LiuGuo-Qian LiaoZhi-Heng FangChen WangXiao-Gang WangYouichi SakawaYong-Joo RheeXin LuNeng HuaBao-Qiang ZhuTaichi MoritaYasuhiro KuramitsuXiu-Guang HuangSi-Zu FuJian-Qiang ZhuGang ZhaoJie Zhang
Published in: Scientific reports (2018)
When comets interacting with solar wind, straight and narrow plasma tails will be often formed. The most remarkable phenomenon of the plasma tails is the disconnection event, in which a plasma tail is uprooted from the comet's head and moves away from the comet. In this paper, the interaction process between a comet and solar wind is simulated by using a laser-driven plasma cloud to hit a cylinder obstacle. A disconnected plasma tail is observed behind the obstacle by optical shadowgraphy and interferometry. Our particle-in-cell simulations show that the difference in thermal velocity between ions and electrons induces an electrostatic field behind the obstacle. This field can lead to the convergence of ions to the central region, resulting in a disconnected plasma tail. This electrostatic-field-induced model may be a possible explanation for the disconnection events of cometary tails.
Keyphrases
  • high speed
  • high resolution
  • molecular dynamics simulations
  • quantum dots
  • molecular dynamics
  • diabetic rats
  • monte carlo